| Document | Document Title |
|---|---|
| US11877354B2 |
Assistance information for full-duplex relay user equipment selection
Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a relay user equipment (UE) may transmit full-duplex (FD) information associated with the relay UE, wherein the FD information indicates at least one of: a capability of the relay UE relating to FD communication, a first indication of whether the relay UE can perform FD relaying based at least in part on a condition at the relay UE, or a second indication of whether the relay UE can perform FD relaying associated with one or more beams. The UE may communicate based at least in part on the FD information. Numerous other aspects are described. |
| US11877349B2 |
Slices for applications based on multiple active sim profiles
User circuitry within a wireless User Equipment (“UE”) that may utilize multiple subscriber identity module (“SIM”) profiles activates two or more SIM profiles to be active simultaneously. The user circuitry transfers service requests for wireless data services using the SIM profiles to network circuitry. The wireless data services may have different slice service types over different operating frequency bands of different target cells. The network circuitry wirelessly exchanges data with wireless access nodes associated with the target cells over the operating frequency bands to establish packet data unit sessions comprising the slice service types using the respective SIM profiles such that multiple packet data unit sessions are active using multiple SIM profiles simultaneously. Various applications may be mapped to the appropriate SIM profile and packet data unit session based on the respective provisioned slice characteristics matching the respective application requirements. |
| US11877341B2 |
Method and apparatus for access control in wireless communication system
The present disclosure relates to an access control in a wireless communications. According to an embodiment of the present disclosure, a method performed by a central unit (CU) of a base station in a wireless communication system comprises: receiving, from a distributed unit (DU) of the base station, a list of closed access group (CAG) identifiers (IDs) supported by the DU; and controlling a communication between the DU and a wireless device based on a match between at least one CAG ID in the list of CAG IDs supported by the DU and at least one CAG ID in a list of CAG IDs supported by the wireless device. |
| US11877335B2 |
Load balancing inter-frequency measurement activities for dual network link scenarios
In a dual network link scenario, a wireless network may provide a user equipment (UE) with a measurement configuration indicating multiple inter-frequency measurement objects during an off duration of a discontinuous reception (DRX) cycle configured on a first network link. The UE may assign the inter-frequency measurement objects to a second network link if the second network link has an always-on configuration. Alternatively, if the second network link has a DRX configuration, the UE may perform some inter-frequency measurement activities on the first network link and assign some inter-frequency measurement objects to unoccupied gap occasions in the off duration for the DRX cycle configured on the second network link. In this way, the UE may save power by spending more time in a low power state, and mobility performance for the UE may be improved by increasing the efficiency and reliability of inter-frequency measurement activities. |
| US11877334B2 |
Facilitating over-the-air address rotation
A wireless client device communicates, to an access point over a secure channel, a mapping of a dynamic device address to a stable device address. By communicating the mapping, the access point is able to determine that packets received from two different device addresses originate from a common device. The access point is then able to maintain an association between the originating device and other network resources assigned or allocated to the originating device, such as IP addresses or infrastructure station address, which is used to identify the originating device to other devices outside the network in some embodiments. |
| US11877330B2 |
Methods and devices for sidelink communication
Embodiments of the present disclosure relate to methods, devices and computer readable mediums for sidelink communication. The method comprises receiving, at a first terminal device and from a second terminal device, an indication whether a link identification field is to be included in sidelink control information. The method further comprises in response to a determination that the indication indicates that the link identification field is not to be included in the sidelink control information, transmitting, to the second terminal device, first sidelink control information via a sidelink between the first terminal device and the second terminal device, the first sidelink control information including a device identification of the second terminal device, and receiving, from the second terminal device, a first HARQ feedback for the first sidelink control information, the first HARQ feedback including the device identification. |
| US11877328B2 |
System and method for encoding of local bandwidth conditions into tunneling message
A method, a system, and a non-transitory storage medium provide for encoding a general packet radio service (GPRS)-tunnel endpoint identifier (GTP-TEID) with data identifying radio frequency (RF) bandwidths supported in a local radio environment (LRE) from which a user equipment (UE) device accesses the wireless access station; sending, via a signaling channel, the GTP-TEID to a core network device; notifying one or more core network devices of an RF bandwidth category level corresponding to the RF bandwidths; and applying at least one of a policy rule or a charging rule to a packet data unit (PDU) session for the UE device, based on the RF bandwidth category level. |
| US11877326B2 |
Wireless communication method and communication device
A wireless communication method includes: receiving, by a network device, a data packet which is transmitted from a first terminal device through a control plane or a user plane within a 3rd Generation Partnership Project (3GPP) network; and sending, by the network device, the data packet to a second terminal device through the control plane or the user plane within the 3GPP network. |
| US11877321B2 |
Constrained multi-link device operations in wireless communications
A multi-link device (MLD) monitors each of first and second links in a multi-link operation in wireless communications, with the first link being a primary link and the second link being a secondary link. The MLD obtains a transmission opportunity (TXOP) on one of the first link and the second link as a result of performing a contention-based channel access on the first link and the second link. The MLD checks channel status of the other of the first link and the second link. The MLD then transmits one or more frames on the first link but not on the second link, on the second link but not on the first link, or on both the first link and the second link synchronously, responsive to the channel status of the other link given the TXOP being obtained on the one of the first link and the second link. |
| US11877313B2 |
Method and apparatus for sidelink retransmission in wireless communication system
Proposed is a method for operating a first apparatus (100) in a wireless communication system. The method may comprise the step in which a first apparatus (100) determines a first transmission count for a sidelink service, and on the basis of the first transmission count, transmits a sidelink service to a second apparatus (200), and receives, from the second apparatus (200), one hybrid automatic repeat request (HARQ) feedback associated with the sidelink service. For example, the first transmission may comprise at least one blind retransmission. |
| US11877312B2 |
Dynamic channel selection and DFS re-entry
A wireless network device, for operation within a wireless network, the wireless network device comprising: a wireless interface operable on one or more wireless channels; a memory; and a process configured to: scan at least one channel for predetermined time duration; and make a channel quality assessment measurement during the predetermined time duration, wherein the processor is adapted to synchronize the predetermined time duration with other wireless network devices that are operable in the wireless network and that scan the at least one channel and make channel quality assessment measurements during substantially the same predetermined time duration, wherein the channel quality assessment measurement is compared with other channel quality assessment measurements from other network devices that are operable in the wireless network thereby to enable determination of an optimal channel for communication between the network devices and wherein the wireless network device is configured to operate on the optimal channel. |
| US11877310B2 |
Information measurement method, terminal device, and network device
Provided by the implementations of the present disclosure are an information measurement method, a terminal device, and a network device. The method comprises: a network device receiving first information sent by a terminal device, the first information comprising state information of the terminal device; the network device configuring RRM measurement for the terminal device after receiving the first information. |
| US11877307B2 |
Signaling of non-linearities for inter-UE interference cancellation
Systems, methods, and devices for wireless communication that support mechanisms signaling non-linearities to a victim user equipment (UE) for interference cancellation in a wireless communication system. A victim UE may experience interference from an uplink transmission by an aggressor UE to a base station. The victim UE may obtain a power amplifier model associated with the aggressor UE. The power amplifier may include a non-linearity model of a power amplifier of the aggressor UE causing the interference on the victim UE. The power amplifier model obtained by the victim UE may be dependent on various parameters, such as a transmit power used by the aggressor UE to transmit the uplink transmission causing the interference. Based on the aggressor UE transmit power, the victim UE may select parameters for power amplifier model and may estimate the interference caused by the uplink transmission for interference cancellation. |
| US11877302B2 |
Control channel element and blind decode limits for physical downlink control channel
Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a user equipment (UE) may receive configuration information for a plurality of carriers, wherein a number of carriers, of the plurality of carriers, exceeds a threshold associated with a monitoring capability of the UE, wherein the monitoring capability is for span-based monitoring of the plurality of carriers, wherein a distribution of at least one of a plurality of non-overlapped control channel elements (CCEs) or a plurality of blind decodes satisfies a per-span capability of the UE, wherein the distribution is among a plurality of sets of carriers, and wherein each set of carriers of the plurality of sets of carriers is associated with a respective subcarrier spacing and a respective span configuration. The UE may receive communications on the plurality of carriers in accordance with the distribution. Numerous other aspects are described. |
| US11877301B2 |
Method and apparatus for transmitting buffer size information in wireless communication system
The present disclosure relates to a method for transmitting signals by a transmission end in a wireless communication system. In particular, the method includes configuring first and second type logical channel groups; receiving a first uplink grant; and transmitting buffer size information based on the uplink grant, wherein, when the first uplink grant is allowed to be used for transmission of buffer size information of the second logical channel group, the buffer size information includes the buffer size information of the first and second logical channel groups, and wherein, when the first uplink grant is not allowed to be used for transmission of buffer size information of the second logical channel group, the buffer size information includes the buffer size information of the first logical channel group. |
| US11877300B2 |
Low-frequency uplink signal based positioning
A method of indicating resources for uplink-based positioning includes: determining whether a UE is within a downlink coverage area of a serving cell, for a first frequency band and a transmit power of the serving cell, and outside an uplink coverage area of the serving cell for the first frequency band and a transmit power of the UE; identifying a second frequency band supported by the UE, the second frequency band including frequencies below a lowest frequency of the first frequency band; and providing at least one PRS indication indicating at least OFDM UL-PRS resources in the second frequency band for the UE based on a determination that the UE is outside the uplink coverage area of the serving cell for the first frequency band and the transmit power of the UE. |
| US11877297B2 |
Method and system for signaling transmission layers for single user and multi user MIMO
A method and system to signal transmission layers or dedicated reference signal ports to be used in a multiple input multiple output system, the method including providing a downlink control signal containing information for transmission layers or dedicated reference signal ports utilized, the dedicated reference signal ports being associated with the transmission layers; and using the information to demodulate data on each transmission layer. |
| US11877295B2 |
Downlink assignment index processing in multiple physical downlink shared channel scenarios
Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a user equipment (UE) may receive a grant associated with a plurality of physical shared channel resources. The UE may transmit a communication, associated with the grant, including a downlink assignment index field with a value calculated based at least in part on the plurality of physical shared channels, wherein a configuration of the downlink assignment index field is based at least in part on a quantity of start and length indicator values configured for the UE. Numerous other aspects are described. |
| US11877294B2 |
Response-based resource management
Certain aspects of the present disclosure provide techniques for support response-based resource management. A UE may determine an uplink response to be transmitted in response to a downlink transmission by a first TRP participating in CoMP to the UE with a second TRP. The first UE may select which of the first TRP or the second TRP to transmit the uplink response to, based at least in part on the determined uplink response and may transmit the uplink response to the selected first or second TRP. |
| US11877293B2 |
Skipping occasions in semi-persistent scheduling
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 that one or more semi-persistent scheduling (SPS) occasions, within a periodic set of SPS occasions, will be skipped. Accordingly, the UE may refrain from monitoring, for signals from the base station, during the one or more SPS occasions that are skipped. Additionally, in some aspects, the UE may refrain from transmitting, to the base station, acknowledgment feedback associated with the one or more SPS occasions that are skipped. Numerous other aspects are provided. |
| US11877292B2 |
Techniques for activating and releasing resources across multiple component carriers
Methods, systems, and devices for wireless communications are described. A user equipment (UE) may identify a resource configuration for communications with a base station on a multiple sets of resources across multiple component carriers, the resource configuration including at least a first set of resources on a first component carrier and a second set of resources on a second component carrier. The UE may receive, from the base station, a downlink control information (DCI) message on the first component carrier, the DCI message including a DCI format that controls the multiple of sets of resources across the plurality of component carriers. The UE may determine that the first set of resources and the second set of resources are one of activated or released based on a first indication in the DCI message. |
| US11877289B2 |
Multiple physical uplink control channel (PUCCH) resources for an uplink control information (UCI) report
A method for providing multiple physical uplink control channel (PUCCH) resources for a uplink control information (UCI) report can include receiving one or more PUCCH resource configurations from a base station (BS) at a user equipment (UE) in a wireless communication system, and determining a first PUCCH resource configuration from the one or more PUCCH resource configurations for reporting a UCI. The first PUCCH resource configuration can indicate multiple frequency domain transmission occasions in a bandwidth. The UCI can be transmitted on at least one of the multiple frequency domain transmission occasions indicated by the first PUCCH resource configuration. |
| US11877287B2 |
Channel deactivation and control for wireless communications
Channel deactivation and control for wireless communications are described. A base station may communicate with a wireless device via one or more cells. The base station may determine a deactivation condition for a cell associated with a control channel and may alter behavior associated with at least one channel communication via another cell. |
| US11877284B2 |
Integrated access and backhaul with reversed scheduling
There is provided mechanisms for performing IAB in a cellular telecommunications network that comprises a first IAB node and a second IAB node. A method is performed by the first IAB node. The method comprises scheduling, in a first phase, downstream backhaul data from the first IAB node to the second IAB node. The method comprises receiving, in a third phase, from the second IAB node, upstream backhaul data as scheduled by the second IAB node. |
| US11877283B2 |
Terminal device, base station device, and method
A terminal device for performing communication method, the terminal device comprising a receiver for receiving a PDCCH having a first DCI format; and a transmitter for transmitting a PUCCH including UCI, and a PUSCH. The transmitter multiplexes the UCI onto a first PUSCH dynamically scheduled via the first DCI format when the PUCCH conflicts with a first plurality of PUSCHs including the first PUSCH and a second PUSCH for semi-permanently transmitted CSI, and multiplexes the UCI onto a third PUSCH for aperiodically transmitted CSI when the PUCCH conflicts with the third PUSCH. |
| US11877281B1 |
Method and apparatus for transmitting uplink control information in a wireless communication system
A method and apparatus are disclosed. In an example from the perspective of a User Equipment (UE), the UE receives one or more signals indicative of a first Physical Uplink Shared Channel (PUSCH) and a second PUSCH on a first cell and in a Transmission Time Interval (TTI). The UE determines to transmit a first Uplink Control Information (UCI) in the TTI, wherein the first UCI overlaps with the first PUSCH and the second PUSCH in time domain. The UE selects the first PUSCH for multiplexing the first UCI based on whether the UE is configured with joint Hybrid Automatic Repeat Request (HARQ) feedback mode or separate HARQ feedback mode. The UE transmits the first PUSCH and the second PUSCH on the first cell, wherein the first PUSCH transmitted on the first cell includes the first UCI. |
| US11877278B2 |
Sidelink DRX timer-based power-saving method and device of power-saving terminal in NR V2X
Proposed is a method for operating a first device (100) in a wireless communication system. The method may comprise the steps of: starting a first timer related to an on-duration interval; transmitting first sidelink control information (SCI) for scheduling a first physical sidelink shared channel (PSSCH) and second SCI to a second device (200) through a physical sidelink control channel (PSCCH); transmitting the second SCI including information associated with a channel state information (CSI) request to the second device (200) through the first PSSCH; and receiving, from the second device (200), a medium access control (MAC) control element (CE) including a CSI report associated with the CSI request, on the basis of a second timer which is in operation. |
| US11877275B2 |
Method for adaptively setting reference signal pattern in wireless communication system, and apparatus therefor
The present disclosure provides a method for a user equipment (UE) to receive a reference signal from a base station in a wireless communication system. More specifically, the method includes receiving, from the base station, configuration information, wherein the configuration information includes first mapping information related to a mapping relationship between a plurality of mapping patterns, to which dedicated demodulation reference signals are mapped on a resource, and a plurality of transmission beams through which the dedicated demodulation reference signals are transmitted; receiving, from the base station, a first demodulation reference signal related to a demodulation of downlink data; and receiving, from the base station, the downlink data via a channel estimated based on the first demodulation reference signal. |
| US11877273B2 |
Tone reservation signaling outside of an allocated bandwidth
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 to transmit tone reservation signaling, configured to reduce a peak-to-average-power-ratio for one or more of the UE or the base station, on one or more subcarriers outside of an allocated bandwidth that is allocated for an uplink communication scheduled for the UE. The UE may transmit, to the base station, signaling that includes the uplink communication within the allocated bandwidth and the tone reservation signaling on the one or more subcarriers. Numerous other aspects are provided. |
| US11877254B2 |
Systems and methods to avail services of a network
A user equipment (UE) may ascertain an incapability of the network to process a pending uplink signal based on a registration acceptance message from the network. For instance, a registration acceptance message from the network, that may indicate the network is not capable of processing the pending uplink signal service. Accordingly, upon ascertaining the incapability of the network to process the pending uplink signal, the UE may release a connection (e.g., a N1 Non-Access Stratum (NAS) signaling connection) between the UE and the network, where the connection is based on camping of the UE at a cell corresponding to the radio access network (RAN) (e.g., the NG-RAN) of the network. Alternatively, the UE may initiate one of an implementation dependent timer and a release timer (e.g., a T3540 timer) to release the connection (e.g., to release the N1 NAS signaling connection). |
| US11877246B2 |
Uplink power control for SRS carrier-based switching
According to some embodiments, a method for use in a user equipment (UE) operable to transmit a sounding reference signal (SRS) on a plurality of carriers comprises: obtaining an indication to perform SRS carrier-based switching for a carrier; adapting a parameter for uplink transmit power control in response to the obtained indication; and transmitting an uplink signal using the adapted parameter while meeting at least one predetermined uplink power control requirement. According to some embodiments, a method for use in a network node operable to receive a SRS on a plurality of carriers comprises: sending, to a UE, an indication to perform SRS carrier-based switching for a carrier; and receiving, from the UE, an uplink signal based on the parameter for uplink transmit power control adapted in response to the sent indication, wherein the uplink signal meets at least one uplink power control requirement. |
| US11877243B2 |
Method for reducing power consumption of terminal in mobile communication system using multi-carrier structure
A method for reducing power consumption of a terminal that communicates with a base station in a mobile communication system using a multi-carrier structure composed of a primary component carrier and at least one secondary component carrier comprises: receiving a discontinuous reception (DRX) parameter group for multi carriers from the base station; and setting the multi carriers to the same parameter value, by using the received parameter group. The method for reducing power consumption of the terminal further comprises: performing a downlink control channel receive operation on each carrier according to a DRX cycle. As the base station in the mobile communication system using the multi-carrier structure simplifies the DRX process for reducing power consumption of a terminal by reducing signaling load for the multi-carrier control of the terminal, it becomes possible to reduce power consumption of the terminal. |
| US11877240B2 |
Considerations for sidelink (SL) wake up signals (WUSs)
Certain aspects of the present disclosure relate to wireless communications, and more particularly, to techniques for sidelink (SL) power saving using SL wake up signals (WUSs). A method that may be performed by a user equipment (UE) includes determining resources for SL WUS transmissions from a second UE, based on a WUS resource configuration, monitoring the resources for an SL WUS from the second UE, and participating in SL communications with the second UE if an SL WUS is detected during the monitoring. |
| US11877239B2 |
Systems and methods for optimizing a radio metric within a mesh network by waking up nodes
Systems and methods disclosed herein optimize radio metrics between nodes within a mesh network by waking up nodes not actively connected to a mesh network. A mesh network system includes a computing device configured to determine that a radio metric between a first node and a second node in a mesh network is above a predetermined threshold, identify a third node operating in sleep mode, when the radio metric is above the predetermined threshold, and cause the third node to wake and connect to the mesh network, the third node is configured to relay communication between the first node and the second node. |
| US11877238B2 |
Power saving for multicast broadcast services
A method of power saving in multicast broadcast services (MBS) communications includes determining, by a user equipment (UE) and based on channel measurements; at least one of: whether to resume transmitting paused uplink feedback or to stop transmitting uplink feedback associated with MBS data and whether to switch a periodicity associated with the uplink feedback; and transmitting or stopping transmitting of the uplink feedback based on the determining. The uplink feedback may be one of hybrid automatic repeat request (HARQ) feedback or channel state information (CSI) report. Transmitting the uplink feedback may be based on a physical uplink control channel (PUCCH). Preferably, the user equipment (UE) is in a radio resource control (RRC) connected state. |
| US11877233B1 |
Real-time location system for selectively coordinating operative wireless communications protocols when ranging between supporting nodes
Provided are a system and method for selectively coordinating operations of wireless communications nodes according to a plurality of included wireless communications protocols. Such selective coordination encompasses transitioning transmit and receive windows to be operable according to a respective protocol depending upon the occurrence of a ranging operation, whereas the transitioning is targeted at conserving energy consumption. |
| US11877226B2 |
Method of providing access for reduced capability devices, user equipment, and base station thereof
The method at the user equipment (UE) includes first receiving authorization information, the authorization information including configuration data for reduced capability (REDCAP) devices in the communication network, second receiving system information from at least one first base station serving a first cell, the system information including information specific to a device category associated with the UE, determining access information for the first cell, based at least in part on the system information and the authorization information, and accessing the first cell, or identifying a second cell. The user equipment and the base station are configured to perform the method, thereof. |
| US11877221B1 |
Uncertainty based altitude filtering for location reporting in E911 systems
Systems, methods, and computer-readable media herein generate an E911 location report based on an altitude or an altitude uncertainty associated with an estimated location received from a UE device. The altitude and altitude uncertainty may be compared to determined thresholds to determine which portions of the estimated location to include in an E911 location report sent to a PSAP. A location report generated to include the location information that is based on evaluating the altitude and altitude uncertainty can be sent to a PSAP, thus providing the most relevant and accurate information so that first responders can more effectively locate a distressed caller. |
| US11877219B2 |
Systems, apparatuses and methods for device pairing having range control and unintended device coexistence detection
Devices, systems and methods are provided to improve pairing between first and second devices to mitigate risk that either device pairs with an unintended device by reducing transmit power to limit communication range between devices to be paired, using minimum and maximum received signal strength thresholds to reject unintended devices, and instructing user to move to another location when multiple devices are detected for pairing. The second device scanning time for detecting advertising signals from the first device is adjusted to detect multiple device co-existence. Pairing is controlled to occur when the second device is the only device that the first device detects. |
| US11877218B1 |
Multi-factor authentication using biometric and subscriber data systems and methods
Systems and methods for granting access to a user to a resource associated with a telecommunications network based on network-based authentication combined with biometric authentication, such as using a cardiac signature. Heartbeat information is received from a user via a mobile device. When a match is determined between the heartbeat information and a stored cardiac signature that uniquely identifies the user, then the user is authenticated to use the mobile device. A second authentication is performed using subscriber identity module (SIM) information associated with the mobile device. Based on the first and second authentication, the user is granted access to a resource associated with the telecommunications network, such as resources provided by a telecommunications service provider or a third party. |
| US11877215B2 |
V2X message transmission method, device, and system
Embodiments of this disclosure provides vehicle to everything (V2X) message transmission methods, devices, and systems. One method comprises: determining, by a terminal device, identification information of a first V2X message, wherein the identification information of the first V2X message comprises at least one of a service identifier of the first V2X message or a communication layer identifier of the first V2X message; determining, by the terminal device, a first identifier identifying a first quality of service (QoS) flow based on the identification information of the first V2X message and at least one packet filter set; and sending, by the terminal device, the first V2X message by using the first QoS flow. |
| US11877214B2 |
Method, apparatus and system for social networking
A method, apparatus and system for social networking is provided. In an embodiment, the system comprises a plurality of mobile devices that can directly connect to each other via a peer-to-peer connection. The devices can additionally connect to a server. The server maintains a profile schema which can be used to generate profiles for users for each of the mobile devices. Electronic devices are paired based on a shared key maintained in an application loaded on the first electronic device and the second electronic device. |
| US11877210B2 |
Method and device for assisting the positioning of a device capable of connecting to a Wi-Fi local area network of a home gateway of a user
A method and a device for assisting the positioning of a device capable of connecting to a Wi-Fi local area network of a domestic gateway of a user. Such a method is implemented by a mobile terminal placed in a domestic environment of the user. The Wi-Fi signal levels emitted by the mobile terminal and received by the domestic gateway originate from the domestic gateway, and at successive time intervals, and an average is calculated during a sliding time window and of a determined duration. This average is compared with a value of at least one determined threshold. A piece of information representative of the area of the domestic environment in which the mobile terminal is located with respect to the domestic gateway, is returned to the user. |
| US11877206B2 |
Mobile device and automotive device interface for geolocation searching
A method of presenting data on a mobile device is provided, comprising reading a compass and an accelerometer for sensing orientation and movement of the mobile device, initiating a local geographic search or query by pointing the mobile device in a desired direction, determining a boundary for search results, the boundary based on a current location of the mobile device, providing the boundary to a server, storing (a) search rules for a given location, (b) localized storage of POI data, and (c) logic for switching the search from a macro database to a micro database, and initiating a geographic query for points of interest (POIs) that have an associated geographic position within the boundary. |
| US11877205B2 |
Method for data retrieving and distributing using geofence based triggers
A method for retrieving data, such as telematics data, from a vehicle, to which a tour is assigned, and forwarding at least a subset of those data to an observer. The method comprises the steps of determining a location of the vehicle. Providing two or more concentric geofence, the concentric geofences comprises an outer geofence and an inner geofence. Define a start concentric geofence with a pick-up location inside an inner geofence and an end geofence with a delivery location inside an inner geofence. After a tour is assigned to the vehicle, retrieve at a server the data from said vehicle. Forwarding from the server a subset of the data to the observer, where the subset is defined as data retrieved from the vehicle being within a geographical region defined as where the vehicle enters an outer geofence of said start concentric geofence and exit of an inner geofence of an end concentric geofence. |
| US11877204B2 |
Electronic apparatus and method for controlling function on basis of location and direction of object
An electronic apparatus according to various embodiments comprises: a wireless communication circuit comprising a broadband communication module and a Bluetooth communication module; a processor; and a memory operationally connected to the wireless communication circuit, wherein the memory may store instructions for controlling the processor, when executed, to measure a distance from a mobile device on the basis of a first signal transmitted and received through the broadband communication module, determine a direction in which the mobile device is located according to whether a second signal transmitted and received through the Bluetooth communication module is measurable, and control execution of a function of the electronic apparatus according to the determined direction of the mobile device when the measured distance of the mobile device is located in an area set for the execution of the function. |
| US11877203B2 |
Controlled exposure to location-based virtual content
Systems, methods, and non-transitory computer readable media including instructions for enabling location-based virtual content. Enabling location-based virtual content includes receiving an initial location of a particular wearable extended reality appliance; performing a first lookup for a first rule associating the particular wearable extended reality appliance with the initial location, the first rule permitting display of a first type of content and preventing display of a second type of content in the initial location; implementing the first rule; receiving a subsequent location of the particular wearable extended reality appliance; performing a second lookup for a second rule associating the particular wearable extended reality appliance with the subsequent location, the second rule preventing display of the first type of content and permitting display of the second type of content in the subsequent location; and implementing the second rule. |
| US11877202B2 |
Handovers between IPV4 public data network sessions and 5G radio access networks
To facilitate a handover of mobile devices from 4th Generation (4G) networks to 5th Generation (5G) networks, a mobility management entity (MME) of the 4G network core inactivates a data session in which the mobile device is assigned an Internet protocol version 4 (IPv4) address. The MME generates a modified context of the mobile device that omits the IPv4 address of the device. The inactivation of the IPv4 session causes the mobile device to initiate a new data session with the 5G core network, in which the device will be assigned a new IPv6 address for use on a data network. The modified context is used by the 5G network to configure communications for the mobile device without interrupting network service to the mobile device. |
| US11877199B2 |
Base station management method, base station management apparatus and program
A base station information DB (11) of a base station management apparatus (1) stores base station information that indicates wireless schemes that can be implemented by base stations (5), scheduled periods for implementation of the wireless schemes, and coverage areas of the base stations (5) in which wireless terminals can be accommodated. A use base station selection unit (14) creates a list of base stations (5) that can cover an entirety or part of a coverage area of a failed base station, which is a base station (5) that has failed, with reference to the base station information, selects a base station (5) that can implement an implementation-scheduled wireless scheme, which is a wireless scheme that is scheduled to be implemented by the failed base station, during a scheduled implementation period, which is the scheduled period for implementation of the implementation-scheduled wireless scheme of the failed base station, from among the base stations (5) included in the list, and sets the selected base station (5) so as to provide the implementation-scheduled wireless scheme to the coverage area of the failed base station during the scheduled implementation period. |
| US11877198B2 |
Mobility management in wireless networks
A method for wireless communications includes operating a first network element in a wireless communication network to provide connectivity between a first core network and a user device, wherein the wireless communication network includes a second network element that is configured to provide a secondary connectivity between the first core network and the user device, and communicating, by the first network element, in a handover to a third network element configured to provide connectivity with a second core network, configuration information of the second network element to the third network element. |
| US11877196B2 |
Cell and beam selection for conditional handover procedure
Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a user equipment (UE) may determine a set of cell quality measurements for a set of candidate target cells. The UE may select a target cell, from the set of candidate target cells, and a beam, of one or more beams of the target cell, for a conditional handover procedure and based at least in part on the set of cell quality measurements. The UE may perform the conditional handover procedure to transfer from a source cell to the target cell based at least in part on selecting the target cell and the beam. Numerous other aspects are provided. |
| US11877193B2 |
Enhanced internet protocol multimedia subsystem call handling
Systems and methods of enabling access for non-emergency voice calls are described. A UE operates in a network supporting voice services via a multitude of RATs. The UE attempts to access the network via a first RAT offering voice services and data services. If the UE does not receive a response from the network within a first time period, the UE re-attempts the access to the network via the first RAT. If the number of access attempts for which the UE does not receive a response is at least a threshold value, the UE refrains during a second time period from further access attempts via the first RAT for the purpose of receiving data services, and continues to attempt access via the first or second RAT for the purpose of receiving voice services. |
| US11877188B2 |
Implementing a fault-tolerant multi-NRF network topology
A system, apparatus, method, and non-transitory computer readable medium for implementing a fault-tolerant multi-NRF network topology may include a network repository function (NRF) device including: at least one processor configured to execute computer readable instructions to cause the NRF device to, broadcast a NRF query to a NRF cluster of a core network, the NRF cluster including a plurality of NRF devices located in a public land mobile network (PLMN); receive NRF query responses from each NRF device of the NRF cluster, the NRF query responses including network configuration information of each NRF device; determine a status of each NRF device based on the network configuration information; determine a list of network function (NF) devices registered with the NRF cluster; receive a NF query request from a first NF device; and transmit a NF query response to the first NF device. |
| US11877187B2 |
Radio access network node, core network node, radio terminal, and methods therefor
A master RAN node (1) sends, to a control plane function (5) in a core network (4), a modification request for modification of a first PDU session already established between a radio terminal (3) and a user plane function (6) in the core network (4). The modification request implicitly or explicitly indicates that PDU session split is needed for the first PDU session. The modification request causes the control plane function (5) to control the user plane function (6) to move a specific one or more QoS flows of a plurality of QoS flows associated with the first PDU session from a first tunnel between the user plane function (6) and the master RAN node (1) to a second tunnel between the user plane function (6) and a secondary RAN node (2). This contributes, for example, to implementing PDU session split in a radio communication network. |
| US11877178B2 |
Data transmission method and apparatus
Embodiments of this patent application provide a data transmission method and an apparatus for determining, by a core network (CN) device, a length of a quality of service flow identifier (QFI) used when a protocol data unit (PDU) session is established or modified for a terminal device; and sending, by the CN device, a first message to a radio access network (RAN) device, where the first message includes length information of at least one QFI. After receiving the first message from the core network CN device, the access network RAN sends a second message to the terminal device, where the second message includes the length information of the at least one QFI. |
| US11877177B2 |
Systems and methods for providing edge-based quality of service orchestration for multi-access edge computing (MEC) in a network
A device may receive data indicating a required quality of service (QoS), and may receive radio access network (RAN) information associated with a RAN, wherein the RAN information is provided by a centralized unit (CU) of the RAN. The device may provide the RAN information to a multi-access edge computing (MEC) platform, and may receive, from the MEC platform, a QoS request that requests the required QoS. The device may provide the QoS request to the CU, and may receive a QoS response to the QoS request. The device may provide the QoS response to a policy control function (PCF) of a core network, and may receive an indication of approval of the QoS response from the PCF. The device may cause, based on receiving the indication of approval, the required QoS to be implemented by the MEC platform and network devices associated with the core network. |
| US11877176B2 |
Determining data available for transmission
Apparatuses, methods, and systems are disclosed for determining data available for transmission. One method includes associating a packet data convergence protocol entity with a first radio link control entity and a second radio link control entity belonging to two different cell groups. The method includes determining an amount of data available for transmission, the amount of data available for transmission including packet data convergence protocol data and radio link control data pending for initial transmission in the first radio link control entity and the second radio link control entity. The method includes comparing the amount of data available for transmission with a threshold. The method includes submitting the packet data convergence protocol data to a first radio link control entity in response to the amount of data available for transmission being below the threshold. |
| US11877175B2 |
Method and device in node used for wireless communication
The present disclosure provides a method and a device in node used for wireless communication. The communication node first performs X first-type measurement(s) in a target time-frequency resource pool, and the X first-type measurement(s) is (are respectively) used for acquiring X first-type measurement value(s); performs a target second-type measurement, the target second-type measurement being used for acquiring a second-type measurement value; and then transmits a first radio signal. Herein, the X first-type measurement value(s) is(are) used for the target second-type measurement, and the target time-frequency resource pool is one of Q alternative time-frequency resource pools related to a Subcarrier Spacing (SCS) of subcarriers occupied by the first radio signal; there exist two of the Q alternative time-frequency resource pools that comprise different time-frequency resources. |
| US11877173B2 |
Optimization of channel quality indicator (CQI) feedback for multiple component carriers
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 plurality of communications on a plurality of component carriers. The UE may transmit, to the base station, uplink control information that includes a first portion that indicates respective feedback for the plurality of communications, and a second portion that indicates an average channel quality indicator (CQI) value and respective differential values, relative to the average CQI value, for multiple communications, of the plurality of communications, for which negative acknowledgment feedback is transmitted. Numerous other aspects are provided. |
| US11877166B2 |
Method and device for recovering beam failure in wireless communication system
A method and device for performing beam failure recovery in a wireless communication system. A method for a user equipment (UE) to perform beam failure recovery (BFR) in a wireless communication system may include: receiving, from a base station, a radio resource control (RRC) signaling for configuring at least one parameter related to a BFR procedure for each of a plurality of serving cells configured with two beam failure detection (BFD)-reference signal (RS) sets; based on a beam failure being detected for at least one of the two BFD-RS sets configured for at least one serving cell among the plurality of serving cells, triggering the BFR procedure for the at least one of the two BFD-RS sets based on the RRC signaling; and transmitting, to the base station, an enhanced BFR media access control (MAC)-control element (CE). |
| US11877163B2 |
Systems and methods for operating radio access networks with high service availability
Disclosed is a method of operating a Radio Access Network (RAN) including a Radio Unit (RU), a first Distributed Unit (DU), a second DU that functions as a dynamic standby DU, and a network management device. After the RU transmits data to the first DU using a configuration parameter set to an address of the first DU, the RU detects an outage of the first DU. In response to detecting the outage, the RU transmits to the network management device a message indicating detection of the outage. In response, the network management device configures the second DU to perform the functions of the first DU, and causes the second DU to request the RU to set the configuration parameter to an address of the second DU. The RU then uses the configuration parameter set to the address of the second DU to transmit data to the second DU. |
| US11877162B2 |
Network-driven, location-aware, dynamic slice management for drones
A method and system is described that performs dynamic slice management for unmanned aerial vehicles (UAVs). Flight path information associated with a flight path of a UAV is used to determine a predicted optimal application and a predicted optimal network slice for use by the UAV at a location along the flight path. Information associated with the predicted optimal application and the predicted optimal network slice is transmitted to the UAV for use by the UAV at the location. The available network slices to the UAV may be updated based on the determined predicted optimal slice. The UAV may adjust its usage of applications and/or slices based on the information it receives associated with the predicted optimal application and the predicted optimal network slice. |
| US11877156B2 |
Methods, UE and nodes for handling system information protection
The present disclosure relates to a method performed by a UE (103) in a communications system (100). The UE (103) provides information indicating its SI protection capability to a node (101, 105). The SI protection capability is associated with the UE's (103) capability and need to verify SI signatures. The UE (103) obtains SI protection information from the node (101, 105), and uses the SI protection information. |
| US11877155B2 |
Method of performing integrity verification on downlink data of DRB and reporting information, user equipment and computer readable storage medium
The present disclosure relates to a method and apparatus for reporting information, user equipment, and a computer readable storage medium. In the present disclosure, the method of reporting information includes: receiving downlink data of a data radio bearer (DRB) enabled with an integrity protection function and performing an integrity verification on the downlink data of the DRB; and triggering an integrity-verification-failure-related-information reporting in response to that the integrity verification fails, where the integrity-verification-failure-related-information includes one or more of parameters: location information of the UE, a failure indication type of IntegrityVerificationFailure, indication information of a triggering way to trigger the integrity-verification-failure-related-information reporting, and a number of integrity verification failures. |
| US11877149B2 |
Protection of initial non-access stratum protocol message in 5G systems
Systems and methods of protecting an initial NAS message are described. Depending on whether a security context for a serving PLMN is stored, the UE uses either a public key from the serving PLMN or a key from the security context to encrypt parts of the initial NAS message. An initial NAS message containing the encrypted parts is then sent to an AMF of the serving PLMN. The serving PLMN public key is transmitted via a SIB. Prior to transmission of the initial NAS message or in parallel with it, an RRC message is sent to the base station. The RRC message contains the UE identifier and/or a NSSAI encrypted using the serving PLMN public key. |
| US11877147B2 |
Methods, device and computer-readable medium for protecting MAC addresses
Embodiments of the disclosure provide a method, device and computer readable medium for protecting MAC addresses. According to embodiments of the present disclosure, the terminal device may obtain a set of virtual MAC addressed from a network device and may connect with a further network device (for example, Wi-Fi AP or Bluetooth devices) using the virtual MAC addresses. In this way, tracking the terminal device with MAC address is prevented so that user privacy protection could be enhanced. |
| US11877145B2 |
Premium device-aided low-tier device group delay calibration for NR positioning
Techniques are provided for calibrating group delay for a low-tier UE by leveraging the relatively high accuracy of RTT positioning for a premium UE. This can enable online/in-field group delay calibration of low-tier UEs, allowing for low-tier UEs to be calibrated when needed. Depending on desired functionality, techniques for calibration may include the use of RTT measurements with a base station, or an RTT measurement between the low-tier UE and the premium UE. |
| US11877144B2 |
Sidelink resource allocation enhancements
Various examples and schemes pertaining to enhancements for sidelink (SL) resource allocation in New Radio (NR) vehicle-to-everything (V2X) communications are described. A user equipment (UE) transmits to a peer UE assistance information with respect to a result of sensing of one or more resources reserved for a SL communication. The UE then receives a transmission from the peer UE on a resource selected by the peer UE based on the assistance information. |
| US11877142B2 |
Methods, apparatus and systems for three degrees of freedom (3DOF+) extension of MPEG-H 3D audio
Described is a method of processing position information indicative of an object position of an audio object, wherein the object position is usable for rendering of the audio object, that comprises: obtaining listener orientation information indicative of an orientation of a listener's head; obtaining listener displacement information indicative of a displacement of the listener's head; determining the object position from the position information; modifying the object position based on the listener displacement information by applying a translation to the object position; and further modifying the modified object position based on the listener orientation information. Further described is a corresponding apparatus for processing position information indicative of an object position of an audio object, wherein the object position is usable for rendering of the audio object. |
| US11877141B2 |
Method and signal processing unit for mapping a plurality of input channels of an input channel configuration to output channels of an output channel configuration
A method for mapping a plurality of input channels of an input channel configuration to output channels of an output channel configuration includes providing a set of rules associated with each input channel of the plurality of input channels, wherein the rules define different mappings between the associated input channel and a set of output channels. For each input channel of the plurality of input channels, a rule associated with the input channel is accessed, determination is made whether the set of output channels defined in the accessed rule is present in the output channel configuration, and the accessed rule is selected if the set of output channels defined in the accessed rule is present in the output channel configuration. The input channels are mapped to the output channels according to the selected rule. |
| US11877140B2 |
Processing object-based audio signals
An audio processing system and method which calculates, based on spatial metadata of the audio object, a panning coefficient for each of the audio objects in relation to each of a plurality of predefined channel coverage zones. Converts the audio signal into submixes in relation to the predefined channel coverage zones based on the calculated panning coefficients and the audio objects. Each of the submixes indicating a sum of components of the plurality of the audio objects in relation to one of the predefined channel coverage zones. Generating a submix gain by applying an audio processing to each of the submix and controls an object gain applied to each of the audio objects. The object gain being as a function of the panning coefficients for each of the audio objects and the submix gains in relation to each of the predefined channel coverage zones. |
| US11877139B2 |
Playback device calibration
Systems and methods for calibrating a playback device include (i) outputting first audio content; (ii) capturing audio data representing reflections of the first audio content within a room in which the playback device is located; (iii) based on the captured audio data, determining an acoustic response of the room; (iv) connecting to a database comprising a plurality of sets of stored audio calibration settings, each set associated with a respective stored acoustic room response of a plurality of stored acoustic room responses; (v) querying the database for a stored acoustic room response that corresponds to the determined acoustic response of the room in which the playback device is located; and (vi) applying to the playback device a particular set of stored audio calibration settings associated with the stored acoustic room response that corresponds to the determined acoustic response of the room in which the playback device is located. |
| US11877136B2 |
Multi-input-driving loudspeaker
Provided is a multi-input-driving loudspeaker, including a frame, a cone arranged on the frame, and a plurality of input driving mechanisms, wherein each of the input driving mechanism includes a voice coil and a magnetic circuit assembly for driving the voice coil to vibrate; the frame is provided with a plurality of magnetic circuit mounting holes, and at most one magnetic circuit assembly is arranged at each magnetic circuit mounting hole, the cone is provided with a plurality of voice coil mounting holes, and at most one voice coil is provided at each voice coil mounting hole; the loudspeaker further includes a damper, the damper is opened with a plurality of voice coil holes, and each of the voice coils pass trough a corresponding voice hole and is closely fitted with the damper. |
| US11877133B2 |
Audio output using multiple different transducers
A head-mounted audio output apparatus comprising: a hybrid audio system comprising multiple transducers, wherein the hybrid audio system is configured to render sound for a user of the apparatus into different audio output channels using different associated transducers; means for automatically changing a cut-off frequency of a first one of the audio output channels in dependence upon the transducer associated with the first one of the audio output channels. |
| US11877132B2 |
Micro transducer molding
Articles and methods are provided for miniature acoustic transducers having highly compliant suspension systems despite their small size. In various examples the suspension system is molded of a liquid silicone rubber (LSR) and is molded in an interior cavity geometry that includes and apex radially offset and/or axially offset from a desired cured position of an apex of the suspension. |
| US11877130B2 |
Audio controls in online conferences
In an example, a computing device includes a microphone array and a processor. The processor may transmit an audio stream of a presentation to an online conference. Further, the processor may receive audio data via the microphone array while the audio stream is being transmitted. In response to determining the audio data is coming from a presenter of the presentation, the processor may perform a fade audio operation to control an audio level of the audio stream. |
| US11877123B2 |
Audio training
Presented herein are audio training techniques that facilitate the rehabilitation of a recipient of an auditory prosthesis. In certain embodiments, the audio training techniques presented herein may include real time training aspects in which the recipient's surrounding (ambient) auditory environment, including the sounds present therein, is analyzed in real time. The recipient can then be provided with a real time identity (e.g., audible or visible representation/description) of the sounds present in the auditory environment. The identity of the sounds can be provided to the recipient automatically and/or in response to recipient queries. |
| US11877119B2 |
System and method for generating an audio signal
Techniques described herein generally relate to generating an audio signal with a speaker. In some examples, a speaker device includes an acoustic medium; and at least one ultrasound source coupled to the acoustic medium through at least one time-varying acoustic coupler. The acoustic coupler is configured to be electrically activated to operate at its mechanical resonance so as to generate an audio signal. |
| US11877115B2 |
Convertible head wearable audio devices
A convertible head wearable audio device is provided that may include a headband having a first earpiece at a first end and a receptacle at a second end. The convertible head wearable audio device may also include a wireless interface. The wireless interface may be configured to communicatively couple the convertible head wearable audio device to a remote device. The convertible head wearable audio device may further include an active noise cancellation module. The active noise cancellation module may be configured to reduce ambient noise from an audio output of the convertible head wearable audio device. |
| US11877114B1 |
Assembly removably secured to headwear for positioning one or more speakers at or adjacent to an ear of the person wearing the headwear
A speaker securement assembly for headwear comprising a body member, a first speaker arm and a second speaker arm. One end of each of the speaker arms are inserted within the body member. The position of the speaker arms can be adjustable with respect to the body member. The non-insertion ends of the first and second speaker arms can be provided with speaker connectors, which in one embodiment can be an opening, for snugly received an associated Speaker. Preferably, two Clasps can be provided at or near the outer ends of the body member for removably securing the body member to the headwear to be worn by the user. With the body member secured to the headwear and the headwear worn by the user, the Speakers received within connectors at the ends of the speaker arm can be positioned at or near to the wearer's ears. |
| US11877108B1 |
Case for wireless earphones
A case for wireless earphones includes a charging case body and a case cover. The charging case body includes an accommodating cavity for accommodating wireless earphones, and an opening of the accommodating cavity faces upwards. The case for the wireless earphones further includes a switch lock catch, a second magnet, and a third magnet, the case cover is locked through the switch lock catch, and the second magnet and the third magnet are repelled, after pressing the switch lock catch, the cover case may automatically open, so that users may operate through only one hand, which is very convenient. At the same time, when the case for the wireless earphones falls on the ground, the case cover is not easily opened, which prevent the wireless earphones from falling out and being damaged, so that the wireless earphones are well protected. |
| US11877107B2 |
Microphone device
A microphone device includes a substrate, a plurality of microphones, a front panel, and a dustproof member. The plurality of microphones are arranged on the substrate. The front panel is configured to cover the substrate. The dustproof member is arranged so as to overlap the plurality of microphones in a plan view from a front panel side, and provided on a member different from the front panel. |
| US11877105B1 |
Phase disparity correction for image sensors
An imaging device includes an image sensor and an image processor. The image sensor includes an array of pixels. At least one pixel in the array of pixels includes an array of phase disparity subpixels. The array of pixels includes a set of filter elements arranged in a filter pattern, with different subsets of pixels receiving light through different types of filter elements in the set of filter elements. The image processor is configured to receive values measured by at least the phase disparity subpixels; estimate phase disparities between the received values; generate, using the estimated phase disparities, a set of corrected values for the phase disparity subpixels; and generate, using the set of corrected values for the phase disparity subpixels, a set of demosaiced values for each image plane in a set of image planes. Each image plane is associated with a different type of filter element in the set of filter elements. |
| US11877104B2 |
Display method
A display method includes projecting, by a projector on a first projection surface located at a first distance from the projector, a first image which represents a size of a second image to be projected on a second projection surface by the projector, the second projection surface being located at a second distance, different from the first distance, from the projector. |
| US11877102B2 |
Efficient, dynamic, high contrast lensing with applications to imaging, illumination and projection
A new projector design combines one spatial light modulator that affects only the phase of the illumination, and one spatial light modulator that only affects its amplitude (intensity). The phase-only modulator curves the wavefront of light and acts as a pre-modulator for a conventional amplitude modulator. This approach works with both white light and laser illumination, generating a coarse image representation efficiently, thus enabling, within a single image frame, significantly elevated highlights as well as darker black levels while reducing the overall light source power requirements. |
| US11877097B1 |
Modular wireless transmitters for premises monitoring systems
An apparatus and method are described. In at least one embodiment, a premises monitoring system for monitoring a premises is provided. The premises monitoring system comprises a premises device and a power device comprising a rectifier in electrical communication with the premises device. The premises device comprises a video capture element configured to capture video and processing circuitry configured to, in response to a modular wireless transmitter not being removably connected to the premises device, cause transmission of the captured video to the power device via the at least one wired connection. When the modular wireless transmitter is removably connected to the power device, the power device is configured to cause, in response to receiving the captured video, transmission of the captured video via the modular wireless transmitter. |
| US11877091B2 |
Method for adjusting position of video chat window and display device
The disclosure provides a display device, and a method for adjusting a position of a video chat window. The method includes: when a video chat window is floating on a playing image for display, acquiring the position of the video chat window and a position of the focus when an instruction for moving a focus is received; determining, according to the position of the video chat window and the position of the focus, whether the video chat window blocks the focus; and in response to the video chat window blocking the focus, moving the video chat window from a current position to a first target position. |
| US11877090B2 |
Control device, image recording method, and recording medium
A control device is connected to a control-target machine and an imaging device (22). The control device includes a first receiver (41) to repetitively receive image data indicating an image captured by the imaging device (22) and containing a first timestamp indicating an elapsed time since a specific time in association with the image, a second receiver (42) to receive communication data related to a history of communication at the imaging device (22) and containing a second timestamp indicating an elapsed time since the specific time and transmission time data indicating a transmission time of transmitting the communication data, and a recorder (43) to cause storages (433, 44) to store association data on the basis of comparison between the first timestamp and the second timestamp that corresponds to the transmission time. The association data indicates a corresponding time corresponding to the first timestamp in association with the image. |
| US11877088B2 |
Contrast enhanced images composited with artificial colorization
A method for enhancing digital imagery. The method comprises receiving a linear, intensity-based image of an environment. A histogram of intensity values is generated for a plurality of pixels within the linear, intensity-based image. Based on the histogram of intensity values, local contrast enhancement is applied to the linear, intensity-based image to generate a contrast enhanced version of the linear, intensity-based image, and artificial colorization is applied to the linear, intensity-based image to generate an artificially colorized version of the linear, intensity-based image. A composite image of the environment is then generated based on at least a portion of the contrast enhanced version of the linear, intensity-based image and at least a portion of the artificially colorized version of the linear, intensity-based image. |
| US11877085B2 |
Optimized video review using motion recap images
Systems and methods provide for optimizing video review using motion recap images. A video review system can identify background image data of a video clip including an amount of motion satisfying a motion threshold. The video review system can generate foreground mask data segmenting foreground image data, representing a moving object in the video clip, from the background image data. The video review system can select a set of instances of the moving object represented in the foreground image data. The video review system can generate a motion recap image by superimposing the set of instances of the moving object represented in the foreground image data onto the background data. |
| US11877083B2 |
Solid-state imaging device and electronic apparatus
A solid-state imaging device according to an embodiment of the present disclosure includes two or more pixels. The pixels each include a photoelectric converter, a charge holding section, and a transfer transistor. The charge holding section holds electric charge transferred from the photoelectric converter. The transfer transistor transfers electric charge from the photoelectric converter to the charge holding section. The pixels each further include a light blocking section that is disposed in a layer between the photoelectric converter and the charge holding section. The light blocking section has an opening which a vertical gate runs through. The pixels each further include a charge blocking section that blocks transfer of electric charge to the transfer transistor via a region between an edge, of the opening, closer to the charge holding section and the vertical gate. |
| US11877082B2 |
Image sensor employing avalanche diode
There is provided an image sensor employing an avalanche diode. The image sensor includes a plurality of pixel circuits arranged in a matrix, a plurality of pulling circuits and a global current source circuit. Each of the plurality of pixel circuits includes a single photon avalanche diode and four P-type or N-type transistors. Each of the plurality of pulling circuits is arranged corresponding to one pixel circuit column. The global current source circuit is used to form a current mirror with each of the plurality of pulling circuits. |
| US11877081B2 |
Image reader comprising CMOS based image sensor array
The invention features an image reader and a corresponding method for capturing a sharp distortion free image of a target, such as a one or two-dimensional bar code. In one embodiment, the image reader comprises a two-dimensional CMOS based image sensor array, a timing module, an illumination module, and a control module. The time during which the target is illuminated is referred to as the illumination period. The capture of the image by the image sensor array is driven by the timing module that, in one embodiment, is able to simultaneously expose substantially all of the pixels in the array. The time during which the pixels are collectively activated to photo-convert incident light into charge defines the exposure period for the sensor array. In one embodiment, at least a portion of the exposure period occurs during the illumination period. |
| US11877077B2 |
Image sensor with black level correction
An image sensor may include an image sensor pixel array, row control circuitry, and column readout circuitry. The array may include first and second sets of active pixels that are configured in different manners or controlled by the row control circuitry and column readout circuitry in different manners. The array may include optically black pixels that have photosensitive elements shield from incident light. The optically black pixels may be configured to generate first and second sets of black level signals adapted to both the first and second sets of active pixels. The corresponding sets of black level signals may be used to better reduce noise in corresponding sets of image signals generated by the first and second sets of active pixels. |
| US11877076B2 |
Imaging device and imaging method
Provided are an imaging device and an imaging method that can suppress a difference in appearance caused by a difference between the polarization directions of received light in a case in which different images are generated on the basis of light having different polarization directions, have flexibility in the design of the polarization direction of light forming different images, and can generate a plurality of images having a uniform amount of light. An imaging device (1) includes: an imaging optical system (10); a first polarizer that aligns a polarization direction of light transmitted through a first pupil region (E1) and a second pupil region (E2); a wave plate (14) that converts the light into circularly or elliptically polarized light; a second polarizer that transmits light in a second polarization direction different from the first polarization direction; a third polarizer that transmits light in a third polarization direction different from the first polarization direction and the second polarization direction; an imaging element (100) that has a plurality of pixel units receiving the light transmitted through the first pupil region and the second pupil region; and an image generation unit. |
| US11877073B2 |
System, devices and/or processes for processing infrared pixel values
Example methods, apparatuses, and/or articles of manufacture are disclosed that may be implemented, in whole or in part, techniques to process pixel values sampled from a multi color channel imaging device. In particular, methods and/or techniques to process pixel samples for non-visible light from pixels allocated to detection of infrared light are disclosed. |
| US11877068B2 |
Advanced computational pixel imagers with multiple in-pixel counters
A computational pixel imaging device can include multiple digitizing counters per pixel that can be used to execute simultaneous signal-processing threads on acquired image data. The imaging device can also include infinite dynamic range sensing and perform signal down-sampling. |
| US11877067B2 |
Shutter apparatus and image pickup apparatus
A shutter apparatus includes a front blade unit and a rear blade unit configured to open and close an opening for exposure control, a front drive member and a rear drive member configured to drive the front blade unit and the rear blade unit between an open position and a closed position of the opening, respectively, a front cam gear and a rear cam gear configured to charge the front drive member and the rear drive member, respectively, a front driving source and a rear driving source connected to and configured to rotate the front cam gear and the rear cam gear, respectively, and a controller configured to control the front driving source and the rear driving source based on an imaging condition so as to change driving times of the front blade unit and the rear blade unit. |
| US11877065B2 |
Image rotation in an endoscopic hyperspectral imaging system
Image rotation in an endoscopic hyperspectral imaging system is described. A system includes an emitter for emitting pulses of electromagnetic radiation and an image sensor comprising a pixel array for sensing reflected electromagnetic radiation. The system includes a rotation sensor for detecting an angle of rotation of a lumen relative to a handpiece of an endoscope. The system is such that at least a portion of the pulses of electromagnetic radiation emitted by the emitter comprises electromagnetic radiation having a wavelength from about 513 nm to about 545 nm, from about 565 nm to about 585 nm, or from about 900 nm to about 1000 nm. |
| US11877062B2 |
Camera winch control for dynamic monitoring
A method for controlling a sensor subsystem, the method including receiving one or more metrics representing one or more characteristics of livestock, including one or more livestock objects, contained in an enclosure and monitored by one or more sensors coupled to a winch subsystem. The method further includes determining a position to move the one or more sensors based on the metrics and determining an instruction that includes information related to a movement of the one or more sensors. The method further includes sending the instruction to the winch subsystem to change the position of the one or more sensors. |
| US11877061B2 |
Signal processing device, signal processing method, signal processing program, imaging apparatus and lens apparatus
Provided are a signal processing device, a signal processing method, a signal processing program, an imaging apparatus, and a lens apparatus capable of accurately removing an offset from an output signal of a blurring detection sensor. The signal processing device comprises the blurring detection sensor and a processor. The processor is configured to execute processing of extracting a first feature amount relating to the offset from the output signal of the blurring detection sensor, processing of integrating the output signal, processing of extracting a second feature amount relating to the offset from a value obtained by integrating the output signal, processing of calculating the offset on the basis of the first feature amount and the second feature amount, and processing of subtracting the calculated offset from the output signal. |
| US11877055B2 |
System and method to operate a set remotely
The present disclosure describes systems and methods operating a set remotely, and more specifically, for enabling the control of a remotely adjustable audio-visual recording device as well as the communication between the remotely adjustable audio-visual recording device and various specialty devices of a cloud control center configured to remotely control features of the remotely adjustable audio-visual recording device. In operation, a talent component may receive a user input indicative of turning on the r remotely adjustable audio-visual recording device. Based on receiving the user input, the talent component may automatically connect, via a network, to a cloud control center. Based on connecting to the talent component, the cloud control center may remotely control the remotely adjustable audio-visual recording device an enable the remote recording of audio-visual content. |
| US11877050B2 |
User interface for image capture
The present disclosure provides systems, apparatus, methods, and computer-readable media that support linking paused video recordings captured over a period of time. In a first aspect, a method of image processing may include determining a match between first image data and second image data; presenting an indication to a user of the match; receiving user input responsive to the indication; and based on determining the match and the user input indicating to combine the first image data and the second image data, determining output image data comprising at least some of the first image data and at least some of the second image data. Other aspects and features are also claimed and described. |
| US11877042B2 |
Lens driving device, camera module comprising same, and optical apparatus
An embodiment of the present invention comprises: a housing; a bobbin disposed within the housing; a first magnet disposed on a first side of the bobbin; a second magnet disposed on a second side of the bobbin; a first coil disposed in the housing so as to correspond to the first magnet; a second coil disposed in the housing so as to correspond to the second magnet; first to third springs coupled to the bobbin; and a circuit board disposed in the housing and having first and second terminals, wherein the first spring connects one end of the first coil with the first terminal of the circuit board, the second spring connects one end of the second coil with the second terminal of the circuit board, and the third spring connects the other end of the first coil with the other end of the second coil. |
| US11877041B2 |
Sensor with multiple focal zones
An image sensor including a planar sensor array, a lens configured to form an optical image on the planar sensor array and characterized by a locus of focal points on a curved surface, and a cover glass with multiple thickness levels or multiple cover glasses of different sizes. The one or more cover glasses are configured to shift the locus of focal points for large field angles, such that there are multiple intersections between the planar sensor array and the locus of focal points for a large FOV, and thus multiple zones with best focus on the planar sensor array. |
| US11877036B2 |
Rendering scrolling captions
A method, system, and computer program product for rendering scrolling captions for media content includes a processor to receive a first request to display a first line of text associated with a media file. The processor may generate a framebuffer object (FBO) and a first texture per-line (TPL) for the first line of text. The processor may draw one or more glyphs on the first TPL, and render the first TPL in a first position of the FBO. The processor may receive a second request to display a second line of text. The processor may generate a second TPL for the second line of text, draw one or more glyphs on the second TPL, render the first TPL in a second position and the second TPL in the first position. |
| US11877034B2 |
Display apparatus and channel control method
Disclosed are a display apparatus and a channel control method. The channel control method includes: upon receiving channel number information that constructs a channel number in a display apparatus from a control device, obtaining a second channel number according to an instruction for indicating the channel number information each time; determining whether a length of the second channel number is equal to the maximum length of a channel number of a channel list in the display apparatus; and in response to the length of the second channel number being equal to the maximum length of the channel list, directly switching to program content corresponding to the second channel number. |
| US11877033B2 |
Qualification test in subject scoring
Aspects of the disclosure provide methods and apparatuses for subjective evaluation. In some examples, processing circuitry receives scores graded by a subject to a media presentation. The scores by the subject includes a plurality of self comparison scores that are graded to self comparison tests in the media presentation. The processing circuitry applies a first rule and a second rule to the plurality of self comparison scores. The first rule requires a first subset of the plurality of self comparison scores in a first range. The second rule requires a second subset of the plurality of self comparison scores in a second range to limit at least an outlier to the first rule according to the second range. The processing circuitry determines that the scores by the subject are qualified for the subjective evaluation in response to the first rule and the second rule being satisfied. |
| US11877025B1 |
Latency-reduced service-level content delivery network
A content delivery network (CDN) includes UE gateways, a service switch (SS) mesh network, and server gateways. The CDN nodes maintain cache lists of mappings identifying corresponding upstream system nodes for content items available at content servers connected to the server gateways. When a CDN node receives an upstream service instance request for a specific content item by a corresponding UE connected to a UE gateway, upon determining that a mapping for the specific content item is in its cache list, the CDN node forwards the upstream service instance request to the corresponding upstream system node as part of a process of defining a downstream data path for the specific content item from the corresponding content server to the corresponding UE. The CDN enables service-level content delivery at lower levels of latency than conventional DNS-based systems. |
| US11877022B2 |
Packager for segmenter fluidity
Embodiments provide for methods, computer program products, and systems to improve media playback comprising receiving a variant stream, identifying respective maximum segment durations for a plurality of different types of client devices that will play media content contained in the variant stream, generating, using the variant stream, a respective playlist for each of the plurality of different types of client devices, wherein the respective playlists each contain different maximum segment durations, and delivering the respective playlists to at least one of the plurality of different types of client devices via a distribution network. |
| US11877016B2 |
Live comments generating
The present disclosure provides a technical solution of live comments generating, which may acquire candidate texts highly similar with segments of video as live comments of corresponding segments by matching the candidate texts with the segments, and further generate new live comments based on video segments and existed live comments to enrich the live comments information of related video. |
| US11877015B2 |
Temporary configuration of a media playback system
Example techniques may involve temporary configuration of a media playback system in a place of accommodation, such as a hotel. In particular, the media playback system in a guest's room is configured with one or more settings of the guest's home media playback system. Example settings include user accounts of a various services, such as streaming audio services and/or voice assistant services. Other example settings include artists, albums, audio tracks, audio books, stations, and other audio content that the guest previously designated as a favorite using their home media playback system. When the guest leaves (e.g., checks-out of) of the place of accommodation, these settings are removed from the media playback system in the guest's room. |
| US11877014B2 |
Three-dimensional data encoding method, three-dimensional data decoding method, three-dimensional data encoding device, and three-dimensional data decoding device
A three-dimensional data encoding method includes: performing motion compensation on a plurality of encoded point clouds; merging the plurality of encoded point clouds that have been motion compensated to generate a reference point cloud; generating an N-ary tree structure of a current point cloud, where N is an integer greater than or equal to 2; and encoding the N-ary tree structure of the current point cloud using the reference point cloud. |
| US11877010B2 |
Signaling method and device for merge data syntax in video/image coding system
A decoding method performed by a decoding device according to the present document comprises: a step for determining the prediction mode of a current block on the basis of information on a prediction mode acquired from a bitstream; a step for deriving movement information on the current block on the basis of the prediction mode; a step for generating prediction samples of the current block on the basis of the movement information; and a step for generating reconstructed samples on the basis of the prediction samples, wherein the step for determining the prediction mode may include a step for acquiring a regular merge flag from the bitstream on the basis of a combined inter-picture merge and intra-picture prediction (CIIP) available flag that indicates whether or not a CIIP is available. |
| US11877008B2 |
Image processing apparatus and method
There is provided an image processing apparatus and method that make it possible to suppress degradation of the encoding efficiency. In the case where primary transform that is a transform process for a prediction residual that is a difference between an image and a prediction image of the image is to be skipped, also secondary transform, which is a transform process for a primary transform coefficient obtained by the primary transform of the prediction residual, is skipped. The present disclosure can be applied, for example, to an image processing apparatus, an image encoding apparatus, an image decoding apparatus and so forth. |
| US11877006B2 |
Intra-prediction using a cross-component linear model in video coding
A video coding mechanism is disclosed. The mechanism includes receiving a video signal partitioned into a chroma block and a first neighboring luma block. The mechanism also includes encoding prediction information for chroma samples of the chroma block into a bitstream. The prediction information for the chroma samples is determined via intra-prediction based on down-sampled neighboring luma samples. The down-sampled neighboring luma samples are generated from a single row of luma samples from the first neighboring luma block. A bitstream including the prediction information for the chroma samples is transmitted to support decoding and display of the chroma samples. |
| US11877004B2 |
Constraining motion vectors of groups of blocks
Aspects of the disclosure provide methods and apparatuses for video coding. In some examples, an apparatus includes processing circuitry that obtains motion information of a group of blocks in a picture from a coded video bitstream, the motion information indicating base motion vectors for the group of blocks, and the base motion vectors pointing to a reference picture in a prediction list. The processing circuitry determines a range of target motion vectors for the group of blocks along a particular coordinate direction according to the base motion vectors and a target difference, where, for any two motion vector within the range, a difference of integer-pixel parts thereof along the particular coordinate direction is equal to or less than the target difference. The processing circuitry further converts the base motion vectors into the target motion vectors according to the range for reconstructing samples of the group of blocks. |
| US11877000B2 |
Canvas size scalable video coding
Methods and systems for canvas size scalability across the same or different bitstream layers of a video coded bitstream are described. Offset parameters for a conformance window, a reference region of interest (ROI) in a reference layer, and a current ROI in a current layer are received. The width and height of a current ROI and a reference ROI are computed based on the offset parameters and they are used to generate a width and height scaling factor to be used by a reference picture resampling unit to generate an output picture based on the current ROI and the reference ROI. |
| US11876999B2 |
Method and apparatus for processing video signal
A method for decoding a video according to the present invention may comprise: generating a first prediction block for a current block based on a first prediction mode, generating a second prediction block for a current block based on a second prediction mode, and generating a final prediction block of the current block based on the first prediction block and the second prediction block. |
| US11876995B2 |
Signaling of slice type and video layers
A method of video processing includes performing a conversion between a video comprising one or more scalable video layers and a bitstream of the video. The video comprises one or more video pictures comprising one or more slices. The bitstream conforms to a format rule. The format rule specifies that a value of a field indicative of a slice type of a slice is set to indicate a type of intra slice in case that a corresponding network abstraction layer unit type is in a predetermined range and that a corresponding video layer flag indicates that a video layer containing the slice does not use inter-layer prediction. |
| US11876994B2 |
Description of image composition with HEVC still image file format
A method of encapsulating an encoded bitstream representing one or more images includes providing description of images and/or sub-image picture, providing composed picture description, and outputting the bitstream. The description of images and/or sub-image pictures identifying portions of the bitstream representing the images and/or sub-images of the one or more images is provided. The composed picture description of at least one composed picture formed by one or more images and/or sub-image pictures also is provided. The bitstream, together with the composed picture description, is output as an encapsulated data file. |
| US11876992B2 |
Image decoder and decoding method
An image decoder parses an encoded bitstream to obtain a first parameter and a second parameter, and derives a partition mode based on the first and second parameters. Responsive to the derived partition mode being a first partition mode, the image decoder executes the first partition mode including; splitting a block of a picture into a plurality of first blocks including a N×2N block sized N pixels by 2N pixels; splitting the N×2N block, wherein a ternary split is allowed to split the N×2N block in a vertical direction, which is a direction along the 2N pixels, into a plurality of sub blocks including at least one sub block sized N/4×2N, while a binary split is not allowed to split the N×2N block in the vertical direction into two sub blocks that are equally sized N/2×2N; and decoding the plurality of sub blocks. |
| US11876989B2 |
Methods and systems for facilitating multimedia data encoding using storage buffers
Several methods and systems for facilitating multimedia data encoding are disclosed. In an embodiment, a plurality of picture buffers associated with multimedia data are received in an order of capture associated with the plurality of picture buffers. Buffer information is configured for each picture buffer from among the plurality of picture buffers comprising at least one of a metadata associated with the corresponding picture buffer and one or more encoding parameters for the corresponding picture buffer. A provision of picture buffers in an order of encoding is facilitated based on the configured buffer information. |
| US11876988B2 |
Method and apparatus for task-adaptive pre-processing for neural image compression
A method of task-adaptive pre-processing (TAPP) for neural image compression is performed by at least one processor and includes generating a substitutional image, based on an input image, using a TAPP neural network, and encoding the generated substitutional image to generate a compressed representation, using a first neural network. The TAPP neural network is trained by generating a substitutional training image, based on an input training image, using the TAPP neural network, encoding the generated substitutional training image to generate a compressed training representation, using the first neural network, decoding the generated compressed training representation to reconstruct an output training image, using a second neural network, generating gradients of a rate-distortion (R-D) loss that is generated based on the input training image, the reconstructed output training image and the generated compressed training representation, and updating the generated substitutional training image, based on the generated gradients of the R-D loss. |
| US11876984B2 |
Luma mapping- and chroma scaling-based video or image coding
According to the disclosure of the present document, a luma mapping with chroma scaling (LMCS) process may be simplified, and a linear LMCS may be applied. Accordingly, the complexity of the LMCS may be reduced and video/image coding efficiency may be increased. |
| US11876982B2 |
Scalable prediction type coding
A method for encoding a video sequence is provided that includes signaling in the compressed bit stream that a subset of a plurality of partitioning modes is used for inter-prediction of a portion of the video sequence, using only the subset of partitioning modes for prediction of the portion of the video sequence, and entropy encoding partitioning mode syntax elements corresponding to the portion of the video sequence, wherein at least one partitioning mode syntax element is binarized according to a pre-determined binarization corresponding to the subset of partitioning modes, wherein the pre-determined binarization differs from a pre-determined binarization for the least one partitioning mode syntax element that would be used if the plurality of partitioning modes is used for inter-prediction. |
| US11876978B2 |
Intra prediction mode information propagation for geometric partition mode with IBC and intra prediction
In a method, coded information of a current block in a current picture of a video is received from a coded video bitstream. The coded information indicates that the current block is partitioned into at least a first partition and a second partition based on a geometric partition mode (GPM). The first partition is associated with an intra block copy (IBC) prediction mode, and the second partition is associated with an intra prediction mode. Prediction mode information for a first subblock of a plurality of subblocks of the current block is stored. The prediction mode information includes one of a DC mode, a Planar mode, and an intra prediction mode based on whether the first subblock is associated with one of the IBC prediction mode, the intra prediction mode, and both the IBC prediction mode and the intra prediction mode. |
| US11876975B2 |
Coding tree unit size signaling
A method, computer program, and computer system is provided for coding video data. Video data having a coding tree unit size is received. The coding tree unit size associated with the video data is signaled by setting two or more flags. The video data is encoded/decoded based on the flags corresponding to the signaled coding tree unit size. |
| US11876974B2 |
Block-based optical flow estimation for motion compensated prediction in video coding
Motion prediction using optical flow is determined to be available for a current frame in response to determining that a reference frame buffer includes, with respect to the current frame, a forward reference frame and a backward reference frame. A flag indicating whether a current block is encoded using optical flow is decoded. Responsive to determining that the flag indicates that the current block is encoded using optical flow, a motion vector is decoded for the current block; a location of an optical flow reference block is identified within an optical flow reference frame based on the motion vector; subsequent to identifying the location of the optical flow reference block, the optical flow reference block is generated using the forward reference frame and the backward reference frame without generating the optical flow reference frame; and the current block is decoded based on the optical flow reference block. |
| US11876967B2 |
Method and device for encoding/decoding image using color space conversion, and method for transmitting bitstream
Provided are an image encoding/decoding method and device. An image decoding method performed by an image decoding device according to the present disclosure includes the steps of: determining a quantization parameter of the current block on the basis of whether color space conversion is applied to a residual sample of the current block; determining a transform coefficient of the current block on the basis of the quantization parameter; determining the residual sample of the current block by using the transform coefficient; and resetting the value of the residual sample on the basis of whether the color space conversion is applied. |
| US11876964B2 |
Partitioned intra coding concept
Block-based coding of a picture is done by providing an intra-prediction coding concept according to which a certain block of the picture is intra-prediction coded using a certain intra-coding mode by partitioning the predetermined block into partitions which are, for reconstruction purposes, sequentially subject to spatial prediction using the intra-prediction coding mode signaled for the certain block followed by correcting the thus obtained predictor using a prediction residual so that for preceding partitions a reconstruction of the samples is available to the decoder at the time of processing the next, then current, partition. |
| US11876960B2 |
Video or image coding for inducing weight index information for bi-prediction
According to the disclosure of the present document, when the inter prediction type of a current block indicates biprediction, weight index information for candidates in a merge candidate list or a sub-block merge candidate list can be induced or derived, and coding efficiency can be increased. |
| US11876959B2 |
Encoder, decoder, encoding method, and decoding method
An encoder includes circuitry and memory coupled to the circuitry. The circuitry, in operation: determines whether a size of a current block, which is a unit for which a vector candidate list including vector candidates is generated, is less than or equal to a threshold; when the size of the current block is less than or equal to the threshold, generates the vector candidate list by registering a history-based motion vector predictor (HMVP) vector candidate in the vector candidate list from an HMVP table without performing a first pruning process; when the size of the current block is greater than the threshold, generates the vector candidate list by performing the first pruning process and registering the HMVP vector candidate in the vector candidate list from the HMVP table; and encodes the current block using the vector candidate list. |
| US11876957B2 |
Method and apparatus for processing video data
A video processing method according to an embodiment of the present disclosure includes obtaining motion information and bi-directional prediction weight information for inter prediction of a current block, deriving a prediction sample of the current block based on the motion information and the bi-directional prediction weight information, and updating an HMVP candidate list based on a history-based motion vector predictor (HMVP) candidate including the motion information and the bi-directional prediction weight information. The motion information includes a first reference index and a first motion vector related to a first reference picture and a second reference index and a second motion vector related to a second reference picture. The bi-directional prediction weight information may be used to derive a first weight value applied to a first prediction sample from the first reference picture and a second weight value applied to a second prediction sample from the second reference picture. |
| US11876956B2 |
Encoder, a decoder and corresponding methods for local illumination compensation
An apparatus and method for inter prediction of a block includes estimating local illumination compensation (LIC) parameters using first reference samples of a current block and second reference samples of a reference block, wherein a third reference sample of the second reference samples is based on an integer part of a fractional motion vector (MV), and obtaining inter prediction of the current block according to the LIC parameters. |
| US11876955B2 |
Method for qualification of a camera system and/or its image/camera signals
A method for qualification of a camera system and/or its image/camera signals of a partially autonomously or autonomously driving vehicle. Infrastructure information from a vehicle's surroundings is used. The image/camera signal of the camera system is monitored by a monitoring function with regard to at least the following criteria: image/camera signal in recurring, known time windows, sequence of the image/camera signals, corruption of the image/camera signals, signature checking of the camera system. Checking of the image/camera signals using unmoving land markings that are reconciled with a list is carried out and they are checked for a mapping signature. Then the image/camera signals and the infrastructure information contained in the updated map check function are communicated to an evaluation function and merged and compared in a signal fusion unit. Consequently, a qualified image/camera signal is obtained. |
| US11876954B2 |
Stitched integrated circuit dies
An image sensor may be implemented using a stitched image sensor die. The stitched image sensor die may be formed from a step and repeat exposure process using a set of tiles in a reticle set. Multiple instantiations of a same circuitry block on a given tile may be patterned and formed on the image sensor die. The image sensor die may include circuitry configured to enable testing of one or more instantiations of the same circuitry block. The image sensor die may include memory circuitry for storing indications of a functional instantiation of the multiple instances and may use the functional instantiation for normal operation. |
| US11876952B2 |
Calibration of stereoscopic display using waveguide combiner
Examples are disclosed that relate to calibration of a stereoscopic display system of an HMD via an optical calibration system comprising a waveguide combiner. One example provides an HMD device comprising a first image projector and a second image projector configured to project a stereoscopic image pair, and an optical calibration system. The optical calibration system comprises a first optical path indicative of an alignment of the first image projector, a second optical path indicative of an alignment of the second image projector, a waveguide combiner in which the first and second optical paths combine into a shared optical path, and one or more boresight sensors configured to detect calibration image light traveling along one or more of the first optical or the second optical path. |
| US11876951B1 |
Imaging system and method for unmanned vehicles
An aerial imaging system for transferring pictures captured from two or more imaging devices includes an aerial node and a ground node. The aerial node has two or more channels, each for acquiring at least one picture from a corresponding imaging device. The aerial node is configured to transfer the acquired pictures. The ground node is configured to present the acquired pictures from the two or more imaging devices. |
| US11876941B1 |
Clickable augmented reality content manager, system, and network
A system for collection and distribution of curated tagged content includes a server or collection of servers in communication with one or more networks. The servers receive moment files generated by recording users via recording devices; each moment file is associated with a tagged object (e.g., physical or virtual) and includes associated media content. Each moment file is associated with recorder-side filtering via which a potential reader may be defined as an eligible or ineligible reader of the moment file. The server stores the received moment files to memory and receives indications of reading devices near an associated tagged object. The server receives indications of reading devices near a tagged object associated with a moment file; for those reading users determined eligible to read a moment file, the server forwards to their associated reading devices associated media content for display in response to engagement by the reading user. |
| US11876932B2 |
Size selective application of decoder side refining tools
One example method of video processing includes implementing, by a processor, a decoder-side motion vector derivation (DMVD) scheme for motion vector refinement during a conversion between a current video block and a bitstream representation of the current video block by deriving parameters based on a deriving rule. The conversion may include compressing the current video block into the bitstream representation or uncompressing the bitstream representation into pixel values of the current video block. |
| US11876930B2 |
System and method for enhanced call progress assessment and call routing
A system and method for enhanced call progress assessment (CPA) utilizing dual-prong analysis, comprising a campaign management console, a data services engine, a traffic shaper, an agent desktop, an optimized CPA service, an auto-dialer with built-in CPA capabilities, and a simple dialer which allows enterprises to process outbound calls in parallel in order to quickly and accurately determine outbound call outcome, a live person or an answering machine or service, which can be used to route outbound calls in an appropriate manner. The system and method utilize a plurality of specialized CPA methods running in parallel to a built-in CPA system to analyze audio stream data associated with an outbound call and uses various entity-specific threshold parameters to determine a call outcome based on the results of the plurality of CPA methods. Such a system and method can provide faster and more accurate CPA using a dual prong approach. |
| US11876925B2 |
Electronic device and method for controlling the electronic device to provide output information of event based on context
An electronic device and a method for controlling the electronic device are provided. The method for controlling the electronic device includes, based on an occurrence of an event for outputting information being determined, obtaining data for determining a context corresponding to the electronic device, inputting the obtained data to a first model trained by an artificial intelligence algorithm and obtaining information about a person located in a vicinity of the electronic device, inputting the obtained information about the person and information about the event to a second model trained by an artificial intelligence algorithm and obtaining output information corresponding to the event, and providing the obtained output information. |
| US11876924B2 |
Secure transactions using customized webpages
A computer that dynamically generates a customized second document is described. During operation, the computer receives information specifying activation of a hosted field in a document associated with a third party, where the information specifies a willingness to receive one or more messages from the computer and specifies a telephone number. In response, the computer dynamically generates the customized second document that includes information about one or more transactions (such as one or more upcoming events) of interest to an individual associated with the telephone number. Then, the computer sends a message to an address corresponding to the telephone number, where the message includes a link to the customized second document. Next, when the computer receives information specifying activation of the link from an electronic device, the computer provides information specifying the customized second document to the electronic device for display on the electronic device. |
| US11876918B2 |
Mobile telephone case facilitating wireless charging
A mobile telephone case that includes a housing structured to receive a mobile telephone, the housing includes a perimeter frame disposed about a perimeter of the mobile telephone to substantially cover and protect the mobile telephone, an at least partially open front face to provide access to a display screen of the mobile telephone, and a protective rear panel that is at least partially movable between an open orientation and a closed orientation when the housing is operatively disposed on the mobile telephone. The protective rear panel substantially covers and protects a rear surface of the mobile telephone when in the closed orientation, with at least a portion thereof being at least partially separable from the perimeter frame to define the open orientation that provides wireless charging access to the rear surface of the mobile telephone with the housing still disposed on the mobile telephone. |
| US11876916B2 |
Apparatus and methods for candidate tracking
An apparatus and method for candidate tracking. The apparatus includes a processor that is configured to track a candidate through the recruiting process such that a recruiter may be compensated for their recruiting efforts. The apparatus includes receiving data sets from the recruiter and the employer, receiving a transfer request from either user, authenticating the users, determining if the data sets are the same, and processing the transfer request. |
| US11876915B2 |
Method, apparatus, and computer-readable medium for authentication and authorization of networked data transactions
A method and apparatus for cryptographically linking separated authentication and authorization processes to support data transaction signing when group or corporate authority structures are required. The apparatus provides a secure, scalable model to represent authority in an entity context while conducting distributed ledger technology transactions. The method supports a range of cryptographic methods for separating the linked authentication and authorization processes including split key encryption, multi-party computation, multi-signature authorization, and execution of decentralized smart contract authorization logic. The method supports multiple models for authorization including organizational structures, consensus models including voting, and workflow processes. |
| US11876907B1 |
Authentication token management
Techniques are described for managing authentication tokens associated with a secure account maintained by a business or organization. In one example, this disclosure describes a method that includes storing interaction information associated with an account maintained by an organization, wherein the interaction information includes information about authentication tokens used during a plurality of prior authentication procedures performed for the account, receiving, over a network, a request to authenticate a user to access the account, determining, based on the stored interaction information, an authentication token to be used to authenticate the user, wherein the authentication token is different than a prior authentication token used during the plurality of prior authentication procedures performed for the account, presenting a prompt for the authentication token; and determining, based on information received in response to the prompt, whether the user is authorized to access the account. |
| US11876905B2 |
System and method for generating trust tokens
A trust token may be created including authentication data for a user and his or her associated communication device. The trust token may be transmitted by the communication device to one or more recipients, such as a token server. The recipients may interpret the trust token and verify it against data written to one or more nodes of a blockchain when the user and the communication device registered for the trust token. Once the trust token is verified, the token server may be configured to generate, maintain, and provision account tokens representing sensitive data. The token server may push one or multiple account tokens to the communication device, thereby allowing the communication device to perform transactions with the account tokens. In other words, the implementation of a trust token may allow the communication device to be provisioned with multiple account tokens, without requiring multiple logins or transmissions of sensitive data. |
| US11876904B2 |
Configurable network security for networked energy resources, and associated systems and methods
Secure communication between users and resources of an electrical infrastructure and associated systems and methods. A representative secure distributed energy resource (DER) communication system provides for the creation of trust rules that govern the permitted communications between users and resources of an electrical infrastructure system, and the enforcement of the trust rules. |
| US11876903B2 |
Decentralized broadcast encryption and key generation facility
A processor may incorporate one or more keys in a media. The one or more keys may each be associated with a specific instance and the one or more keys may be included in a blockchain. The processor may identify that a first specific instance has been encountered. The processor may provide a first key associated with the first specific instance. The processor may determine to allow access to content of the media. |
| US11876902B2 |
Modules attachable to computing devices
In an example implementation according to aspects of the present disclosure, a method may include discovering, by a computing device, a module attached to the computing device, interrogating the module to determine parameters associated with the module, and updating a human-readable interface to include the parameters. |
| US11876900B2 |
System and method for trusted control flow enforcement using derived encryption keys
A system includes a communication channel monitor configured to calculate a hash value of a first encrypted code segment based on a measurement. A security module may derive a first encryption key using a key decryption function operation from the hash value of the first encrypted code segment. A processor decrypts the first encrypted code segment with a seed key retrieved from a storage device, and if the decryption is successful then executes the first decrypted code segment. The processor may retrieve a second one of the encrypted code segments, wherein the second encrypted code segment is a next encrypted code segment for execution after the first encrypted code segment according to a sequence of execution, decrypt the second encrypted code segment with the first encryption key, and if the decryption is successful then execute the second decrypted code segment. |
| US11876897B2 |
Right holder terminal, permission information management method, and permission information management program
A user terminal generates a first key pair and a second key pair, transmits a permission request including a public encryption key of the second key pair after electronically signing the permission request with a secret encryption key, and acquires, from permission information transmitted from a right-holder terminal, a content decryption key by using a secret decryption key of the second key pair and uses the content. The right-holder terminal stores a third key pair and the content decryption key, verifies the permission request received, and encrypts the content decryption key by using the public encryption key of the second key pair included in the permission request and transmits the permission information including the encrypted content decryption key after electronically signing the permission information with a secret encryption key of the third key pair. The permission request and the permission information are transmitted and received via a blockchain. |
| US11876893B2 |
Caching and delivering media content from multiple streaming providers
In a system and method for distribution of media content, a cable provider gateway cooperates with a broker API, one or more streaming provider gateways, and one or more streaming applications to locally cache and display media content from the streaming provider gateways even when the streaming applications do not have connectivity to their gateways. |
| US11876892B2 |
Key diversification in a tracking device environment
A tracking device can use a permanent encryption key pair to encrypt a temporary private key that corresponds to a set of diversified temporary public keys. When a community mobile device subsequently detects the tracking device, the central tracking system provides a diversified temporary public key to the community mobile device. The community mobile device uses the diversified temporary public key to encrypt location data representative of a location of the community mobile device, and provides the encrypted location data to the central tracking system. When a user subsequently requests a location of the tracking device from the central tracking system, the central tracking system provides the encrypted temporary private key and the encrypted location data to a device of the user, and the device can decrypt the encrypted temporary private key using the permanent encryption key pair, and decrypt the encrypted location data using the decrypted temporary private key. |
| US11876890B2 |
Anonymization of partners
An example operation may include one or more of generating, by a processor node, an identifier (ID) for an asset producer node, mapping, by the processor node, the ID to an identity of an asset producer node, receiving, by the processor node, a request from a supplier node from a plurality of supplier nodes for the asset producer node to be added to a supply blockchain, and providing entitlements to the plurality of the supplier nodes based on the mapped ID. |
| US11876889B2 |
NADO cryptography with key generators
A symmetric cryptography for encrypting and decrypting information is provided, that can be implemented efficiently in hardware or in software. The symmetric cryptography uses a key generator, so that the cryptography is not dependent on a single, static cryptography key. The key generator is a value or collection of values from which the key is generated. In some embodiments, the key generator substantially increases the computational complexity of differential cryptanalysis and other cryptographic attacks because it has more entropy than the key(s). In an embodiment, the key generator is updated with one-way functions exhibiting the avalanche effect, which generates an unpredictable sequence of keys used during the encryption or decryption process. In an embodiment, a dynamic key is derived from a key generator with a one-way function. In an embodiment, a block cipher uses a different dynamic key to encrypt each block of plaintext, where each key is derived from a different key generator. |
| US11876888B2 |
Encryption device, decryption device, encryption method, decryption method, and computer readable medium
A division unit (22) divides a plaintext M every b bits from a beginning, thereby generating b-bit values M1, . . . , Mm-1 and a value Mm having 1 or more bits to b or less bits. An S1 calculation unit (241) assigns a b-bit value H1 to a value M0, and for each integer i of i=1, . . . , m in an ascending order, takes a value Mi-1 as input to an encryption function E, thereby calculating a value S1(i), and calculates a value Ci from the value S1(i) and a value Mi. An S2 calculation unit (242) assigns an r-bit value H2 to a value S2(0), and for each integer i of i=1, . . . , m in an ascending order, calculates a value S2(i) from the value S1(i) and from a value S2(i−1). A ciphertext generation unit (243) generates a ciphertext C from a value Ci for each integer i of i=1, . . . , m. An authenticator generation unit (25) generates a (b+r)-bit authenticator T by using a value S1(m) and a value S2(m). |
| US11876887B2 |
Rapid distributed consensus on blockchain
There may be provided a computer-implemented method. It may be implemented using a blockchain such as, for example, the Bitcoin blockchain. The computer-implemented method includes: i) joining a congress by transferring, by a node operating in a proof-of-work blockchain network, one or more digital assets to a congress pool having one or more other digital assets associated with other members of a congress; ii) detecting, by the node, a special transaction of digital assets on the proof-of-work blockchain network to an address associated with the congress pool, the special transaction satisfying determined criteria; and iii) minting, by the node, one or more digital assets on a proof-of-stake blockchain network in response to detecting the special transaction. |
| US11876881B2 |
Mechanism to enable third party services and applications discovery in distributed edge computing environment
A method and system support communication between a service executed by an edge server and a mobile application. The method includes receiving a transmission control protocol (TCP) handshake with an Internet Protocol (IP) anycast address from the mobile application; replying to the TCP handshake with an IP unicast address for the service to be utilized for a transport layer security (TLS) session; and establishing the TLS session between the service and the mobile application using the IP unicast address. |
| US11876878B2 |
Data transport for event machine based application
Embodiments of the present disclosure relate to data transport for an event machine based application. An electronic device identifies a first higher layer protocol for processing an Ethernet frame. The electronic device extracts an ingress payload from the Ethernet frame based on the identified first higher layer protocol. In accordance with a determination that the ingress payload is associated with a plurality of services, the electronic device converts the ingress payload into a first group of events associated with the plurality of services. The electronic device provides the first group of events to an ingress queue so as to be scheduled to the plurality of services. |
| US11876873B2 |
System and method for selecting and providing zone-specific media
A system and method for providing zone-specific media to a user. As a non-limiting example, various aspects of this disclosure provide a system and method that flexibly selects and provides media content (e.g., audio content), where such content is selected based, at least in part, on a user location (e.g., location within a premises). |
| US11876867B2 |
Peer-to-peer signal caching system
A process that includes receiving a peer-to-peer connection initiation signal to establish a peer-to-peer connection with a second client computing device. The process further includes determining that a peer-to-peer connection condition is not satisfied such that the first client computing device is unavailable to establish the peer-to-peer connection with the second client computing device and storing the peer-to-peer connection initiation signal in a signal cache associated with the first client computing device. |
| US11876865B2 |
Method of and apparatus for generating space for sharing augmented reality content among multiple participants
The present disclosure relates to a method of and an apparatus for generating a space for sharing augmented reality content among multiple participants. With the method and the apparatus, an object for configuring a virtual space, which is proposed in an actual space, can also be proposed, in a spatial matching manner on a per-user basis, inside a common sharing space in augmented reality content by utilizing the technology of generating a space for sharing augmented reality content among multiple participants. |
| US11876859B2 |
Controlling packet delivery based on application level information
A network device includes a network interface, a host interface, and processing circuitry. The network interface is configured to connect to a communication network. The host interface is configured to connect to a host comprising a host processor running a client process. The processing circuitry is configured to receive packets belonging to a message having a message length, the message originating from a peer process, to identify, in at least some of the received packets, application-level information specifying the message length, to determine, based on the identified message length, that the packets of the message already received comprise only a portion of the message, and in response to determining that the client process benefits from receiving less than the entire message, to initiate reporting the packets of the message already received to the client process. |
| US11876856B2 |
Method for computational-power sharing and related device
A method for computational-power sharing is provided. In implementations of the disclosure, a computational-power sharing network element is connected with a network to perform control plane transmission and data plane transmission, or the computational-power sharing network element is connected with the network to perform control plane transmission. The computational-power sharing network element acquires computational-power demand information transmitted by a computing demand side and available computational-power information transmitted by at least one computing cooperation side. The computational-power sharing network element determines a computing cooperation side from the at least one computing cooperation side according to the computational-power demand information and the available computational-power information, and directly or indirectly indicates the computing cooperation side to complete a computing task of the computing demand side, where the computing cooperation side is able to provide computational power for the computing demand side. |
| US11876855B2 |
Discoverability and resource management of mesh-networked mobile nodes
The nodes of a squad of nodes include a coordinating node and a set of worker nodes for sharing computational resources to perform resource intensive tasks. To coordinate the sharing of resources, the coordinating node requests a report of resources status and current utilization from each worker node. The report of resource status includes at least a battery level of a corresponding worker node. The coordinating node receives a work request from a requesting worker node, and identifies a subset of worker nodes for executing the work request based on at least the battery level of each worker node and the current utilization of each worker node. The coordinating node then sends the list of identified worker nodes to the requesting worker node to allow the requesting worker node to divide the tasks for completing the work request among the worker nodes included in the list of identified worker nodes. |
| US11876854B2 |
Network browser engine
An improved computing system is arranged for cross-origin network communications on a single computing device. The system includes a processor, a networking module, and memory with software instructions arranged to operate a local computing server resource on a first local domain, instantiate a relay mechanism that has an iFrame and an invisible window, instantiate a local web server on a second local domain, install a service worker on the invisible window, receive a request for information at the local web server, verify a presence of the local computing server resource on the first local domain, communicatively connect the second local domain to the iFrame, and directly communicate, via the at least one networking module, at least one message between the local computing server resource on the first local domain and the local web server on the second local domain using the relay mechanism. |
| US11876851B2 |
Synchronizing independent media and data streams using media stream synchronization points
A messaging channel is embedded directly into a media stream. Messages delivered via the embedded messaging channel are extracted at a client media player. According to a variant embodiment, and in lieu of embedding all of the message data in the media stream, only a coordination index is injected, and the message data is sent separately and merged into the media stream downstream (at the client media player) based on the coordination index. In one example embodiment, multiple data streams (each potentially with different content intended for a particular “type” or class of user) are transmitted alongside the video stream in which the coordination index (e.g., a sequence number) has been injected into a video frame. Based on a user's service level, a particular one of the multiple data streams is released when the sequence number appears in the video frame, and the data in that stream is associated with the media. |
| US11876850B2 |
Simultaneous recording and uploading of multiple audio files of the same conversation and audio drift normalization systems and methods
The invention relates to audio drift normalization, and more particularly to audio drift normalization systems and methods that can normalize audio drift of a plurality of recordings from a source. |
| US11876848B2 |
Method and device for displaying a virtual livestream room, client, server and medium
The present disclosure relates to a method and a device for displaying a virtual livestream room, a client, a server and a medium. When a user triggers an interactive operation on a livestream page, a client can determine room identifications of one or more virtual livestream rooms to be updated that are bound to the interactive operation, and send the room identifications to a server. The server queries relevant information of virtual livestream rooms corresponding to changes in their room state through the room identifications of the virtual livestream rooms, and sends the relevant information of the virtual livestream rooms to the client, so that the client can quickly locate and modify the relevant information of the virtual livestream rooms, to timely update the virtual livestream rooms on the livestream page, and refresh data of each virtual livestream room. |
| US11876847B2 |
System and method for synchronizing networked rendering devices
A second media rendering device in a network is synchronized with a first media rendering device in the network. At a first time s1, the second media rendering device sends a request for a current audio sample index from the first media rendering device. The first media rendering device receives the request for the current audio sample index from the second media rendering device. The first media rendering device sends a message including a first current audio sample index equal to a value for a first media rendering device internal sample index. At a second time s2 the second media rendering device receives the first current sample index value from the first media rendering device. The second media rendering device determines a transmission latency, and estimates an updated first media rendering device internal sample index value. |
| US11876844B2 |
Systems and methods of alternative networked application services for video-conferencing applications
The server system hosts one or more virtual client devices executing one or more virtual applications, each virtual client device corresponding to a remote physical client device. The server system receives, from a first remote physical client device, a signal of a characteristic of media detected by a physical component of the first remote physical client device. The server system, in response to receiving the signal of the characteristic of the media, determines, based on the characteristic of the media, an instruction for adjusting the media detected by the physical component of the first remote physical client device and transmits, to the client device, the instruction for adjusting the media at the first remote physical client device. |
| US11876838B2 |
Lawful interception chain in service providing networks
Methods and devices employed in providing lawful interception (LI) by products related to a service session of an LI target as a unique chain. The packets sent to a legal enforcement agency are chained and have shorter headers. The number of packets is reduced by including both intercept-related information (IRI) and content of communications (CC) in the same packet if time-wise appropriate. |
| US11876832B2 |
Web site compromise detection
A Web site comprise detection method and system are disclosed. The method includes obtaining a resource identifier associated with a remote computer, and then receiving source code associated with the resource identifier. The method also includes parsing the source code, analyzing the source code to determine an indicator of compromise is present in the source code, determining that the indicator of compromise is associated with malware meta-data, and storing the resource identifier associated with the source code associated with the malware meta-data in a database. |
| US11876827B2 |
Multiple sourced classification
Systems, methods, and related technologies for improving classification use multiple classification resources. The method includes accessing network traffic from a network comprising a plurality of entities, and determining, based on the network traffic, one or more values associated with one or more properties of an entity of the plurality of entities. The method also includes determining, by a processing device, a first classification result of the entity based on the one or more values and at least one local profile, and determining a second classification result of the entity, wherein the second classification result of the entity is based on the one or more values and at least one remote profile. |
| US11876819B2 |
Methods, systems, and devices for dynamically modeling and grouping endpoints for edge networking
Various embodiments described herein disclose an endpoint modeling and grouping management system that can collect data from endpoint computer devices in a network. In some embodiments, agents installed on the endpoints can collect real-time information at the kernel level providing the system with deep visibility. In some embodiments, the endpoint modeling and grouping management system can identify similarities in behavior in response to assessing the data collected by the agents. In some embodiments, the endpoint modeling and grouping management system can dynamically model groups such as logical groups, and cluster endpoints based on the similarities and/or differences in behavior of the endpoints. In some embodiments, the endpoint modeling and grouping management system transmits the behavioral models to the agents to allow the agents to identify anomalies and/or security threats autonomously. |
| US11876816B2 |
Anomaly monitoring device
To promptly investigate the cause of interruption of Ethernet communication. An anomaly monitoring device includes a power supply, an Ethernet port, an anomaly determination unit configured to determine whether or not an anomaly related to Ethernet communication has occurred between a peripheral device and a control device, an information collection unit configured to collect operation information about operation of the peripheral device when the anomaly determination unit determines that an anomaly related to the Ethernet communication has occurred, and an information transmission unit configured to transmit the collected operation information outside via the Ethernet port, on the basis of the Ethernet communication. |
| US11876815B2 |
Device anomaly detection
There is disclosed in one example a computing apparatus, including: a hardware platform including a processor and a memory; and an anomaly detection engine including instructions encoded within the memory to instruct the processor to: periodically collect telemetry for a performance parameter; compute and maintain a local trend line for the performance parameter; receive from a cloud service a global trend line for the performance parameter for a class of devices including the computing apparatus; and perform anomaly detection including analyzing the local trend line and the global trend line to detect an anomaly. |
| US11876814B2 |
Proxy services for the secure upload of file system tree structures
The disclosure is directed towards proxy services for the secure uploading of file-system tree structures. A method includes receiving, at a web security service, an indication that client device to upload content to a storage cloud provider. The proxy service performs a security scan of the content while the content is stored on the client device. A security and/or a privacy concern is identified in the content stored on the client device. A security and/or privacy mitigation action is performed in response to identifying the security and/or privacy concern. |
| US11876811B2 |
Detection method, detection system, and detection program
Using sensor data indicating a state of a control target (2) outputted from a sensor (3) and a control input to control the state of the control target (2), a state estimation unit (4a) of a controller (4) calculates an estimate of the state of the control target (2). Further, a calculation unit (4b) of the controller (4) calculates the control input to which colored noise in a predetermined frequency band is added, according to the calculated estimate of the state of the control target (2). |
| US11876808B2 |
Detecting phishing attacks on a network
A method, system, and computer-implemented method to manage threats to a protected network having a plurality of internal production systems is provided. The method includes monitoring network traffic from the plurality of internal production systems of a protected network for domain names. For each internal production system, a first collection of each unique domain name that is output by the internal production system is determined over the course of a long time interval. For each internal production system, a second collection of each unique domain name that is output by the internal production system is determined over the course of a short time interval. Domain names in the first and second collections associated with the plurality of internal production systems are compared to determine suspicious domain names that meet a predetermined condition. A request is output to treat the suspicious the suspicious domain names as being suspicious. |
| US11876807B2 |
Secure online access control to prevent identification information misuse
In some aspects, a computing system can control access of a user computing device to a resource. The computing system can obtain an access request submitted by a user computing device. The computing system can verify permission information in the access request to determine that the access request is valid. If the access request is valid, the computing system submits an authentication request to request an authentication system to authenticate the user and obtains authentication results generated by the authentication system. The computing system further provides, based on the authentication results, an access control decision for the access request. |
| US11876803B1 |
Methods and systems for authorizing a client device to a service
A method of authorizing a client device to a service includes, by a customer electronic device associated with a customer: defining an access control list that includes permissions for authorized clients of the customer, creating authorization tokens and encoding the ACL into each of the authorization tokens, and distributing the authorization tokens to the authorized clients. The method includes, by a data center that provides a service to one or more of the authorized clients: receiving a service request for the service from a requesting client that includes a submitted authorization token, decoding the submitted authorization token to identify a received ACL in the submitted authorization token, analyzing the received ACL to determine whether the requesting client is an authorized client and the permissions in the received ACL grant the requesting client permission to access the service, and if so, providing the service to the requesting client. |
| US11876801B2 |
User ID codes for online verification
Methods and systems for establishing a chain of relationships are disclosed. An identity verification platform receives a first request for registration comprising an identification of a first user, identification of an entity, and a relationship between the first user and the entity; verifies the identity of the first user and the relationship between the first user and the entity; and verifies that the entity is legitimate. Once a relationship between a first individual, invited by the first user, and the entity is confirmed, the platform creates a custom badge representing the relationship between the first individual and the entity for display on the entity's website. The platform receives an identification of a selection by an end user of the custom badge and, responsive to receiving the identification of the selection, renders, on a domain controlled by the identity verification platform, a verification that the relationship between the first individual and the entity is valid. |
| US11876800B2 |
Monitoring a media access control security session
A device may determine that a first link of the device is active. The device may determine whether a Media Access Control Security (MACsec) session is established on the first link. The device may selectively enable or disable a second link of the device based on determining whether the MACsec session is established on the first link. |
| US11876797B2 |
Multi-factor geofencing system for secure encryption and decryption system
A method includes logging into a server and sending geolocation information to the server by a first device. The first device requests rights to decrypt a secure data file, and in response, the server sends a machine-readable optical label to the first device. The first device displays the machine-readable optical label. A second device logs into the server, and scans the machine-readable optical label displayed by the first device to create a scanned image. The second device decodes data from the scanned image to form decoded data. Geolocation information of the second device and the decoded data are submitted to the server. The decoded data and the geolocation information are validated by the server, and in response to successfully validating the geolocation information, a link completion status indicator is sent to the second device, and information to decrypt the secure data file is sent to the first device. |
| US11876794B2 |
Managed domains for remote content and configuration control on mobile information devices
A technique is disclosed for remotely managing isolated domains on mobile devices. A request is received from the mobile device to instantiate a managed domain. A managed domain configuration is determined and comprises a security policy controlling access to content of the managed domain of the subscribing mobile device, a content specification identifying the content to be downloaded by the subscribing mobile device into the managed domain, and a content configuration identifying a configuration of the content on the subscribing mobile device. The managed domain configuration is sent to the subscribing mobile device to instantiate a secure, managed domain whose policy, content and content configuration is remotely controlled. The technique is useful for advertising and brand promotion on mobile devices as it simultaneously enables detailed control over the presentation of content by a curator while ensuring privacy and security protection of the other apps, accounts and data on the mobile device. |
| US11876793B2 |
Simultaneous application support of multiple identity management systems via virtual web servers
Simultaneous distributed application support of multiple identity management systems is provided through the use of virtual web server instances, which enable one identity management system, on physical servers already running a pre-existing web server instance, which enables a different identity management system. Further, an intelligent rules-based determination is implemented to determine whether to route an access request to either the virtual or pre-existing web server instance. Since the virtual web server instances are generated on the same physical server that executes the pre-existing web service instance, the the existing network flow (i.e., a single URL) and physical infrastructure is leveraged to create a simplified approach to managing the simultaneous use of multiple identity management systems across different distributed applications. |
| US11876787B2 |
Dynamic encrypted communications systems using encryption algorithm hopping
An apparatus for providing secure communications may include a processor; memory in electronic communication with the processor; an output in electronic communication with the processor; and instructions stored in the memory and executable by the processor to cause the apparatus to store a plurality of encryption protocols; store at least one encryption hopping protocol; select at least one encryption hopping protocol; encrypt the data according to the selected encryption hopping protocol; and transmit data from the output utilizing the selected encryption hopping protocol. |
| US11876785B2 |
System and method for routing-based internet security
Method and system for improving the security of storing digital data in a memory or its delivery as a message over the Internet from a sender to a receiver using one or more hops is disclosed. The message is split at the sender into multiple overlapping or non-overlapping slices according to a slicing scheme, and the slices are encapsulated in packets each destined to a different relay server as an intermediate node according to a delivery scheme. The relay servers relay the received slices to another other relay server or to the receiver. Upon receiving all the packets containing all the slices, the receiver combines the slices reversing the slicing scheme, whereby reconstructing the message sent. |
| US11876784B2 |
RPC call interception
A service proxy is described herein. The service proxy is configured to act as an intermediary between a client and a service. The service proxy may observe communications, modify communications, log communications, or the like, particularly so as to enhance the security and reliability of the host device. In some implementations, the service proxy may cooperate with an operating system to take over a named port object. In some implementations, the service proxy may receive messages as an intermediary between the client and the server. In some implementations, the service proxy may attach to a shared memory to intercept communications. In some implementations, the service proxy may be injected into a client process to appear to be the client itself. |
| US11876783B2 |
Method of secure communication and system thereof
There is provided a computerized method of secure communication between a source computer and a destination computer, the method performed by an inspection computer and comprising: receiving data sent by the source computer to the destination computer; inspecting the received data using one or more filtering mechanisms, giving rise to one or more inspection results; separately signing each of the one or more inspection results; determining, based on an inspection management policy, whether to send at least some of the inspection results and/or derivatives thereof for manual inspection; upon a positive determination, providing manual inspection of the at least some inspection results and/or derivatives thereof, and providing signing of the at least one manual inspection result; and analyzing signed inspection results and performing additional verification of the signed inspection results when a result of the analyzing meets a predefined criterion specified by the inspection management policy. |
| US11876778B2 |
Methods and systems of a secure and private customer service automation platform
A computerized method for implementing a secure and private customer service automation platform. No customer data (like Name, Email, TaxID, Phone, other sensitive attributes) is stored on the customer support system (CSS). It is determined that a user queries for information. A client browser sends the request to API gateway. An application programming interface (API) gateway sends a request to an appropriate backend system after an authentication process; with the backend system. |
| US11876774B2 |
Resolving blockchain domains
A request to resolve at least a name of a domain of a name identifier is received. It is automatically determined that the name of the domain is to be resolved using a blockchain. The identifier of the non-fungible token is used to send a request to a smart contract associated with the blockchain to obtain one or more resolution records for the domain. The blockchain stores the non-fungible token associating the domain to an account address of an owner of the domain. The one or more resolution records of the domain are received. The received one or more resolution records are used to resolve at least the name of the domain. |
| US11876769B2 |
System and method for generating recommendations and transforming a message and providing a redacted reply service
A method and system for generating recommendations to a user based on content in the headers and body of an electronic message and transforming the email accordingly, and also providing a redacted reply service to ensure that a user hitting “reply all” cannot inadvertently unmask the identity of bcc (blind carbon copy) recipients of the original electronic message. |
| US11876762B1 |
Generating and displaying customized avatars in media overlays
Among other things, embodiments of the present disclosure improve the functionality of electronic messaging and imaging software and systems by generating and displaying media overlays with avatars of different users. For example, media overlays can be generated by the system and displayed in conjunction with media content (e.g., images and/or video) generated by an image-capturing device (e.g., a digital camera). |
| US11876760B2 |
Determining strength of association between user contacts
Methods and apparatus related to identifying one or more messages sent by a user, identifying two or more contacts that are associated with one or more of the messages, determining a strength of relationship score between identified contacts, and utilizing the strength of relationship scores to provide additional information related to the contacts. A strength of relationship score between a contact and one or more other contacts may be determined based on one or more properties of one or more of the messages. In some implementations, contacts groups may be determined based on the strength of relationship scores. In some implementations, contacts groups may be utilized to disambiguate references to contacts in messages. In some implementations, contacts group may be utilized to provide suggestions to the user of additional contacts of a contacts group that includes the indicated recipient contact of a message. |
| US11876754B2 |
Signaling of intended time division duplexing downlink-uplink configuration
Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a network node may generate an intended time division duplexing (TDD) downlink-uplink (DL-UL) configuration, wherein the network node is associated with a first central unit (CU) and a second CU, and wherein the intended TDD DL-UL configuration is for a cell that is served by the network node and associated with the second CU. The network node may transmit the intended TDD DL-UL configuration for the cell to the first CU. Numerous other aspects are described. |
| US11876752B2 |
CSI reporting in PUSCH for carrier aggregation
Carrier aggregation allows concurrent transmission on multiple component carriers (CC) to increase the data rate. A user equipment (UE) device in a cellular network provides periodic or aperiodic channel state information of the DL channel to a base station (eNB) for each of the aggregated CCs. The UE receives two or more reference signals corresponding to two or more aggregated CCs from an eNB. The UE computes a plurality of channel state information (CSI) reports for each of two or more aggregated CCs derived from the two or more reference signals. The UE receives a positive CSI request from the eNB for a CSI report and transmits CSI feedback to the eNB comprising one or more CSI reports selected from the plurality of CSI reports. |
| US11876750B2 |
Method and apparatus for determining channel access procedure in wireless communication system
A communication technique for convergence between a 5th-Generation (5G) communication system for supporting higher data rates beyond a 4th-Generation (4G) system and a technology for Internet of Things (IoT), and a system thereof, are provided. The communication technique and system may be applied to intelligent services (for example, smart homes, smart buildings, smart cities, smart cars or connected cars, health care, digital education, retail businesses, security and safety related services, etc.) based on the 5G communication technology and the IoT-related technology. A method and apparatus for determining a channel access procedure in a wireless communication system are provided. |
| US11876743B2 |
Method and system for provisioning radio resources for idle or inactive mode user equipment in wireless network
A method for provisioning radio resources for Idle or Inactive mode user equipment in wireless network includes configuring by a network node for Idle or Inactive mode of a UE, a plurality of reference signals comprising of reuse of at least one of Connected mode reference signal including at least one of Non-Zero Power Channel State Indicator Reference Signal (NZP-CSI-RS) resource, Tracking Reference Signal (TRS) resource, Phase Tracking Reference Signal (PTRS) resource. A new reference signal including at least one of NZP-CSI-RS resource, TRS resource, PTRS resource and new Demodulation Reference Signal (DMRS) or DMRS like signal is configured. The UE is enabled based on at least one of the reference signals from the configured plurality of reference signals for performing one or more of at least one of gain, time, phase and frequency synchronization, Radio Resource Management (RRM) measurements, and Quasi-Co-Location (QCL) assumption for Paging PDCCH decoding. |
| US11876741B2 |
Uplink transmission method and apparatus
The present application can provide an uplink transmission method and apparatus. The method comprises: a base station instructs a UE to send SRSs corresponding to N groups of SRS resources, each of the N groups of SRS resources comprising one or more SRS resources; N being a positive integer; the base station receives the SRSs sent by the UE to determine X groups of uplink scheduling information, each of the X groups of uplink scheduling information corresponding to one group of SRS resources in the N groups of SRS resources; uplink scheduling information in different groups corresponding to SRS resources in different groups; X being a positive integer greater than one and not greater than N; the base station sends the determined X groups of uplink scheduling information to the UE so that the UE transmits an uplink signal according to the X groups of uplink scheduling information. |
| US11876739B2 |
Method and apparatus for receiving PPDU in which data is duplicated and to which phase rotation is applied in wireless LAN system
Proposed are a method and an apparatus for receiving a PPDU in a wireless LAN system. Specifically, a reception STA receives a PPDU from a transmission STA through a first band, and decodes the PPDU. The PPDU includes a preamble and a data field. The first band includes first to fourth sub-blocks. The data field includes first data for first and second sub-blocks and second data for third and fourth sub-blocks. The second data is generated on the basis of data obtaining by duplicating the first data and applying phase rotation to the third sub-block. |
| US11876736B2 |
Allocating the same time-frequency resources to different UEs based on orthogonal beams assigned to the different UEs
A time-frequency resource allocation method includes: obtaining an uplink reference signal of user equipment (UE) on which allocation is to be performed when scheduling a time-frequency resource for the UE; measuring, based on the obtained uplink reference signal, each beam in a second preset quantity of orthogonal beam groups including a first preset quantity of beams, to determine a level of each beam; then determining, based on the level of each beam, a beam attribute that is of the UE and that is in the second preset quantity of orthogonal beam groups; and then, allocating, based on the beam attribute that is of the UE and a beam attribute that is of one or more UEs on which allocation has already been performed and that is in the second preset quantity of orthogonal beam groups, the time-frequency resource to the UE on which allocation is to be performed. |
| US11876733B2 |
Communication network hopping architecture
Communication network systems are disclosed. In one or more implementations, the communication network system includes a plurality of network devices. Each of the plurality of network devices incorporates one or more multi-port switches, where each multi-port switch includes a connection to the network device incorporating the multi-port switch and a connection to at least one other port of another multi-port switch incorporated by another respective one of the plurality of network devices. |
| US11876732B2 |
Method for managing the configuration of access to peripherals and their associated resources of a system on chip, and corresponding system on chip
System on a chip, comprising several master pieces of equipment, several slave resources, an interconnection circuit coupled between the master pieces of equipment and the slave resources and capable of routing transactions between master pieces of equipment and slave resources. A first particular slave resource cooperates with an element of the system on a chip, for example a clock signal generator, and the element has the same access rights as those of the corresponding first particular slave resource. |
| US11876731B2 |
System and methods for sharing memory subsystem resources among datacenter applications
Systems and methods for mapping applications onto system resource of a computing platform are discussed. The computing platform may receive, using control circuitry, a request to run a plurality of applications on a computing platform having a plurality of system resources. The computing platform may determine a plurality of mapping configurations for the plurality of applications onto the plurality of system resources. The computing platform may execute the plurality of applications with each of the plurality of mapping configurations. The computing platform may determine at least one performance metric based on the executed plurality of applications for each of the plurality of mapping configurations. The computing platform may select a selected mapping configuration among the plurality of mapping configurations based on at least one determined performance metric. |
| US11876725B2 |
Techniques for avoiding collisions among communications packets by using shared transmission queue
Techniques for transmitting data packets on a shared channel in a data communications network include storing, on a local node, a current number of turns in a transmitting queue and a current turn based on packets received from other nodes on the channel. For a first local data packet to transmit, a local transmit turn is obtained based on successfully transmitting the packet in a time interval following a last turn in the queue. A data link layer header includes queue fields for the current number of turns, the local transmit turn, and a request for adding the local transmit turn. While there is still a remaining packet to transmit and when the current turn is the local transmit turn, the packet is transmitted with queue fields indicating the current number of turns, the current turn, and an indication of no new turn. An acknowledgement control packet indicates successful transmission. |
| US11876722B2 |
Delay bounds for scheduling priority and packet discard in an integrated access and backhaul network
A method, a computer-readable medium, and an apparatus are provided for wireless communication at an integrated access and backhaul (TAB) node. The TAB node receives a first delay parameter and a second delay parameter associated with a packet, the first delay parameter being associated with a discard determination for the packet and the second delay parameter being associated with scheduling the packet for transmission. The TAB node performs a discard decision for the packet based on the first delay parameter associated or schedules the packet for transmission to a second TAB node or a user equipment (UE) using a second delay parameter associated with the packet. A central unit (CU) of an TAB network may indicate, to an TAB node, the second delay parameter for scheduling a packet and the first delay parameter for determining whether to discard the packet. |
| US11876721B2 |
Time-based traffic routing
The techniques described herein enable the use of a time factor for traffic management and routing. A system is configured to analyze traffic for a service over a period of time and identify (e.g., learn) traffic patterns that reflect a substantial effect on traffic during a particular real-world event. Using the traffic patterns identified via the analysis, the system can provide valuable time-based traffic information to service providers. A service provider can then create a predefined time-based profile that is used by a traffic manager to switch from a current traffic routing configuration to a different traffic routing configuration that better accommodates an expected traffic load for various endpoints. The predefined time-based profile specifies a scheduled time at which the switch is to occur, and this scheduled time can correspond to a start time for a real-world event that is known to cause an increase or decrease in traffic. |
| US11876719B2 |
Systems and methods for managing transmission control protocol (TCP) acknowledgements
A client device in a wireless network accesses a queue comprising Transmission Control Protocol Acknowledgement (TCP ACK) packets, at least some of which include packet descriptors, each with a flow identifier indicating a TCP flow associated with the packet, and a TCP ACK Generation Count. The device inspects a packet descriptor of a first TCP ACK packet, and identifies a first flow identifier and a first TCP ACK Generation Count. The device accesses entries in a data structure that each includes a first field and a second field respectively storing a flow identifier and a TCP ACK Generation Count. The device determines that a first entry in the data structure includes a flow identifier and a TCP ACK Generation Count matching the first flow identifier and the first TCP ACK Generation Count, respectively. In response to the determination, the device marks the first TCP ACK packet to be dropped. |
| US11876718B2 |
Graded throttling for network-on-chip traffic
Graded throttling for network-on-chip traffic, including: calculating, by an agent of a network-on-chip, a number of outstanding transactions issued by the agent; determining that the number of outstanding transactions meets a threshold; and implementing, by the agent, in response to the number of outstanding transactions meeting the threshold, a traffic throttling policy. |
| US11876716B2 |
Systems and methods for adjusting a congestion window value of a content delivery network
Aspects of the present disclosure involve systems, methods, computer program products, and the like, for controlling a congestion window (CWND) value of a communication session of a CDN. In particular, a content server may analyze a request to determine or receive an indication of the type of content being requested. The content server may then set the initial CWND based on the type of content being requested. For example, the content server may set a relatively high CWND value for requested content that is not particularly large, such as image files or text, so that the data of the content is received at the client device quickly. For larger files or files that a have a determined smaller urgency, the initial CWND may be set at a lower value to ensure that providing the data of the content does not congest the link between the devices. |
| US11876711B2 |
Packet transmission system and method
A network gateway is provided for routing data flows across a plurality of network connections, the network gateway including a plurality of network interfaces for transmitting data over the plurality of network connections, the plurality of network interfaces including a first network interface; at least one processor configured for: transmitting a sequential burst of packets across the first network interface; based on timestamps recorded when packets in the sequential burst of packets are received at a receiving node, and the size of the packets, generating a bandwidth of the first network interface; and routing a data flow of sequential packets across the plurality of network connections based on the generated bandwidth of the first network interface. |
| US11876710B2 |
Dynamic IP routing in a cloud environment
The present disclosure provides dynamic routing for data flows to a customer network hosted in the cloud. A plurality of compute instances may share a common virtual IP address. Each of the plurality of compute instances may advertise information to a respective network virtualization device (NVD). The information may include the IP address, cost, and/or active/standby status of the compute instance. The NVD may then provide the information to the control plane of a virtual cloud network (VCN), which may aggregate the information from the plurality of compute instances and generate a forwarding table, which may be sent to the NVDs. These techniques may allow a customer to automatically remove a compute instance whose service host has failed. These techniques may also allow a customer to add compute instances and to route data flows according to an active-standby operation, an equal cost active-active operation, or an unequal cost active-active operation. |
| US11876708B2 |
Interface-based ACLs in a layer-2 network
Systems and methods of interface-based ACLs in a virtual Layer-2 network. The method can include sending a packet from source compute instance in a virtual network to a destination compute instance via a destination virtual network interface card (destination VNIC) within a first virtual layer 2 network and evaluating an access control list (ACL) for the packet with a source virtual network interface card (source VNIC). ACL information relevant to the packet can be embedded in the packet. The VSRS can receive the packet and can identify the destination VNIC within the first virtual layer 2 network for delivery of the packet based on information received with the packet and mapping information contained within a mapping table. The VSRS can access ACL information from the packet and can apply the ACL information to the packet. |
| US11876707B2 |
Routing virtual area based communications
In association with a virtual area, a first network connection is established with a first network node present in the virtual area and a second network connection is established with a second network node present in the virtual area. Based on stream routing instructions, a stream router is created between the first network node and the second network node. The stream router includes a directed graph of processing elements operable to receive network data, process the received network data, and output the processed network data. On the first network connection, an input data stream derived from output data generated by the first network node is received in association with the virtual area. The input data stream is processed through the stream router to produce an output data stream. On the second network connection, the output data stream is sent to the second network node. |
| US11876702B2 |
System and method for facilitating efficient address translation in a network interface controller (NIC)
A network interface controller (NIC) capable of facilitating efficient memory address translation is provided. The NIC can be equipped with a host interface, a cache, and an address translation unit (ATU). During operation, the ATU can determine an operating mode. The operating mode can indicate whether the ATU is to perform a memory address translation at the NIC. The ATU can then determine whether a memory address indicated in the memory access request is available in the cache. If the memory address is not available in the cache, the ATU can perform an operation on the memory address based on the operating mode. |
| US11876698B2 |
High-speed hardware-based traffic analyzer integration with speed test control application
In some examples, high-speed hardware-based traffic analyzer integration with speed test control application may include receiving, from a speed test control application, speed test control instructions and data connection instructions to perform an upload and download high-speed test associated with network traffic for a network. The speed test control instructions and the data connection instructions may be forwarded to a speed test control server. A hardware-based traffic analyzer may perform, based on the speed test control instructions and the data connection instructions, the high-speed test associated with the network traffic for the network. |
| US11876695B2 |
Path monitoring system (PMS) controller or ingress node based multiprotocal label switching (MPLS) ping and traceroute in inter-autonomous system (AS) segment routing (SR) networks
Echo or traceroute functionality is supported in a path spanning multiple autonomous systems (ASes) having segment routing (SR) enabled, the path including an ingress node and an egress node, by: (a) obtaining a return label stack to reach the ingress node from either (A) the egress node, or (B) a transit node in the path; (b) obtaining a label stack to reach, from the ingress node, either (A) the egress node, or (B) the transit node; (c) generating a request message including the return label stack; and (d) sending the request message towards either (A) the egress node, or (B) the transit node using the label stack. The example method may further include: (e) receiving, by either (A) the egress node, or (B) the transit node, the request message, wherein the request message includes information for performing a validity check; (f) performing a validity check using the information included in the request message to generate validity information; (g) generating a reply message including the validity information and information from the return label stack; and (h) sending the reply message towards the ingress node using information from the return label stack included in the request message. |
| US11876686B2 |
Methods, systems, and computer readable media for conducting a network traffic simulation using hypertext transfer protocol archive data
Methods, systems, and computer readable media for conducting a network traffic simulation using hypertext transfer protocol (HTTP) archive (HAR) data are disclosed. One method includes receiving HAR file information generated by a web client entity in a test environment, utilizing at least a portion of the HAR file information to generate one or more HTTP transaction test definitions, and utilizing the one or more HTTP transaction test definitions to generate an associated web application server emulation used for performing a test on a system under test (SUT). The method further includes utilizing the web application server emulation to generate a plurality of test packets and generating associated performance metric data representative of the SUT in response to the SUT processing the plurality of test packets. |
| US11876685B1 |
Locally predicting state using a componentized entity simulation
A simulation environment (e.g., multi-player game) hosted by a provider network may implement componentized entities to reduce the amount of resource usage for a simulation (e.g., by reducing the amount of input/state data transmitted through the use of dynamically changing input structures). A user may add or remove any number of components to an entity that is simulated at the local client device. When inputs are received for one or more components, values for predictive states are locally determined for each component. An input packet is generated and sent to the provider network, which includes the inputs as well as data that is based on the values for the locally predicted states (e.g., a fingerprint or other unique ID). If necessary, a correction packet may be generated at the provider network and sent back to the client. |
| US11876684B1 |
Controlled cross-cell migration of data in cell-based distributed computing architecture
Systems and methods are described for controlled migration of workloads between cell systems arranged in a cell-based architecture. Each cell system can implement a portion of an overall workload of the architecture, which may represent a network-accessible service. The isolation provided by cells may prevent widespread problems at the service, but may also conceal errors that might occur should workloads between the cells be redistributed. Such redistribution is often forced at inopportune moments, such as when a cell of the service has already failed. Systems and methods described herein enable detection of such errors by repeatedly migrating portions of workloads between cells. The system can monitor health information during or between migrations to ensure continued health of the service. If the service appears to be unhealthy after a migration, future migrations can be halted to enable a cause of the unhealthy state to be identified and rectified. |
| US11876675B2 |
Migrating software defined network
Some embodiments provide a method of migrating a first software defined (SD) network managed by a first network manager to a second SD network managed by a second network manager. The method of some embodiments is performed by a third network manager that provides an interface that allows a set of users to specify and review logical network components, which the first and second network managers can then respectively deploy in the first and second SD networks. The third network manager in some embodiments identifies for a migration manager a first group of two or more logical network components that the third network manager previously specified for the first network manager to deploy in the first SD network. The migration manager then uses this information to correctly convert the first group of logical network components to a second group of two or more logical components in an appropriate manner that will allow the third network manager to manage the second group of logical network components that is implemented in the second SD network. |
| US11876674B1 |
Network segmentation
The innovation disclosed and claimed herein, in one aspect thereof, comprises systems and methods of determining network segmentation. The innovation can search a network to determine a set of network entities, the network entities belonging to the network, and determine network factors of each network entity in the set of network entities. The innovation can evaluate each network factor and determine segmentation candidates based on the evaluation of each network factor. The innovation can determine a risk ranking for each network factor for each network entity and aggregate each risk ranking into a segmentation score for each network entity. The innovation can determine a segmentation candidate when a network entity segmentation score satisfies a threshold score. The innovation can generate a sub-network that is part of the network for the segmentation candidate, and transfer the segmentation candidate to the sub-network. |
| US11876672B2 |
Change deployment system
A framework referred to as COmposition fRamework for chaNge management (CORNET) may integrate re-usable abstraction, modular composition with plug-and-play capabilities, or automated translation of high-level change management intent into low-level implementations and mathematical models. CORNET may use real-world data collected from cellular networks (e.g., 4G or 5G) and virtualized services, such as virtual private networks (VPN) and software defined wide area networks (SDWAN) running in the cloud. |
| US11876671B2 |
Dynamic configuration of a cluster network in a virtualized computing system
An example method of configuring a cluster network for an application management system having virtual machines (VMs) executing on a virtualization layer in a cluster of hosts connected to a physical network, wherein the application management system is integrated with the virtualization layer, the method including: deploying, by a virtualization management server, a master server of the application management system prior to configuration of a cluster network that connects the VMs, the master server connected to the virtualization management server by a management network isolated from the cluster network; configuring, by the master server in cooperation with a network manager, the cluster network to connect the VMs; and connecting, by the master server in cooperation with the network manager, the cluster network to an edge node configured to support external ingress/egress for the cluster network. |
| US11876669B2 |
Communication line detection method, system therefor, and network control system
A method and system for line fault detection, and a network control system are provided. A line fault detection method of a line fault detection system operated by at least one processor comprises generating a network device vector for each node, whose elements are network devices included in each node connected to both ends of a line, when a fault alarm occurs, setting an element corresponding to the network device in which the fault alarm occurs among the elements of the network device vector as a communication state according to the fault alarm, and determining whether a fault occurred in the line and the network device where the fault occurred based on the communication state set in the network device vector. |
| US11876668B1 |
Communication channel failover system and method
A system and method for communication channel failover between disparate communication providers. A communication application hosting server: while hosting a communication application between a first user device and a second user device: initiating establishing a first communication channel between the first user device and the second user device, wherein the first communication channel is provided by a first communication channel provider. The method further comprising, receiving a failure to connect signal from the first user; in response to receiving the failure to connect signal: determining whether a second communication channel provided by a second communication channel provider of a plurality of disparate communication channel providers meets a failover criteria. In response to determining that the second communication channel provided by the second communication channel provider meets failover criteria, redirecting the first user device and second user device to the second communication channel. |
| US11876667B2 |
Broadband watchdog
A method includes determining that data out of a peripheral device has been interrupted. In response, control signals are transmitted that cause power to not be supplied to the peripheral device and then cause power to be supplied to the peripheral device. If the peripheral device is determined to not be outputting data, whether data into the peripheral device has been restored is determined. If it is not, control signals are transmitted that cause power to not be supplied to a router and then cause power to be supplied to the router. If the router is determined to be outputting data, control signals are transmitted that cause power to not be supplied to a wireless access point that is coupled to the modem and then cause power to be supplied to the wireless access point. Whether the wireless access point is outputting data is determined. |
| US11876664B2 |
Transmission method, transmission device, reception method, and reception device
Provided is a transmission method that improves data reception quality in radio transmission using a single-carrier scheme and/or a multi-carrier scheme. The transmission method includes: generating a plurality of first modulated signals and a plurality of second modulated signals from transmission data, the plurality of first modulated signals being signals generated using a 16QAM modulation scheme, and the plurality of second modulated signals being signals generated using uniform constellation 64QAM modulation; generating, from the plurality of first modulated signals and the plurality of second modulated signals, a plurality of first signal-processed signals and a plurality of second signal-processed signals which satisfy a predetermined equation; and changing the predetermined equation when a 64QAM modulation used to generate the plurality of second modulated signals is switched from the uniform constellation 64QAM modulation to a non-uniform constellation 64QAM modulation. |
| US11876662B2 |
Signal demodulation method, signal transmission method, and related apparatus
A signal demodulation method, a signal transmission method, and a related apparatus. The signal demodulation method includes: a terminal device receives a first tracking reference signal from a first transmission reception apparatus of a single frequency network cell; a second tracking reference signal occupying different time-frequency from the first tracking reference signal from a second transmission reception apparatus of the single frequency network cell; and receives indication information indicating tracking reference signals from the first transmission reception apparatus or the second transmission reception apparatus; determines, based on the one or more tracking reference signals for receiving the downlink signal, a first carrier frequency on which the downlink signal is to be received; receives the demodulation reference signal and the downlink data based on the first carrier frequency; and demodulates the downlink data based on the demodulation signal. |
| US11876655B2 |
Transmitting apparatus for transmitting an OFDM signal generated by performing IFFT processing on a preamble and one or more subframes into which pilot signals are inserted
A transmitting method includes: configuring a frame using a plurality of orthogonal frequency-division multiplexing (OFDM) symbols, by allocating a plurality of transmission data to a plurality of areas; and transmitting the frame. The plurality of areas are each identified by at least one time resource among resources and at least one frequency resource among frequency resources. The frame includes a first period in which a preamble is transmitted, and a second period in which the plurality of transmission data are transmitted by at least one of time division and frequency division. The second period includes a first area, and the first area includes a data symbol generated from first transmission data, a data symbol generated from second transmission data and subsequent to the data symbol generated from the first transmission data, and a dummy symbol subsequent to the data symbol generated from the second transmission data. |
| US11876651B2 |
Driving adjustment circuit and electronic device
A driving adjustment circuit and an electronic device are provided. The driving adjustment circuit includes a first NOT gate module, second NOT gate module and third NOT gate module sequentially connected. An input terminal of the first NOT gate module and an output terminal of the third NOT gate module are connected to a signal terminal. The first NOT gate module acquires a to-be-driven signal from the signal terminal and perform a NOT operation on the to-be-driven signal to obtain a first adjustment signal. The second NOT gate module receives the first adjustment signal and performing the NOT operation on the first adjustment signal to obtain a second adjustment signal, when the driving adjustment circuit is in an ON state. The third NOT gate module receives the second adjustment signal and perform voltage adjustment processing on the to-be-driven signal at the signal terminal according to the second adjustment signal. |
| US11876650B2 |
Multi-stage equalizer for inter-symbol interference cancellation
An equalizer includes a first feed-forward stage that provides a measure of low-frequency ISI and a second feed-forward stage that includes a cascade of stages each making an ISI estimate. The ISI estimate from each stage is further equalized by application of the measures of low-frequency ISI from the first feed-forward stage and fed to the next in the cascade of stages. The ISI estimates from the stages thus become progressively more accurate. The number of stages applied to a given signal can be optimized to achieve a suitably low bit-error rate. Power is saved by disabling stages which are not required to meet that goal. |
| US11876642B2 |
Collective communication system and methods
A method in which a plurality of process are configured to hold a block of data destined for other processes, with data repacking circuitry including receiving circuitry configured to receive at least one block of data from a source process of the plurality of processes, the repacking circuitry configured to repack received data in accordance with at least one destination process of the plurality of processes, and sending circuitry configured to send the repacked data to the at least one destination process of the plurality of processes, receiving a set of data for all-to-all data exchange, the set of data being configured as a matrix, the matrix being distributed among the plurality of processes, and transposing the data by each of the plurality of processes sending matrix data from the process to the repacking circuitry, and the repacking circuitry receiving, repacking, and sending the resulting matrix data to destination processes. |
| US11876640B2 |
User station for a serial bus system, and method for transferring data with manipulation protection in a serial bus system
A user station for a serial bus system and a method for transferring data with manipulation protection in a serial bus system. The user station includes a communication control device for creating messages which are to be transmitted serially via a bus line to at least one other user station of the bus system, and/or for reading the messages which have been received serially from the bus line. The communication control device is designed to use a predetermined communication rule for creating and/or reading messages, and the communication control device, for creating and/or reading messages, is designed to use at least one rule for creating and/or reading the messages, which is different from the predetermined communication rule, when a predetermined trigger occurs. |
| US11876639B2 |
Utility vehicle control system with real time clock
A utility vehicle that includes a vehicle control system having one or more real time clocks (RTC). The RTC can be embedded in the vehicle control system, or in components or subsystems of the vehicle control system, and can be either dedicated electronics or software based. Information provided by the RTC can be used to synchronize components and subsystems of the vehicle control system. Further, such inclusion of the RTC can enable the vehicle control system to initiate a number of time based functions, including, for example, time based functions relating to battery charging, wake-up and shut down of components, status reporting, periodic vehicle level events and maintenance, and management of time based operation or use of the utility vehicle or components thereof, including vehicle cameras. |
| US11876638B2 |
Bridging mesh device controller for implementing a scene
A device controller can communicate with a local network of devices and one or more intermediary devices for transmitting scene commands for implementation of a scene. The device controller may create a mesh bridge with the one or more intermediary devices to establish a communication link with a controlled device and generate and transmit a set of one or more scene commands via the mesh bridge to the controlled device to execute the scene. |
| US11876634B2 |
Group contact lists generation
In some examples, a computer-implemented method includes accessing a contact database of a sending user, the contact database includes a plurality of contact records, each contact record of the plurality of contact records being associated with a respective user and including respective graphic data, identifying a first set of contact records of the plurality of contact records, each contact record of the first set of contact records having common graphic data as part of the respective graphic data, automatically including the first set of contact records in a contact group of a messaging application of the sending user, detecting a send message operation by a messaging application of the sending user, and causing presentation of a user-selectable graphic icon associated with the contact group within the messaging application, the user-selectable graphic icon being selectable by the sending user to send a message to the contact group. |
| US11876633B2 |
Dynamically generated topic segments for a communication session
Methods and systems provide for dynamically generated topic segments for a communication session. In one embodiment, the system connects to a communication session with a number of participants; receives a list of topics; receives a transcript of a conversation between the participants produced during the communication session, the transcript including timestamps for a number of utterances associated with speaking participants; for each topic in the list of topics, segments the utterances into one or more topic segments based on the topic; for each of the segments, classifies whether the topic segment is related to the topic, and transmits, to one or more client devices, a list of the topic segments for the communication session. |
| US11876632B2 |
Audio transcription for electronic conferencing
Aspects of the subject technology provide for transcription of audio content during a conferencing session, such as an audio conferencing session or a video conferencing session. The transcription can be generated by the device at which the audio input is received, and transmitted to a remote device at which the transcription is displayed. Video content can also be provided from the device that generates the transcription to the remote device that displays in the transcription. The transcription can be provided with time information corresponding to time information in the video content, for synchronized display of the transcription and the corresponding video content. |
| US11876631B2 |
Network information transmission method and network information transmission system
A network information transmission method, comprising the following steps: receiving a first media information by a first terminal device; processing the first media information to obtain a processed first media information; integrating the processed first media information into a second media information to generate an integrated second media information; outputting the integrated second media information to a second terminal device through the network; decompressing the integrated second media information through the second terminal device; capturing the integrated second media information through the second terminal device; obtaining the first media information based on the integrated second media information; and playing the first media information by the second terminal device. |
| US11876627B2 |
Method, apparatus, and system for generating HARQ-ACK codebook in wireless communication system
A terminal of a wireless communication system comprises a communication module and a processor for controlling the communication module. The processor generates a hybrid automatic repeat request (HARQ)-ACK codebook including one or more bits indicating whether reception of a channel or signal is successful, and transmits the HARQ-ACK codebook to a base station of the wireless communication system. The HARQ-ACK codebook is generated on the basis of a slot corresponding to a value of an HARQ-ACK feedback timing parameter (K1) set in a sub-slot level, and each of bits configuring the HARQ-ACK codebook corresponds to at least one sub-slot form among a plurality of sub-slots included in the slot. |
| US11876625B2 |
Hybrid automatic repeat request feedback method and apparatus, user equipment, and base station
A method and apparatus for feeding back a hybrid automatic repeat request (HARQ) are provided. A user equipment (UE) buffers, in response to detecting that a signal of other equipment is being transmitted at a current time-frequency resource location, HARQ feedback information to be fed back. The UE may further send the HARQ feedback information at a preset time-frequency resource location of at least part of a plurality of preset frequency bands according to priorities of the plurality of preset frequency bands. |
| US11876620B1 |
Error correction for decoding frames
Implementations of the present disclosure relate to a method for decoding error correction. The method comprises detecting a failure of decoding a received frame. After the failure of decoding the received frame is detected, a type of the received frame is determined based on a probability that the received frame follows a prior frame of the received frame in a frame sequence. The method further comprises obtaining a template corresponding to the type of the received frame, and decoding the received frame based on the fixed values in the template. The template includes fixed values corresponding to the type of the received frame. With these implementations, correction ability of the decoding can be obviously improved with assistance of the constructed template. |
| US11876618B2 |
Dynamic numerology based on services
A base station can select orthogonal frequency-division multiplexing (OFDM) numerologies that define subcarrier spacing values based on attributes associated with one or more services that a user equipment (UE) is using. The base station can use the selected OFDM numerologies for transmission associated with the services. When the UE is using multiple services simultaneously, the base station can select the same or different OFDM numerologies for the multiple services. |
| US11876612B2 |
System and method for improving content fetching by selecting tunnel devices
A method for fetching a content from a web server to a client device is disclosed, using tunnel devices serving as intermediate devices. The tunnel device is selected based on an attribute, such as IP Geolocation. A tunnel bank server stores a list of available tunnels that may be used, associated with values of various attribute types. The tunnel devices initiate communication with the tunnel bank server, and stays connected to it, for allowing a communication session initiated by the tunnel bank server. Upon receiving a request from a client to a content and for specific attribute types and values, a tunnel is selected by the tunnel bank server, and is used as a tunnel for retrieving the required content from the web server, using standard protocol such as SOCKS, WebSocket or HTTP Proxy. The client only communicates with a super proxy server that manages the content fetching scheme. |
| US11876610B2 |
Transmission device, reception device, transmission method, and reception method
A transmission device includes: a first mapper that maps a first bit stream of a first data series to generate a first modulated symbol stream of the first data series; a second mapper that maps a second bit stream of a second data series to generate a second modulated symbol stream of the second data series; a converter that subjects the second modulated symbol stream to conversion in accordance with the first modulated symbol stream; a superposition unit that superposes the first modulated symbol stream and the second modulated symbol stream at a predetermined amplitude ratio to generate a multiplexed signal, the second modulated symbol stream having been subjected to the conversion in accordance with the first modulated symbol stream; and a transmitter that transmits the multiplexed signal. |
| US11876606B2 |
Systems and methods directed towards a reconfigurable optical add-drop multiplexer
The systems and methods directed towards a reconfigurable optical add-drop multiplexer (ROADM). The ROADM comprising: i) a plurality of line cards, wherein each one of the plurality of line cards is configured to receive a plurality of wavelength channels from an optical link in an optical network; ii) a plurality of add/drop cards, wherein each one of the plurality of add/drop cards includes a primary path and a secondary path; and iii) a controller configured to: a) select a set of wavelength channels from the plurality of wavelength channels, b) determine if there is any contention between the set of wavelength channels, c) direct a first subset of wavelength channels from the set of wavelength channels that do not have contentions to the primary path, and d) direct a second subset of wavelength channels from the set of wavelength channels that have contentions to the secondary path. |
| US11876604B2 |
System and method to manage streaming video content
A system and method to provide streaming video content to a screen of a smart electronic device in non-viewable form until a user agrees to view the video in exchange for an incremental amount of currency, at which time the streaming video content becomes viewable in pre-determined increments of time pre-paid for by the user of the smart device by interacting with the screen. The user can determine through the screen how many increments of viewable streaming of video content are desired to be purchased and viewed by interacting with the screen in a pre-determined way each time the streaming video content becomes non-viewable. |
| US11876601B2 |
Method and apparatus for handling communications between spacecraft operating in an orbital environment and terrestrial telecommunications devices that use terrestrial base station communications
A multiple-access transceiver handles communications with mobile stations in environments that exceed mobile station design assumptions without necessarily requiring modifications to the mobile stations. One such environment is in Earth orbit. The multiple-access transceiver is adapted to close communications with mobile stations while exceeding mobile station design assumptions, such as greater distance, greater relative motion and/or other conditions commonly found where functionality of a terrestrial transceiver is to be performed by an orbital transceiver. The orbital transceiver might include a data parser that parses a frame data structure, a signal timing module that adjusts timing based on orbit to terrestrial propagation delays, frequency shifters and a programmable radio capable of communicating from the Earth orbit that uses a multiple-access protocol such that the communication is compatible with, or appears to the terrestrial mobile station to be, communication between a terrestrial cellular base station and the terrestrial mobile station. |
| US11876596B2 |
Enhanced LDACS system having channel aggregation and associated methods
An enhanced L-band Digital Aeronautical Communications System (LDACS) may include LDACS ground stations, and LDACS airborne stations configured to communicate with the LDACS ground stations. The enhanced LDACS may also include a network controller configured to operate a given LDACS ground station and LDACS airborne station to use a primary LDACS channel and at least one supplemental LDACS channel defining an aggregated bandwidth channel, with the primary LDACS channel changing at handover from one LDACS ground station to another LDACS ground station. |
| US11876595B2 |
Terrestrial based high speed data communications mesh network
A network for providing high speed data communications may include multiple terrestrial transmission stations that are located within overlapping communications range and a mobile receiver station. The terrestrial transmission stations provide a continuous and uninterrupted high speed data communications link with the mobile receiver station employing a wireless radio access network protocol. |
| US11876589B2 |
Explicit channel information feedback based on high-order PCA decomposition or PCA composition
A communication device for providing an explicit channel state information, CSI, feedback in a wireless communication system includes a transceiver to receive, from a transmitter a radio signal via a radio time-variant frequency MIMO channel, the radio signal including downlink reference signals according to a reference signal configuration, and downlink signals including the reference signal configuration, and a processor. The processor estimates the CSI using measurements on the downlink reference signals of the radio channel according to the reference signal configuration over one or more time instants/slots, constructs a frequency-domain channel tensor using the CSI estimate, performs a higher-order principal component analysis, HO-PCA, on the channel tensor, identifies a plurality of dominant principal components of the channel tensor, thereby obtaining a compressed channel tensor, and reports to the transmitter the explicit CSI including the dominant principal components of the channel tensor. |
| US11876588B2 |
Beam management techniques for beam calibration
Embodiments of this disclosure provide techniques for determining a device's beam correspondence status. As used herein, a device is considered to have “beam correspondence” when the device's TX and RX antennas satisfy a calibration criteria. In one example, a device's TX and RX antennas satisfy the calibration criteria when a difference between quality parameters corresponding to reference signals transmitted and received using corresponding TX and RX beams is less than a threshold. In another example, a device's TX and RX antennas satisfy the calibration criteria when a list of indices ranking the device's TX beams matches a list of indices ranking the device's RX beams. The lists of indices may be derived by transmitting and receiving references signals according to the devices RX and TX beams, and then generating list of indices based on quality parameters of the respective RX and TX beams. |
| US11876586B2 |
Power control implementation method and apparatus, communication node, and computer-readable storage medium
Provided are a power control implementation method and apparatus, a communication node, and a computer-readable storage medium. The method includes: acquiring information about TPMI, determining one or more precoding codewords in a preconfigured precoding codeword set according to the information about TPMI, and performing transmission to a second communication node according to the one or more precoding codewords. |
| US11876585B1 |
Modified singular-value decomposition signal-to-leakage ratio precoding for multiple-input and multiple-output systems
A network node may decompose a first channel of a first user equipment (UE) to calculate a first set of singular-value decomposition (SVD) values and may decompose a second channel of a second UE to calculate a second set of SVD values. The first SVD values may include a first matrix having left eigenvectors, a second matrix having diagonal eigenvalues, and a third matrix having a first Hermitian of right eigenvectors. The second SVD values may include a fourth matrix having left eigenvectors, a fifth matrix having diagonal eigenvalues, and a sixth matrix having a second Hermitian of right eigenvectors. The network node may communicate using a beamforming weight for a signal-to-leakage ratio (SLR) precoder matrix associated with the first UE and the second UE based on the third matrix and the sixth matrix and not based on the second matrix and the fifth matrix. |
| US11876584B2 |
WAP uplink optimization by selection of MIMO antennas spatial states
A method to operate a wireless access point (WAP) that includes identifying multiple stations from uplink statistics of a plurality of uplinks and determining an optimal spatial state of an antenna array for reception of the plurality of uplinks. Channel state information (CSI) is evaluated for each antenna in the antenna array. Determining the optimal spatial state of the antenna array includes using the CSI for each antenna to extrapolate the optimal spatial state of the antenna array for the plurality of uplinks. The method further includes changing a spatial state of the antenna array to the optimal spatial state. |
| US11876582B2 |
Hybrid beam steering radar
Examples disclosed herein relate to a radar system for object identification. The radar system transmitting an azimuth fan beam and incrementing elevation of the beam. The radar system may include a transmit antenna and a receive antenna, each having a plurality of antenna elements arranged in rows and columns. The radar system may include a transceiver coupled to the transmit antenna and the receive antenna, the transceiver configured to control transmit beams having an azimuth fan beam, or an elevation fan beam. The radar system may include a processing unit. In various embodiments, the processing unit may include a digital processing unit; a range Doppler mapping module; and an azimuth detection module coupled to the transceiver. The azimuth detection module may be configured to process received signals and identify an azimuth angle of arrival by correlating signals received at antenna elements in rows of the receive antenna. |
| US11876579B2 |
Multi-site MIMO cooperation in cellular networks
A method of serving a given data stream to a target mobile terminal, in a cellular communications network that includes a plurality of transmitting sites wherein each transmitting site including at least one antenna, is provided. The method includes designating at least two of the plurality of transmitting sites as cooperating sites; assigning tones to each transmitting site from a sub-band associated with the cooperating sites; dividing the data stream into at least two sub-data streams, each of the sub-data streams for transmission over selected tones; and interlacing tones of the cooperating sites in accordance with a selected one of a time switching and a frequency switching transmit diversity technique. Other techniques for multi-site MIMO cooperation are also provided. |
| US11876573B2 |
Repeater communication system with sub-band power measurement capability
This disclosure provides systems, methods, and devices for wireless communication that support techniques for operating repeaters based on sub-band power measurements. According to some aspects, sub-band-based power measurements may also allow a repeater to acquire other side information, e.g., time division duplex (TDD) downlink/uplink information or beam configuration information, more accurately. In aspects, a repeater determines one or more sub-band received-signal powers associated with one or more sub-bands of a bandwidth available for wireless communication, amplifies one or more signals received within at least one of the one or more sub-bands, and transmits the amplified one or more signals to at least one of a user equipment (UE) or a base station. |
| US11876572B2 |
Wireless telecommunications network
A method of determining performance of a Radio Access Network (RAN) of a telecommunications network is disclosed in which the RAN covers an area that is divided into a plurality of unit cells. The method includes receiving a measured performance value of the RAN within at least one unit cell of the plurality of unit cells; receiving a simulated performance value of the RAN within each of the plurality of unit cells; identifying a unit cell that is associated with both a measured performance value and a simulated performance value; calculating, for the identified unit cell, a difference function between the simulated performance value and the measured performance value; and applying the difference function to the simulated performance value of at least one adjacent unit cell to the identified unit cell to determine a modified simulated performance value for the at least one adjacent unit cell. |
| US11876570B2 |
Electronic device and method for detecting emergency of vehicle
A first electronic device comprises a communication circuitry; a memory configured to store instructions; and a processor, coupled with the communication circuitry; wherein the processor is configured to: receive, from a second electronic device, a signal for indicating to transmit a test signal via a device-to-device (D2D) communication path between the first electronic device and a third electronic device to the third electronic device, the signal is transmitted from the second electronic device to the first electronic device; transmit the test signal via the D2D communication path to the third electronic device; activate a timer for monitoring whether a response signal regarding the test signal is received or not; transmit, to the second electronic device, a first message for indicating that a vehicle is not in an emergency situation; and transmit, to the second electronic device, a second message for indicating that the vehicle is in the emergency situation. |
| US11876569B2 |
Devices, systems, and software including signal power measuring and methods and software for measuring signal power
Systems, devices, software, and methods of the present invention enable frequency-based signal power analyses in software suitable for signal with either stationary and non-stationary spectrums. The methods that may be used throughout various systems including transmitters receivers, repeater, controllers, monitors, etc. and in software simulators to enable various signal power calculations and analyses, such as frequency spectrum analysis, throughout operating systems and that may be consistently applied in system design and operation simulations. |
| US11876565B2 |
Global quantum communication networks
The present disclosure is directed to systems and methods of providing the next generation of quantum enabled cyber security systems. Such systems include a quantum network of satellites that will provide global coverage. The quantum satellite network includes quantum subnetworks comprised of LEO satellites. Some of these LEO satellite-based quantum subnetworks are connected to a subnetwork of MEO satellites. The MEO satellite subnetworks may then be interconnected to the global network of GEO satellites. The LEO/MEO satellites may also be used to interconnect terrestrial quantum networks. Each quantum communication subnetwork may be based on the cluster state concept. |
| US11876562B2 |
USB and thunderbolt optical signal transceiver
Systems and methods to implement a USB and Thunderbolt optical signal transceiver are described. One method includes detecting presence of a USB sideband signal received over an optical communication channel and associated with a USB communication request. Responsive to the detecting, the method may determine that the USB communication request corresponds to a USB communication mode and perform a sideband negotiation. The USB communication mode may be enabled. A specified number of channels associated with the USB communication request may be determined. USB communication may be performed using the specified number of channels over the optical communication channel in the USB communication mode. |
| US11876558B2 |
Secure line-of-sight communication with aircraft
Improvements in secure communication using drones. The communication uses aircraft to provide a secure communication link that prevents undesirable reception. The secure link can be between two people, groups or more specific people. Optical transmission can be from laser, infrared, ultraviolet, white light or a particular wavelength of light. One or multiple of aircraft to relay information between senders and receivers. The aircraft can be drones that operate within buildings or with overhead aircraft. The aircraft can intelligently follow or lead a person to maintain a line-of-sight. Each user can have their own tracking aircraft and the aircraft can communicate between each other using light and/or wireless communication to optimize line-of-sight between the aircraft over geographic medium. The geographic medium may include one or more of terrain, air, water, and space. The object may be a soldier, vehicle, drone, or ballistic. |
| US11876555B2 |
Failure determination system and failure determination method
A breakdown determination system includes a switching device that switches a transmission path of optical signals between an upper network and a lower network, one or more intermediate communication devices that relay communication between the upper network and the lower network, a selection device that selects a standby port of the intermediate communication devices, a measurement device that connects to the selected standby port via the switching device and measures an optical signal of the connected standby port, a determination device that determines whether an intermediate communication device including the selected standby port breaks down based on a result of measuring the optical signal, and a storage device that stores a result of determining whether the intermediate communication device breaks down. |
| US11876553B2 |
Energy efficient ultra-wideband impulse radio systems and methods
Ultra-Wideband (UWB) technology exploits modulated coded impulses over a wide frequency spectrum with very low power over a short distance for digital data transmission. Such UWB systems through their receivers may operate in the presence of interfering signals and should provide for robust communications. Accordingly, an accurate and sharp filter that operates at low power is required and beneficially one that does not require a highly accurate power heavy clock. Further, many UWB applications require location and/or range finding of other elements and it would therefore be beneficial to provide a UWB based range finding and/or location capability removing the requirement to add additional device complexity and, typically significant, power consumption. |
| US11876552B2 |
Method for mitigating passive intermodulation and an apparatus therefor
There is provided mechanisms for mitigating passive intermodulation in a first network node, wherein said PIM is caused by radio signals transmitted from at least an adjacent network node. The method is performed by a control device. The method comprises receiving at least an uplink radio signal and down-converting the received UL radio signal to a UL baseband signal. The method applies a cyclic redundancy check, CRC, to detected information bits of the received UL baseband signal, wherein in response to determining by the CRC that the UL baseband signal is detected correctly, directly output the detected information bits. The method comprises in response to determining by the CRC that the UL baseband signal is incorrectly detected, determining a residual signal of the received UL baseband signal applying a blind signal identification scheme on the residual signal of the UL baseband signal to obtain an estimate for a modeled PIM signal. The method comprises subtracting the estimated modelled PIM signal from the received UL baseband signal as in the first step and updating the received UL baseband signal in an iterative process until CRC is detected correctly or until number of iterations exceeds a predetermined threshold. |
| US11876546B2 |
Airborne electromagnetic wave device, and anti-interference system, method and apparatus
Disclosed are an airborne electromagnetic wave device, and an anti-interference system, method and apparatus. The anti-interference method comprises: detecting an interference source, and obtaining a working frequency and a bandwidth of the interference source; calculating an interfered bandwidth range at least on the basis of the working frequency and bandwidth of the interference source; and controlling an electrically tunable filter provided in a transmission channel of the airborne electromagnetic wave device to filter signals within the interfered bandwidth range. Hence, the interfered airborne electromagnetic wave device is triggered to control the electrically tunable filter to filter the signals within the interfered bandwidth range, so that the interfered airborne electromagnetic wave device suspends signal transmission within the interfered bandwidth range, so that communication interference among different satellite communication systems is eliminated; moreover, the electrically tunable filter is provided on the transmission channel of the interfered airborne electromagnetic wave device, so that the present invention can be widely applied to multiple different airborne electromagnetic wave devices and has relatively wide applicability. |
| US11876542B2 |
Data compression and decompression methods, data compression device, and data decompression device
A compression apparatus performs processing of registering a symbol, which is input, in a predetermined entry among a plurality of entries in a case where the symbol is not registered in a first table having the plurality of entries and outputting the symbol and index data indicating non-compression, processing of outputting index data indicating compression and positional information indicating a position of the entry having the symbol registered therein and having a size smaller than a size of the symbol in a case where the symbol has been registered in the table, and processing of changing the size of the positional information depending on usage conditions of the plurality of entries. |
| US11876540B2 |
Processing of lossy-compressed ADAS sensor data for driver assistance systems
Example embodiments relate to an ADAS sensor data processing unit, to an ADAS sensor system and to an ADAS sensor data evaluation method for use in driver assistance systems or systems for the automated driving of a vehicle. The ADAS sensor data processing unit includes an input interface, a decompression module, a processing unit and an output unit. The input interface is designed to receive data of an ADAS sensor that have been subjected to lossy compression by a compression module. The decompression module is designed to decompress the compressed data of the ADAS sensor. The processing unit is designed to process the decompressed data (IdSD) of the ADAS sensor, information relevant to an ADAS/AD function being ascertained from the decompressed sensor data. The output unit is designed to output the ascertained information relevant to the ADAS function. |
| US11876538B2 |
Convolutional code rate matching method and wireless communication apparatus
A convolutional code rate matching method and a communication apparatus are provided. A puncturing pattern of a second codeword at a second code rate is obtained based on a puncturing pattern of a first codeword at a first code rate. A second puncturing location set of the second codeword is a subset of a first puncturing location set of the first codeword. When a transmit device decreases a code rate from the first code rate to the second code rate, a redundant bit is sent at a location of a complementary set of the second puncturing location set relative to the first puncturing location set. Compared with the first puncturing location set, the second puncturing location set may obtain more incremental redundant bits, to decrease a channel encoding rate. This can improve decoding performance of a convolutional code. |
| US11876536B2 |
System and method for hybrid-arq
Systems and methods are disclosed for providing H-ARQ transmissions in respect of a set of horizontal code blocks are combined in a code. Retransmissions contain vertical parity check blocks which are determined from verticals from the set of horizontal code blocks. Once all the vertical parity check blocks have been transmitted, a new set may be determined after performing interleaving upon either the content of the horizontal code blocks, in the case of non-systematic horizontal code blocks, or over the content of encoder input bits in the place of systematic horizontal code blocks. The interleaving may be bitwise or bit subset-wise. The retransmissions do not contain any of the original bits. In the decoder, soft decisions are produced, and nothing needs to be discarded; decoding will typically improve with each retransmission. |
| US11876534B2 |
Method and apparatus for data decoding in communication or broadcasting system
A method may include, and/or a device may be configured for: receiving, from a transmitting device, a signal corresponding to input bits; performing demodulation based on the signal to determine values corresponding to the input bits; identifying a number of the input bits based on the signal; identifying a base matrix and a lifting size based on the number of the input bits; identifying a parity check matrix based on the base matrix; determining a number of layers based on the lifting size and a number of the values; determining an order of layers for low density parity check (LDPC) decoding based on the number of layers; and performing the LDPC decoding to determine the input bits based on the values, the parity check matrix, and the order of layers. |
| US11876530B2 |
Low power bi-directional architecture for current output digital to analog conversion
An example apparatus includes: a voltage-to-current circuit including a first input terminal, a first output terminal and a second output terminal, a subtraction circuit including a second input terminal and a third output terminal, the second input terminal coupled to the second output terminal, a first driver circuit including a third input terminal and a fourth output terminal, the third input terminal coupled to the third output terminal, and a second driver circuit including a fourth input terminal and a fifth output terminal, the fourth input terminal coupled to the first output terminal, the fifth output coupled to the fourth output terminal. |
| US11876529B2 |
Current output module
A current output module includes a current output section configured to output a current, an AD conversion circuit configured to convert a detection voltage, which is a voltage according to the current output from the current output section, into a digital value, a controller configured to control a current output from the current output section on the basis of the digital value of the detection voltage output from the AD conversion circuit, and a reference voltage generator configured to generate a plurality of reference voltages. The controller includes a processor configured to cause the AD conversion circuit to convert each of the plurality of reference voltages into a digital value, and a corrector configured to calibrate the AD conversion circuit on the basis of each digital value obtained by conversion of the plurality of reference voltages. |
| US11876526B2 |
Analog to digital conversion apparatus and method having quick conversion mechanism
The present invention discloses an analog to digital conversion (ADC) apparatus having quick conversion mechanism. Each of ADC circuits receives a previous higher-bit conversion result to perform prediction to generate a current higher-bit conversion result, performs conversion on an input analog signal according to a sampling clock that has a frequency at least twice of the frequency of the input analog signal based on a successive-approximation mechanism to generate a current lower-bit conversion result, and combines the current higher-bits and current lower-bit conversion results to generate a current conversion result and output a remained signal amount as a residue. A noise-shaping circuit performs calculation based on the residue to generate a noise-shaping reference signal. Each of the ADC circuits combines the current conversion result and the noise-shaping reference signal to generate an output digital signal. |
| US11876523B1 |
DPLL timing normalization
Embodiments herein describe normalizing an output of a TDC in a DPLL to a resolution of the TDC. A DTC can delay a reference clock which is then input into the TDC. The TDC outputs a digital code indicating a time difference between the delayed reference clock output by the DTC and a clock generated by a DCO in the DPLL. This digital code is normalized to a resolution of the TDC and the result is filtered by a DLF. |
| US11876522B2 |
Duty-cycle corrector circuit
A duty-cycle corrector circuit produces a clock signal with a given duty cycle (e.g., fifty percent) or with a substantially given duty cycle. The DC corrector circuit includes a delay-locked loop (DLL) circuit and a duty-cycle correction (DCC) circuit. The DLL circuit is operable to adjust a delay between local clock signals until the phase difference between the local clock signals equals or is substantially equal to zero. The DCC circuit is operable to adjust the duty cycles of the local clock signals until the duty-cycle error equals or is substantially equal to zero. The duty-cycle error equals or substantially equals zero when the duty cycles of the local clock signals equal or are substantially equal to fifty percent. |
| US11876520B1 |
Method and apparatus for delivering power to semiconductors
A semiconductor package includes a VLSI semiconductor die and one or more output circuits connected to supply power to the die mounted to a package substrate. The output circuit(s), which include a transformer and rectification circuitry, provide current multiplication at an essentially fixed conversion ratio, K, in the semiconductor package, receiving AC power at a relatively high voltage and delivering DC power at a relatively low voltage to the die. The output circuits may be connected in series or parallel as needed. A driver circuit may be provided outside the semiconductor package for receiving power from a source and driving the transformer in the output circuit(s), preferably with sinusoidal currents. The driver circuit may drive a plurality of output circuits. The semiconductor package may require far fewer interface connections for supplying power to the die. |
| US11876519B2 |
Oscillation circuit, time-to-digital converter, and electronic device
An oscillation circuit has a first oscillator having output nodes of n stages, where n is an integer of 3 or more, a second oscillator having output nodes of n stages, and a third oscillator having output nodes of n stages. An output node at an a-th stage of the first oscillator and an output node at an a-th stage of the second oscillator are connected with each other, where a is an integer of 1 or more and n or less and an output node at a b-th stage of the second oscillator and an output node at a b-th stage of the third oscillator are connected with each other, where b is an integer of 1 or more and n or less different from a. |
| US11876518B2 |
Stackable timer
An system-on-a-chip (“SoC”) is provided. In some examples, the SoC includes a processor and a plurality of timer circuit blocks including at least a first timer circuit block and a second timer circuit block. Each of the plurality of timer circuit blocks may be selectively coupled by at least one of a first programmable matrix and a second programmable matrix. In some examples, the first programmable matrix may be configured to couple a second trigger input of the first timer circuit block with a first trigger output of the second timer circuit block. In some examples, the second programmable matrix is configured to couple a second fault input of the first timer circuit block with a first fault output of the second timer circuit block. |
| US11876513B1 |
Low power consumption boost circuit for providing high driving voltage of touch circuit
A low power consumption boost circuit for providing high driving voltage of a touch circuit is provided. The low power consumption boost circuit includes a charge pump circuit, two digital-to-analog converters (DACs), and a switch circuit. The charge pump circuit receives a system voltage and correspondingly outputs a positive output voltage twice the system voltage and a negative output voltage with opposite polarity as the system voltage. One of the DACs receives the positive output voltage from the charge pump circuit as supply voltage, and the other DAC receives the negative output voltage from the charge pump circuit as supply voltage. The switch circuit is connected between the DACs and the touch circuit. The DACs are connected between the charge pump circuit and the switch circuit. The DACs are alternately connected to the touch circuit by controlling the switch circuit, thereby driving the touch circuit alternately. |
| US11876511B2 |
Gate drive apparatus control method
An apparatus includes a capacitive device configured to provide bias power for a high-side switch, a gate drive path having variable resistance connected between the capacitive device and a gate of the high-side switch, wherein the gate drive path having variable resistance is of a first resistance value in response to a turn-on of the high-side switch, and the gate drive path having variable resistance is of a second resistance value in response to a turn-off of the high-side switch, and wherein the second resistance value is greater than the first resistance value, and a control switch connected between the gate of the high-side switch and ground. |
| US11876505B2 |
Acoustic wave filter device and multiplexer using same
An acoustic wave filter device includes first and second terminals, a longitudinally coupled resonator coupled between the first terminal and the second terminal, and an inductor connected between a path and a ground potential, the path connecting the first terminal and the longitudinally coupled resonator to each other. The longitudinally coupled resonator includes at least one first IDT electrode coupled to the first terminal, and at least one second IDT electrode connected to the second terminal. A total capacitance value of the at least one first IDT electrode is smaller than a total capacitance value of the at least one second IDT electrode. |
| US11876502B2 |
Surface acoustic wave device
A surface acoustic wave device includes a piezoelectric substrate, an interdigital transducer (IDT) electrode on the substrate, a cover over the substrate and IDT electrode, and hollow spaces between the IDT electrode and the cover. The hollow spaces are defined by partition supports between the substrate and the cover. The partition supports include a first and second partition supports extending in a first direction without contacting each other. The first and second partition supports each include first and second ends along the first direction. The first and second direction perpendicular to the first direction. The first end of the first partition support is closer to an outer periphery of the substrate than is the second end, and the first end of the second partition support is farther away from the outer periphery than is the second end. |
| US11876495B2 |
Working state adjustment method and apparatus, terminal and storage medium
A working state adjustment method is applied to a terminal. A power amplifier (PA) is arranged on the terminal. The method includes: determining a target channel bandwidth in which the terminal works; determining a target working state in which the PA works among optional working states according to the target channel bandwidth, in which the optional working states correspond to at least two types of working modes respectively; and adjusting the PA to work in the target working state. |
| US11876490B2 |
Compensation of thermally induced voltage errors
Described embodiments include an integrated circuit for temperature gradient compensation of a bandgap voltage. A bandgap core circuit has a bandgap feedback input, a bandgap adjustment input and a bandgap reference output. A resistor is coupled between the bandgap adjustment input and a ground terminal. An offset and slope correction circuit has an offset correction output that is coupled to the bandgap adjustment input. A signal at the offset correction output is trimmed at an ambient temperature. A thermal error cancellation (TEC) circuit has a TEC output coupled to the bandgap adjustment input. The TEC circuit includes first and second temperature sensors that are located apart from each other. A signal at the TEC output is responsive to temperatures at the first and second temperature sensors. An amplifier has an amplifier input and an amplifier output. The amplifier input is coupled to the bandgap reference output. |
| US11876488B2 |
DC-DC boost converter
The present disclosure discloses a direct current (DC)-DC boost converter, which includes a battery terminal providing a battery voltage, a charge pump coupled between the battery terminal and an interior node, and a power inductor coupled between the interior node and a power supply terminal that provides a power voltage to a radio frequency transceiver. The charge pump is configured to provide an interior voltage at the interior node based on the battery voltage. Herein, the interior voltage toggles between the battery voltage and two times the battery voltage. The charge pump includes a first switch coupled between the battery terminal and the interior node, a second switch coupled between the battery terminal and a connecting node, a third switch coupled between the connecting node and ground, and a flying capacitor coupled between the interior node and the connecting node of the second switch and the third switch. |
| US11876482B1 |
Electrical jumper for equipotential electrical connection
This disclosure discusses an electrical jumper for equipotential electrical connection between devices. The electrical jumper may include a body and clamps optionally positioned on opposite ends of the body. The clamps include a series of interlacable multi-hinged fingers. Downward-facing fingers and upward-facing fingers extend away from the body. The downward-facing fingers may interlace with the upward-facing fingers when unclamped. When clamped, downward-facing fingers may interlace with the upward-facing fingers may alternate. The ends of the upward-facing fingers and downward-facing fingers may face inward toward the body. The fingers may move and hinge independently of one another along multiple hinges. |
| US11876478B2 |
Motor controller
A motor controller comprises a switch circuit and a control unit. The switch circuit is coupled to a motor for driving the motor. The control unit is configured to generate a control signal to control the switch circuit. The motor controller is configured to generate a current signal and a voltage signal. When a current phase of the current signal is at a predetermined crossing phase, the motor controller calculates a difference value between the current phase of the current signal and a voltage phase of the voltage signal, where the motor controller is configured to control the difference value. The motor controller may stabilize the motor and avoid noise by modulating the difference value. The motor controller may modulate the difference value, such that the difference value is equal to a predetermined phase difference. |
| US11876475B2 |
Apparatus for controlling motor and method for controlling motor
Disclosed is a motor control apparatus capable of checking whether there is an abnormality in connections of a plurality of motors, and switching connection schemes between an inverter and the motors or driving the motor in an electronic apparatus including one inverter configured to control a driving operation of the plurality of motors. For example, the motor control apparatus includes an inverter configured to convert DC power into AC power and provide the AC power to one of a plurality of motors, a switch configured to switch connection schemes between the inverter and the plurality of motors, and a controller, and the controller may control the inverter to output an input signal of a predetermined pattern in response to the switching of the connection schemes by the switch, and generate a control signal for controlling the inverter or the switch on the basis of a response signal corresponding to the input signal. Other example embodiments may be provided. |
| US11876471B2 |
Motor controller including resonant controllers
A motor controller integrated circuit (IC) includes a storage device containing software. The IC also includes a processor core coupled to the storage device. The processor core has an output adapted to be coupled to a motor. The processor core is configured to execute the software to implement a resonant controller at a frequency that is a harmonic of a speed of a motor. |
| US11876465B2 |
Home appliance and controlling method for the same
A motor driving apparatus includes: an inverter that includes at least one switching element and that is configured to output alternating current power to a motor, a vibration sensor configured to detect vibrations, and a controller (i) comprising a compensation signal generator that is configured to, based on an output value of the vibration sensor, generate a compensation signal and (ii) configured to generate a control signal for controlling the inverter. |
| US11876464B2 |
Systems, methods and devices for neural network control for IPM motor drives
Described herein is a method and system for controlling an interior-mounted permanent magnet (IPM) alternating-current (AC) electrical machine utilizing a space vector pulse-width modulated (SVPWM) converter operably connected between an electrical power source and the IPM AC electrical machine comprising three neural networks (NNs), including a controller NN operably connected to the SVPWM converter, a parameter estimator NN, and a flux-weakening and MTPA NN. |
| US11876460B2 |
Input impedance networks with power recovery
Input impedance networks and associated methods are disclosed. An input impedance network comprises a source-terminal-pair configured to couple to a power source, a recovered-power-terminal-pair configured to couple to a power sink, a transmission line coupled to the source-terminal-pair that comprises M sections, and N clamping circuits. Each of the N clamping circuits is configured to clamp at least one of voltage or current in one of the M sections, and a power recovery circuit is coupled to the N clamping circuits to enable recovered energy to be applied to the recovered-power-terminal-pair. |
| US11876459B2 |
Power conversion system applied to solid state transformer and charging system having the same
A power conversion system applied to a solid state transformer includes a DC link, a plurality of capacitors, and a plurality of power conversion module assemblies. The plurality of capacitors is coupled in series between a positive bus and a negative bus of the DC link. Each of the power conversion module assemblies has a plurality of DC conversion modules. In any of the power conversion module assemblies, input sides of the DC conversion modules are connected in series to form two input ends of the power conversion module assembly, and output sides of the DC conversion modules are connected in parallel to form two output ends of the power conversion module assembly. Each of the plurality of power conversion module assemblies is correspondingly connected to each of the plurality of capacitors. |
| US11876453B2 |
Switching converter circuit and driver circuit having adaptive dead time thereof
A switching converter circuit, which switches one terminal of an inductor to different voltages, includes a high side MOSFET, a low side MOSFET, and a driver circuit which includes a high side driver, a low side driver, and a dead time control circuit. According to an output current, The dead time control circuit adaptively delays a low side driving signal to generate a high side enable signal for enabling the high side driver to generate a high side driving signal according to a pulse width modulation (PWM) signal; and/or adaptively delays the high side driving signal to generate a low side enable signal for enabling the low side driver to generate the low side driving signal according to the PWM signal, so as to adaptively control a dead time in which the high side MOSFET and the low side MOSFET are both not conductive. |
| US11876450B2 |
Electronic circuit for supplying current to switching device and electronic apparatus
According to one embodiment, an electronic circuit includes: a first circuit configured to generate a first current and output a first voltage, the first voltage being one of a voltage based on the first current and a first predetermined voltage; a second circuit configured to generate a first output current based on the first voltage; a first output terminal outputting the first output current to a first switching device; a first input terminal having a first input signal inputted, the first input signal relating to driving and non-driving of the first switching device; and a third circuit configured to generate a first control signal based on the first input signal, the first control signal switching the first voltage to the first predetermined voltage and stopping the first current. |
| US11876447B2 |
Device and method for controlling converter
A device for controlling a converter has a first output variable and a second output variable adjusted by a duty of a switching element. The device includes a first controller that generates a first duty based on a first error between a predetermined limitation reference value corresponding to a reference value limiting a size of the first output variable and a measurement value of the first output variable measured at a load of a converter. A second controller generates a second duty based on a second error between a predetermined reference value of the second output variable and a measurement value of the second output variable measured at the load of the converter. A duty determination unit derives a final duty of the switching element based on the first duty and the second duty. |
| US11876436B2 |
Voltage detecting apparatus and method for switching power converters
A method includes detecting a first current flowing through a first clamping device coupled to a gate of a power switch, determining whether an inductor current reduces to zero based upon a first comparison between the first current and a first predetermined current level, and after determining the inductor current reduces to zero, determining whether a drain voltage of the power switch enters a valley of a resonant ringing based upon a second comparison between the first current and the first predetermined current level. |
| US11876433B2 |
Drive device
A housing of a drive device includes a tubular portion, a side plate portion, a plate portion, and a peripheral wall portion. The tubular portion extends in a first direction and accommodates a motor. The side plate portion has a plate shape intersecting the first direction, and is at one end portion of the tubular portion in the first direction. The plate portion expands from the tubular portion along one of the first direction and a second direction perpendicular to the first direction. The peripheral wall portion surrounds an inverter accommodation portion that accommodates inverter when viewed from a third direction perpendicular to the first direction and the second direction, and is connected to the plate portion. Each of a pump and an oil cooler is at any of one end portion of the peripheral wall portion in the second direction, another end portion of the plate portion in the third direction, and another end portion of the side plate portion in the first direction. |
| US11876431B2 |
Magnetic bearing, drive device equipped with the same, and pump
A magnetic bearing contactlessly supporting a rotor by magnetic force includes: a bearing rotor member made of a magnetic material; and a bearing stator member arranged around bearing rotor member. The bearing stator member includes a core made of a magnetic material and a coil wound around the core. A longitudinal cross-sectional shape of the core has a first part extending in a first direction orthogonal to a direction opposed to the bearing rotor member and wound around with the coil, a pair of second parts extending from both end portions in the first direction of first part to the bearing rotor member side and subsequently extending in a direction approaching each other in the first direction, and a pair of third parts extending from respective distal end portions of the pair of second parts toward the bearing rotor member side. The bearing rotor member also includes a permanent magnet. |
| US11876430B2 |
Device for noise insulation of a machine
Apparatus for sound insulation of a machine has a sleeve which has a sound-absorbing composite material wall with a plastic carrier layer. The composite material wall has two edge regions which lie against and/or above one another and each have a boundary edge which can be connected by at least one plug-in connection arrangement. The at least one plug-in connection arrangement has a plug-in tab arranged in one first edge region of the composite material wall and a receiving element which is arranged in the other second edge region of the composite material wall and into which the plug-in tab can be plugged. The plug-in tab has a web which has an end connected to the plastic carrier layer and an end section facing away from this end and having an insertion end and an upper side and an underside with at least one locking recess. |
| US11876422B2 |
Rotor for an electric machine
A rotor for an electric machine has winding elements which are arranged in axially running grooves of a rotor body and having a winding head which is arranged axially next to the rotor body. The winding elements exit from the grooves in the axial direction in the region of the winding head and run in the axial direction in the region of the axial ends of the winding elements. Each of the winding elements has four curved portions in the region of the winding head. The rotor includes a plurality of tension bolts and a winding head carrier. The tension bolts connect the winding head to the winding head carrier and penetrate through the winding head radially. |
| US11876420B2 |
Motor and pump system
In a motor, a wire terminal, to which an end at an end of winding of a wire is connected, is held by an insulator that is held by a stator core. The wire terminal comprises: a substrate connection section; plural legs held by a split insulator; a plate section, a thickness direction of which faces a radial direction, between the legs and the substrate connection section; and a wire connection section, a portion of which projected from the plate section is bent to hold the wire on an inner side. An elastic section is a meandering section meandering to turn back in a circumferential direction between the plate section and the substrate connection section, and extends from an end on another side in the circumferential direction of the plate section toward the substrate connection section. |
| US11876418B2 |
Blocking element for rotor winding heads on turbogenerators with rotor cap with radial ventilation bores
A blocking element for a rotor head winding of a turbogenerator has a form which is adapted to the contour of the adjacent conductor of the rotor head winding. A depression extending in the axial direction is made in the side of the blocking element facing the conductor, which depression forms a serpentine channel for a cooling fluid from an inlet port on the small radius to a discharge port on the highest radius, with the discharge port communicating with a ventilation bore of the rotor cap enclosing the rotor winding head. An improved cooling effect with a reduced flow of cooling fluid and an increase in the efficiency of the turbogenerator as a whole results. |
| US11876416B2 |
Rotary machine having a position sensor
A rotary machine, in particular electric motor, includes a position sensing means for sensing a rotational position of a pole wheel that is rotatable about an axis of rotation. The pole wheel has a circumferential edge, and the position sensing means has at least one first position sensor for sensing a change in a magnetic field, at least one magnetic element arranged on the pole wheel, and at least one circuit card on which electronic components are arranged. The first position sensor is arranged at least indirectly on the circuit card. The first position sensor extends at least partially into a space of the pole wheel that surrounded by the circumferential edge. |
| US11876414B2 |
Electric motor comprising a wiring unit, and method for producing an electric motor comprising a wiring unit
An electric motor includes a rotor and a stator, the stator having multiple coils, each coil having two coil connections, the stator in particular having multiple stator segments, and each stator segment having precisely one coil, the coils being connected to one another with the aid of a wiring unit, the wiring unit having a carrier part for accommodating multiple wiring elements set apart from one another. |
| US11876413B2 |
Hybrid induction motor including dual stator
The present disclosure in some embodiment provides a hybrid induction motor including dual stators. According to at least one embodiment, the present disclosure provides a hybrid induction motor including a hollow rotor including a single conductor bar which is annularly disposed and spaced apart from a rotation axis by a predetermined distance, an outer stator having an outer stator winding disposed in parallel with an outer circumferential surface of the hollow rotor, and an inner stator having an inner stator winding disposed in parallel with an inner circumferential surface of the hollow rotor. |
| US11876407B2 |
Assembly for rotary motion using electropermanent magnet assembly
An assembly can include a rotor that defines a rotor axis and that includes a number of permanent magnets; a stator that defines a stator axis, coaxially aligned with the rotor axis, and that includes a number of electropermanent magnets; and a controller that controls polarity of the electropermanent magnets to rotate the rotor about the rotor axis. |
| US11876405B2 |
Electric motor with cooling channels
A stator of an electric motor includes a stator core including a rim and a plurality of stator teeth extending from the rim. The plurality of stator teeth define a plurality of tooth gaps between circumferentially adjacent stator teeth. A plurality of stator windings are wrapped along the plurality of stator teeth. The plurality of stator windings include a plurality of core segments extending along the plurality of tooth gaps, and a plurality of end turn segments connecting adjacent core segments. A plurality of non-electrically conductive cooling channels are located in the stator core. The plurality of cooling channels are configured to direct a cooling fluid flow therethrough to cool the plurality of stator windings. |
| US11876402B2 |
Motor, electric tool motor, and electric tool
A motor includes a stator, a rotor, and a cover. The rotor is disposed inside the stator with a gap left with respect to the stator. The rotor is provided to be rotatable with respect to the stator. The stator includes a plurality of coils, a plurality of teeth, and a coupling portion. Around the plurality of teeth, the plurality of coils are respectively arranged via an insulator. The coupling portion is located closer to the rotor than the plurality of coils. The coupling portion couples at least some adjacent ones of the plurality of teeth. The cover is formed mechanically integrally with the insulator. The cover is disposed to face at least a space inside the coupling portion along a rotational axis X of the rotor. The cover closes the gap. |
| US11876401B2 |
Uninterruptible power supply system with dynamic bypass-power sharing
A UPS system includes a plurality of UPSs coupled in parallel and each having a bypass switch and a controller that is in communication with the controller of the other UPSs and including: a first unit monitoring the current flowing through a bypass line of its UPS and determining the effective value of the current strength; a second unit collecting the effective values of all of the UPSs having the bypass switch closed and defining a reference effective value corresponding to the lowest collected effective value; a third unit determining a delay for closing the bypass switch of said UPS, the delay being zero if the effective value of its UPS is equal to the reference effective value; and a fourth unit keeping the bypass switch closed if the delay is zero, or opening it for a duration corresponding to the delay before closing it. |
| US11876397B2 |
Apparatus and method for controlling step charging of secondary battery
Disclosed is an apparatus and method for controlling step charging of a secondary battery. A charging control unit determines a SOC, an OCV and a polarization voltage of the secondary battery, determines an OCV deviation corresponding to a difference between the OCV and a predefined minimum OCV value, determines a correction factor corresponding to the polarization voltage and the OCV deviation, determines a look-up SOC by correcting the SOC according to the correction factor, determines the magnitude of a charging current corresponding to the look-up SOC, and provides the determined charging current to a charging device. |
| US11876389B2 |
Electrical accumulator battery
A method of controlling a battery including a first control circuit and a plurality of modules arranged in series between first and second terminals, each module including, between third and fourth terminals, electric cells and switches and a second switch control circuit. The method includes the determination by the first control circuit of a first priority table associated with a battery charge operation and of a second priority table associated with a battery discharge operation, the first priority table including a first classification of the priorities of the electric cells for the charge operation and the second priority table comprising a second classification of the priorities of the electric cells for the discharge operation. |
| US11876385B2 |
Techniques for calibrating wireless power transmission systems for operation in multipath wireless power delivery environments
The technology described herein relates to techniques for calibrating wireless power transmission systems for operation in multipath wireless power delivery environments. In an implementation, a method of calibrating a wireless power transmission system for operation in a multipath environment is disclosed. The method includes characterizing a receive path from a calibration antennae element to a first antennae element of a plurality of antennae elements of the wireless power transmission system, characterizing a transmit path from the first antennae element to the calibration antennae element, and comparing the transmit path to the receive path to determine a calibration value for the first antennae element in the multipath environment. |
| US11876384B2 |
Wireless power transfer device
An illustrative example embodiment of a wireless power transfer device includes an inductor panel and a capacitor panel adjacent the inductor panel. The capacitor panel includes a first conductive plate adjacent one side of the inductor panel, a dielectric layer adjacent the first conductive plate, and a second conductive plate adjacent the dielectric layer on an opposite side of the dielectric layer from the first conductive plate. |
| US11876383B1 |
Wireless power system with voltage regulation
A wireless charging system having a power transmitting device may wirelessly transfer power to a power receiving device. The power receiving device may include a voltage regulator that operates independently from the power transmitting device. The voltage regulator may output a rectified voltage and may activate pull-down rectifier switches during zero voltage crossings to boost the rectified voltage. The power receiving device may send control error packets to the power transmitting device to direct the power transmitting device to adjust the transmit power level. |
| US11876378B1 |
Wind farm control strategy method, apparatus and device, and storage medium
A wind farm control strategy method, apparatus and device, and a storage medium are provided. The method includes: acquiring incoming flow wind data of a target wind farm, a restriction relationship between wind turbines in the target wind farm and current working condition data of the wind turbines in the target wind farm; inputting the incoming flow wind data, the restriction relationship and the current working condition data into a pre-trained working condition prediction model to obtain target working condition data corresponding to a target generation power of the target wind farm, the target generation power being a maximum generation power of the target wind farm; and controlling operation of the wind turbines in the target wind farm based on the target working condition data. |
| US11876375B2 |
Power grid restoration system
A power grid restoration system includes a hybrid power plant that provides electrical power to a power grid. The hybrid power plant includes a power plant that generates electrical power with a power drive. A battery energy storage system, which receives and stores electrical power from the power plant, releases the electrical power during block loading of the power grid. A controller couples to the power plant and to the battery energy storage system. The controller controls charging of the battery energy storage system with the power plant and controls the release of a block load of electrical power from the battery energy storage system and the power plant while block loading the power grid during a black grid restoration. |
| US11876373B2 |
Power-aware method, power-aware system and converter
Disclosed are a power-aware method, a power-aware system and a converter. The power-aware method includes: receiving an input signal, wherein the input signal is a capacitive type, a resistive type, a voltage type or a current type, coarsely quantizing the input signal and outputting a numerical control code, the numerical control code indicating size information of the input signals, and turning on a corresponding number of power-consuming modules based on the numerical control code. By the power-aware method, the power-aware technical effect of a circuit may be provided and turned-on power-consuming modules always have the most suitable number regardless of the size of the input signals, which may ensure normal operation, and will not waste power consumption due to too many power-consuming modules and energy efficiency is improved as a whole. |
| US11876369B2 |
System and method for interconnected elements of a power system
A power system and a power method for a power system that includes a first power source operatively connected to an input of a first power device. The power system also includes a switch unit having a first input operatively connected to the output of the first power device. The power system further includes a second power source operatively connected to a second input of a second power device. A second output of the second power device connects to a second input of the switch unit, wherein a third output of the switch unit provides an output parameter responsive to at least one of the output of the first power device and the second output of the second power device. |
| US11876367B2 |
Modularized DC interconnection device and system thereof
Embodiments of a modular direct current interconnection device (MDCID) include at least three operation branches, at least one transient branch, and a local controller. Each of the operation branches includes a first terminal coupled to a common node and configured to transmit DC current in a normal mode. The transient branch is coupled between second terminals of different ones of the at least three operation branches and configured to provide a transient DC current path in a fault clearance mode. The local controller is coupled to the operation branches and the transient branch, and the local controller is configured to control operation of the operation branches and the transient branch. |
| US11876366B2 |
Overvoltage protection
An embodiment of the present disclosure relates to an electronic circuit including a first switch coupling a first node of the circuit to an input/output terminal of the circuit; a second switch coupling the first node to a second node of application of a fixed potential; and a high-pass filter having an input coupled to the terminal and an output coupled to a control terminal of the second switch. |
| US11876364B2 |
Multilayer electronic components with soldered through holes
An electrical assembly, such as a multi-layer bus bar, includes an electrical connection pin and a plurality of electrically conductive layers. Each of the electrically conductive layers is formed to define a cutout therein to receive the electrical connection pin and allow access for joining material to join the electrical connection pin with the plurality of electrically conductive layers. Each of the cutouts is formed to include a first through hole arranged around the electrical connection pin and a second through hole located radially outward of the first through hole. |
| US11876362B2 |
Electrical box separator
Electrical box assemblies and electrical box separators are provided. The electrical box assembly includes a box housing having four sides and a bottom and a box separator secured within the box housing and configured to create at least two isolated compartments within the box housing. |
| US11876360B2 |
Conduit coupling assembly
A conduit coupling assembly facilitates connection of liquid-tight tubing with a conduit section through which associated electrical wiring and/or cables are routed. The assembly includes a transition coupling, which is joined to male and female, liquid-tight connectors. The coupling assembly is joined to the conduit and projects above an associated concrete slab or the like to position the liquid-tight connectors for efficiently joining associated liquid-tight tubing to the conduit. The conduit coupling assembly thus particularly facilitates routing of wiring from a conduit section positioned within a concrete slab or like flooring element, through the transition coupling, and the liquid-tight connectors. |
| US11876359B2 |
Wiring member integrated module
An object of the present disclosure is to provide a technique capable of holding a wiring member in a bended state. A wiring member integrated module includes: a wiring member, a first base member including an arrangement target part holding a part of the wiring member; and a second base member whose state can be changed from a first state where a part of the wiring member extending from the arrangement target part is held on an extension of the arrangement target part to a second state where the part is held in a bended state with respect to the arrangement target part. |
| US11876357B2 |
Device and use of the device for stripping a cable
A device for stripping cable has a support roller arrangement and a work wheel arrangement. The support roller arrangement is on a rotation base rotatable about an axis of rotation and the work wheel arrangement is on a work wheel guide. The rotation base and the work wheel guide are connected via at least one guide and the work wheel guide is displaceable relative to the rotation base in a guide direction running transversely to the axis of rotation. The support roller arrangement has at least two support rollers each mounted on the rotation base so as to be rotatable about a support roller axis and the work wheel arrangement has a rolling wheel mounted on the work wheel guide so as to be rotatable about a rolling wheel axis. A clamping region is formed around the axis of rotation and between the support rollers and the rolling wheel. |
| US11876347B2 |
Broadband tuning system and method
A broadband tuning system includes a first chip and a second chip. The first chip includes a first light amplification region, a first forward grating region and a first backward grating region that are sequentially arranged in a first direction. The first light amplification region is configured to amplify a first light source and to turn on or turn off the first light source, and the first forward grating region and the first backward grating region are configured to tune the first light source. The second chip includes a second light amplification region, a second forward grating region and a second backward grating region that are sequentially arranged in a second direction. The second light amplification region is configured to amplify a second light source and to turn on or turn off the second light source, and the second forward grating region and the second backward grating region are configured to tune the second light source. |
| US11876346B2 |
Continuous wave laser driver with energy recycling
A laser pulse emitter circuit comprises a laser diode and a laser diode driver circuit. The laser diode driver circuit includes an inductive circuit element in series with the laser diode, at least one capacitive circuit element connected in series with the inductive circuit element, and a switch circuit configured to activate the laser diode using duty cycling that includes an on-period and an off-period, wherein energy used in an activation of the laser diode is stored in the inductive circuit element and the at least one capacitive circuit element, and the stored energy is recycled by use in a subsequent activation of the laser diode. |
| US11876342B2 |
Light emitting device
A light emitting device includes: a plurality of laser elements including a first laser element and a second laser element; a case enclosing the laser elements and including a light-transmissive region; and a plurality of main lenses including a first main lens configured to collimate or converge light emitted from the first laser element and a second main lens configured to collimate or converge light emitted from the second laser element. At least a first portion of the light-transmissive region is disposed on a first imaginary line passing through a light emitting end surface of the first laser element and the first main lens, and at least a second portion of the light-transmissive region is disposed on a second imaginary line passing through a light emitting end surface of the second laser element and the second main lens. |
| US11876340B2 |
Laser
The present invention provides a laser, including: a medium, having a ground state, an intermediate state, and an excited state in ascending order of energy; an excitation system, configured to excite electrons in the medium from the ground state to the intermediate state; and an excitation laser, configured to drive electrons in the intermediate state at different spatial positions in the medium to the ground state through a stimulated emission process with a fixed phase relationship, to generate a laser with a shorter relative wavelength. Due to the use of an excitation laser to drive electrons from the intermediate state, the photons generated by the stimulated emission have coherence, thereby forming a laser. In the present invention, an excitation system performing primary pumping combined with an excitation laser with a relatively long wavelength performing secondary pumping generate lasers with a relatively short wavelength, and the structure of the short-wavelength laser is simple, compact, and easy to be implemented. In addition, the cost of the short-wavelength laser can be reduced, and a laser with a shorter wavelength can be obtained. |
| US11876331B2 |
Wire-clamping connector
A wire-clamping connector is provided. The wire-clamping connector includes a housing and a contact element. The housing includes a through hole. The contact element is disposed in the housing, and includes a bottom plate structure and an elastic sheet body. The bottom plate structure is disposed opposite to a top wall of the housing, and includes a protruding portion that has a contact surface. A terminal portion of the elastic sheet body is fixed to the top wall, and the elastic sheet body has an acute-angular structure configured to be adjacent to the contact surface. An insertion interval is defined between the acute-angular structure and the contact surface. A wire core of a wire inserted in the through hole enters the insertion interval and is clamped together by the acute-angular structure and the contact surface, and an elastic restoring force is generated by the pressed elastic sheet body. |
| US11876329B2 |
Battery pack with electrical connector mechanism that maintains waterproof integrity of portable electronic device
A battery pack for electrically coupling with and securing to a portable electronic device having a device connector and one or more user interface components includes an electronics section and a latch section. The electronics section includes a battery compartment configured to hold one or more batteries and a connector mechanism configured to interconnect with and form a waterproof seal around the device connector. The latch section is pivotably coupled to the base portion and configured to pivot relative to the base portion to transition the battery pack between open and closed states. In the open state, the electronics section and the latch section form an open frame structure configured to enable installation of the portable electronic device in the battery pack. In the closed state, the electronics section and the latch section form a closed frame structure configured to secure the portable electronic device within an opening defined by the closed frame structure. |
| US11876327B1 |
DC-DC conversion system
A direct current (DC)-DC conversion system including at least one DC source, at least one source cable, a DC-DC converter, at least one output cable, and at least one DC load. Each of the at least one source cable includes a source input connector, a source output connector, and a source input cable. The DC-DC converter includes a housing, a DC-DC input connector, and a DC-DC output connector. Each of the at least one output cable includes a load input connector, at least one load output connector, and a load output cable. The DC-DC converter is operable to receive energy from the at least one source via the at least one source cable, and is operable to provide energy to the at least one DC load via the at least one output cable. |
| US11876322B2 |
Waveguide window/seal and portable antenna
A window/seal and a satellite ground station antenna using the window/seal. A window/seal for a circular waveguide includes a right-circular cylindrical window having an axis, an annular recess surrounding and coaxial with the cylindrical window, and an annular rib surrounding and coaxial with the annular recess. An outer diameter of the annular rib is configured to fit closely within an inside diameter of the circular waveguide. |
| US11876320B2 |
Hinged seal cap
A cap for an electrical connector comprises a first cap body defining a first portion of a first circular opening, and a second cap body defining a second portion of a first circular opening. The second cap body is hingedly connected to the first cap body and movable between an open position and a closed position. In the closed position, first and second portions of the first cap body and the second cap body define a circular opening sized to receive a conductive cable therethrough. |
| US11876315B2 |
Mechanical shielding for circuit components of a pluggable network interface device
A pluggable network interface device is provided comprising a split-shell housing having a shielded side portion that protects a side of a circuit substrate disposed in the split-shell housing. The split-shell housing comprises a first shell portion that covers a first side of the circuit substrate and a second shell portion that covers a second side of the circuit substrate that is arranged opposite the first side. The shielded side portion is inset from a width of the split-shell housing and offset a distance from an electrical interconnection end of the circuit substrate. The shielded side portion is arranged at least partially in a notch of the circuit substrate disposed at the electrical interconnection end of the circuit substrate. |
| US11876313B2 |
Connector
Provided a connector including a plurality of terminals insert molded with a housing. At least one of terminals includes a first terminal portion and a second terminal portion spaced apart from the first terminal portion in a direction along a direction of mating to a counterpart connector. The first terminal portion includes a first surface extending along a plane crossing the mating direction on a side opposite to the side that mates to the counterpart connector. The first surface includes a portion that does not overlap the second terminal portion as the first and second terminal portions are viewed in the direction from the side opposite to the side that mates to the counterpart connector. At least a partial region of the portion, which does not overlap the second terminal portion, of the first surface is exposed to an outside of the housing through an opening of the housing. |
| US11876312B2 |
Methods and systems for terminal-free circuit connectors and flexible multilayered interconnect circuits
A connector for connecting a flexible interconnect circuit includes a base, having a first set of protrusions and a second set of protrusions. The first set of protrusions and the second set of protrusions are configured to secure the flexible interconnect circuit at a first set of apertures and a second set of apertures of the flexible interconnect circuit, respectively. The first set of protrusions may be positioned at a first distance from the second set of protrusions on the base. The first set of apertures may be positioned on the flexible interconnect circuit at a second distance, greater than the first distance, from the second set of apertures. The base causes the flexible interconnect circuit into an arched configuration when the apertures are secured to the respective protrusions. The connector further includes a cover piece configured to secure the flexible interconnect circuit in the arched configuration. |
| US11876302B2 |
Phase compensation method and apparatus for measuring array antenna
The present disclosure provides a phase compensation method and apparatus for measuring an array antenna. The phase compensation method includes: an operation S1 of exporting measured far-field directivity patterns of a first array unit and a second array unit, to establish a coordinate system, so as to determine a spatial geometrical relationship between the first array unit and the second array unit; an operation S2 of determining a wave path difference between the first array unit and the second array unit based on the spatial geometrical relationship between the first array unit and the second array unit; and an operation S3 of performing phase compensation on the second array unit based on the wave path difference. |
| US11876301B2 |
Autonomous radiation pattern generation antenna control device, control method therefor, and wireless communication system
An antenna control device includes a weight unit in which weight values to be superimposed on transmission/reception signals are set for forming radiation patterns using a plurality of antennas and a weight synthesis unit that superposes the weight values on the transmission/reception signals. The antenna control device further includes an arrival direction detector that detects arrival directions of the reception signals, a distribution information calculator that calculates distribution information of the detected arrival directions, a signal quality calculator that calculates signal quality information of each of the radiation patterns, and a radiation pattern selector that selects a radiation pattern on the basis of the distribution information and signal quality information for the radiation patterns, and sets the weight values corresponding to the selected radiation pattern in the weight unit. |
| US11876299B2 |
5G broadband dual-polarized base station antenna of multimode resonance structure
The present disclosure provides a 5th generation (5G) broadband dual-polarized base station antenna of a multimode resonance structure, including: a first resonance structure, a main radiating unit, a feed balun set, and a metal reflecting plate, where the feed balun set is disposed on the metal reflecting plate, the main radiating unit is disposed on a first feed balun and a second feed balun, and the first resonance structure is disposed on the main radiating unit; the main radiating unit includes a second resonance structure and a third resonance structure, the first resonance structure is configured to control a resonance point at a high frequency, and the third resonance structure is configured to control a resonance point at a low frequency; and the feed balun set is configured to provide a balance current for the main radiating unit and the first resonance structure. |
| US11876297B2 |
Structure, antenna, wireless communication module, and wireless communication device
A structure includes first to fourth conductors. The first conductor extends along a second plane including a second direction and a third direction intersecting with the second direction. The second conductor faces the first conductor along a first direction intersecting with the second plane and extends along the second plane. The third conductor capacitively connects the first conductor and the second conductor. The fourth conductor is electrically connected to the first conductor and the second conductor, and extends along a first plane including the first direction and the third direction. In the third conductor, a surface facing an opposite direction of the fourth conductor in the second direction is covered by a resist layer that includes a dielectric body. In the resist layer, a thickness above a central portion of the third conductor is lower than a thickness above a peripheral edge portion of the third conductor. |
| US11876294B2 |
Resonator-diplexer-antenna
Herein provided is a resonator-diplexer-antenna (RDA) structure, active radiator, and associated systems and methods. The RDA structure comprises an input port configured for obtaining an input signal; an outer band defining an outer perimeter and an inner perimeter, the input port coupled to the outer band at a first point thereof, the outer band being configured to accept the input signal from the input port; and a core structure contained and retained within the inner perimeter of the outer band; wherein the core structure and the outer band define at least one gap between the core structure and the outer band; and the outer band, core structure, and at least one gap are configured to resonate at a predetermined frequency; and an output port coupled to the outer band at the second point and configured for outputting an output signal. |
| US11876289B2 |
Single antenna with a shared radiator
A single antenna with a shared radiator includes a radiator unit, a feed-in unit, a sensing module and a ground unit. The feed-in unit is coupled with the radiator unit and used to send or receive radio frequency signals together with the radiator unit. The sensing module is connected to the radiator unit and used for sensing a distance between the radiator unit and an object by the radiator unit. A distributed capacitor structure is formed between the ground unit and the radiator unit. |
| US11876288B2 |
Mobile communications station
A mobile communications station may include a supporting frame including an interface for mechanical coupling to a vehicle for transporting the mobile communications station, wherein the interface includes fastening points for attachment of a three-point hitch; a first antenna mounted on the supporting frame to facilitate communication with mobile devices; and a second antenna mounted on the supporting frame to facilitate communication with a distant location, wherein the first antenna and the second antenna are to facilitate a bidirectional communication link between the mobile devices and the distant location. |
| US11876287B2 |
Antenna module disposed in vehicle
An antenna assembly may include an antenna region having conductive patterns on one side surface of a dielectric substrate to radiate radio signals. The antenna region may include a first antenna structure and a second antenna structure. The antenna assembly may further include a ground region formed on a same plane as the antenna region. The ground region may include a first slot region and a second slot region. A first feeding line may be disposed at the first slot region, and a second feeding may be disposed at the second slot region. The antenna region may comprise a first conductive pattern, a second conductive pattern, a third conductive pattern, a fourth conductive pattern and a fifth conductive pattern. |
| US11876286B2 |
Systems and methods for incorporating a patch antenna in an implantable medical device
Systems and methods for an implantable medical device which utilizes a patch antenna for communicating with an external device. The implantable medical device includes a housing, a header, and a patch antenna formed using an RF plate and a ground plate, which may be or include a metal surface of the housing. Also, a material of the header forms a dielectric of the patch antenna. |
| US11876284B2 |
Conformal antenna module with 3D-printed radome
The present disclosure provides several embodiments of integrated conformal antennas that are designed to be integrated into handheld devices and support operation at millimeter-wave operating frequency band that includes 28 GHz. The antennas have low mutual coupling despite close proximity, and maintain a front-to-back radiation ratio of 10 dB or better within the operating frequency band. The integrated conformal antennas are further capable of supporting operation of the device in different orientations, different forward gains, or a combination thereof. |
| US11876283B1 |
Combined satellite navigation and radio transceiver antenna devices
The present disclosure relates to combined antenna apparatus for receiving GNSS signals and other radio signals to mitigate cross-coupling. |
| US11876282B2 |
Assembly method and AP device
An AP device includes a lower housing, a PCB assembly, and an upper cover. The PCB assembly is located in a cavity between the upper cover and the lower housing. The PCB assembly includes a PCB, an antenna, a first device, and a second device. The antenna is fastened to an upper surface of the PCB. The first device is located on the upper surface, and a height of the first device is less than a first height threshold or a conductor structure proportion is less than a proportion threshold. The second device is located on a lower surface of the PCB, and a height of the second device is greater than the first height threshold and a conductor structure proportion is greater than the proportion threshold. |
| US11876281B2 |
Network device mounting
A mounting device configured to be integrated with a network device to facilitate mounting of the network device is disclosed. In an embodiment, the mounting device is a twist-to-lock mounting device configured to be compatible with one or more standard types of ceiling rails, allowing network devices to be mounted in a non-destructive manner without requiring the use of tools. |
| US11876276B2 |
Liquid crystal phase shifter and antenna
A liquid crystal phase shifter and an antenna are provided. The liquid crystal phase shifter includes first and second substrates opposite to each other, and a liquid crystal layer therebetween. The first substrate includes a first base plate and a first electrode thereon. The first electrode includes a main body structure on a side of the first base plate distal to the liquid crystal layer and at least one branch structure on a side of the first base plate proximal to the liquid crystal layer. The at least one branch structure is connected to the main body structure, and is spaced apart from each other in a lengthwise direction of the main body structure. The second substrate includes a second base plate and a second electrode thereon, and orthographic projections of the second electrode and the branch structure on the first base plate at least partially overlaps each other. |
| US11876273B2 |
Terminal portion configured to connect an RF signal connector to an electrode pad of an external device over a predetermined distance
The present disclosure relates to a cavity filter and a connecting structure included therein. The cavity filter includes: an RF signal connecting portion spaced apart, by a predetermined distance, from an outer member having an electrode pad provided on a surface thereof; and a terminal portion configured to electrically connect the electrode pad of the outer member and the RF signal connecting portion so as to absorb assembly tolerance existing at the predetermined distance and to prevent disconnection of the electric flow between the electrode pad and the RF signal connecting portion, wherein the terminal portion includes: first side terminal contacted with the electrode pad; and the second side terminal connected to the RF signal connecting portion. Therefore, the cavity filter can efficiently absorb assembly tolerance which occurs through assembly design, and prevents disconnection of an electric flow, thereby preventing degradation in performance of an antenna device. |
| US11876266B2 |
Manufacturing method of fuel cell controlling position of antioxidant
Disclosed herein are a method of manufacturing a fuel cell, and a fuel cell manufactured according to the method. The method includes bonding a sub-gasket, provided with an air inlet and a hydrogen inlet, to a side surface of a three-layer membrane-electrode assembly (MEA) including an electrolyte membrane, a cathode located on one surface of the electrolyte membrane, and an anode located on the other surface of the electrolyte membrane; stacking a gas diffusion layer, which comprises an antioxidant precursor, on at least one of the cathode and the anode and preparing a five-layer MEA; and applying a current to the five-layer MEA and moving an antioxidant, which is derived from the antioxidant precursor, to the electrolyte membrane. |
| US11876265B2 |
Fuel cell and fuel cell system for an aircraft
In order to improve usability of hybrid or fully electric aircraft, a fuel cell having improved efficiency and increased volume/weight specific energy density is provided. The fuel cell has a self-supporting membrane structure that is formed as a triply periodic level surface, which separates a first cavity supplied with gaseous fuel from a second cavity supplied with gaseous oxidizer in a gas-sealed manner while connecting the cavities in an ion-conductive manner. |
| US11876263B1 |
Cathode ejector cooling flow control system
An integrated hydrogen-electric includes a hydrogen fuel cell; a hydrogen fuel source; an electric motor assembly disposed in electrical communication with the fuel cell; n air compressor system configured to be driven by the motor assembly, and a cooling system having a heat exchanger radiator in a duct of the cooling system, and configured to direct an air stream including an air stream from the air compressor through the radiator, wherein an exhaust stream from a cathode side of the fuel cell is fed via an flow control nozzle into the air stream in the cooling duct downstream of the radiator. |
| US11876262B2 |
Fuel cell power unbalancing to control degradation and improve performance
Methods and systems may provide for technology to detect an unbalanced degradation among a plurality of fuel cells in an automotive system and apply an unbalanced control across the plurality of fuel cells based on the unbalanced degradation. In one example, the unbalanced control balances the degradation among the plurality of fuel cells. |
| US11876260B2 |
Fuel cell system
A fuel cell system includes a fuel cell that generates electricity using a fuel gas and air, an air supply that supplies air to the fuel cell, a temperature meter that measures a temperature of the fuel cell, and a controller. The controller controls the air supply to increase an amount of air to be supplied to the fuel cell in response to the temperature of the fuel cell exceeding one of a plurality of predetermined temperatures. |
| US11876259B2 |
Composite hollow fiber membrane, manufacturing method therefor, hollow fiber membrane cartridge including same, and fuel cell membrane humidifier
The present invention relates to a composite hollow fiber membrane, a manufacturing method therefor, a hollow fiber membrane cartridge including same, and a fuel cell membrane humidifier, the composite hollow fiber membrane comprising a hollow fiber membrane and a contaminant collection layer coated on the inner surface of the hollow fiber membrane. The composite hollow fiber membrane can prevent performance deterioration of a fuel cell by removing, without a separate gas filtering device, contaminants such as nitrogen oxide (NOx), sulfur oxide (SOx), and ammonia (NH3) during a humidifying process. |
| US11876245B2 |
Sealed battery comprising an elastic deformation part that is folded
A sealed battery including a battery case that includes a cylindrical exterior can having a bottom and an opening sealing body that closes an opening of the outer can; a gasket that is arranged between the exterior can and the opening sealing body; and an electrode body. The opening sealing body includes: a metal plate with an annular part to which an electrode lead is electrically connected, and a disconnecting part that is separated from the annular part when the inner pressure of the battery case exceeds a predetermined threshold; a valve body that is arranged further to the outside of the battery case than the metal plate; and an insulating plate that is arranged between the metal plate and the valve body. The insulating plate or the gasket is provided with an elastic deformation part that deforms in the direction of the valve body. |
| US11876244B2 |
Power storage cell and power storage device
A electrode body of a power storage cell is accommodated in an inner space of a housing to form an upper clearance on a side opposite to a bottom surface of the housing and form a side clearance between the electrode body and each of a first side surface and a second side surface of the housing. Gas discharge valves include a first discharge valve provided on the first side surface and a second discharge valve provided on the second side surface. At least a portion of an opening of the first discharge valve is located at a region of the first side surface to which the upper clearance is projected, and at least a portion of an opening of the second discharge valve is located at a region of the second side surface to which the upper clearance is projected. |
| US11876239B2 |
Directionally controlled failure of electric vehicle battery tray
An electric vehicle including side impact battery pack protection mechanism for reducing damage to a battery pack in the event of a side impact, the electric vehicle including a vehicle frame, a battery pack, and one or more side impact battery pack protection brackets configured to at least of enable the vehicle battery pack to shift along a vehicle width direction or enable physical separation of the battery pack from the vehicle frame. |
| US11876236B2 |
Regenerative electrical power system with state of charge management in view of predicted and-or scheduled stopover auxiliary power requirements
A vehicle with a hybrid drivetrain including a fuel-fed engine coupled to a first drive axle, an electric motor coupled to a second drive axle and an APU for providing electrical power at stopover locations, and further including a controller for determining a location of the vehicle, a location of a stopover location, determining a target SOC of a battery for operating the APU at the stopover location and operating a hybrid control system to provide the target SOC for the vehicle at the stopover location. |
| US11876235B2 |
Primer layer composition, secondary battery pouch film using the same, and method of manufacturing the same
Disclosed are a method for manufacturing a secondary battery pouch film having at least an outer layer, a metal layer, a primer layer, and a sealant layer, or at least an outer layer, a metal layer, a primer layer, a melt-extrusion resin layer, and a sealant layer in this order, the method including: a drying process of applying and heating a primer layer composition on the metal layer so as to dry the primer layer composition and cure at least a part of the primer layer composition. The organic solvent-based emulsion composition contains acid-modified polypropylene and a curing agent and has a curing start temperature of 150° C. or lower, preferably 135° C. to 150° C., and a drying process temperature of 150° C. or lower, preferably 135° C. to 150° C. The method is not subjected to a thermal lamination process when laminating sealant layer. |
| US11876234B2 |
Explosion-proof apparatus
An explosion-proof apparatus includes a frame having a hollow shape; a gas supply device configured to maintain inside of the frame at pressure higher than certain pressure by supplying gas to the inside; an electrical component disposed inside the frame; a battery configured to supply power to the electrical component; a protective device configured to stop power supply from the battery to the electrical component; a battery housing enclosure being an increased-safety explosion-proof enclosure configured to house the battery therein; and a protective device housing enclosure being a flameproof explosion-proof enclosure configured to house the protective device. The battery does not include a management device that manages parameters of the battery. |
| US11876229B2 |
Negative electrode and lithium secondary battery including the same
Disclosed is a negative electrode including: a current collector; a negative electrode active material layer disposed on at least one surface of the current collector, including a silicon-based active material and a conductive material, and containing no binder polymer; and a coating layer disposed on the surface of the negative electrode active material layer and in at least a part of the inside of the pores of the negative electrode active material layer, and containing a coating layer polymer forming a chemical bond with silicon (Si) of the silicon-based active material, wherein the content of the coating layer polymer is 0.3-2 parts by weight based on 100 parts by weight of the negative electrode active material layer, and the coating layer polymer is a mixture of polyacrylic acid with polyvinyl alcohol. |
| US11876218B2 |
Electrochemical cells having one or more multilayer electrodes
Electrochemical cells of the present disclosure may include one or more multilayered electrodes. Each multilayered electrode may be configured such that active materials of the layer closest to the current collector have a lower energy to lithiate per mole, a higher energy to delithiate per mole, a different solid state diffusivity, and/or a different average particle size. This arrangement counteracts, for example, natural gradient fields and undesirable polarization found in standard lithium-ion batteries. |
| US11876214B2 |
Electrode mixture manufacturing method and electrode mixture
The present invention provides: an electrode mixture manufacturing method comprising the processes of introducing a first binder, an electrode active material, and a conductive material into an extruder, performing a first mixing of the first binder, the electrode active material, and the conductive material in the extruder, additionally introducing a second binder into the extruder and performing a second mixing, and yielding an electrode mixture resulting from the first mixing and the second mixing; an electrode mixture manufactured thereby; and an electrode manufacturing method using the electrode mixture. |
| US11876209B2 |
Pre-lithiated lithium ion positive electrode material, and preparation method therefor and use thereof
Disclosed are a pre-lithiated lithium ion positive electrode material, a preparation method therefor and use thereof. The lithium ion positive electrode material has a chemical formula of Li2O/[A(3-x)Mex]1/3-LiAO2, wherein A comprises M, and wherein M is at least one of Ni, Co, and Mn; and wherein Me is at least one of Ni, Mn, Al, Mg, Ti, Zr, Y, Mo, W, Na, Ce, Cr, Zn or Fe; and wherein 0 |
| US11876207B2 |
Battery and method of manufacturing cathode of the same
A battery includes a cathode (101), an anode (102), and an electrolyte (103). The cathode (101) is made of a bicontinuous body having a three-dimensional network structure including a plurality of nanostructures. The electrolyte (103) is sandwiched between the cathode (101) and the anode (102) and made of a salt. The electrolyte (103) may be made of, e.g., an aqueous solution of one of potassium chloride and sodium chloride, or a mixture thereof. The anode (102) may contain, e.g., a metal selected from magnesium, zin, iron, and aluminum. |
| US11876204B2 |
Battery housing for a motor vehicle battery
A battery housing for a motor vehicle battery of a motor vehicle. The housing includes a housing body which forms at least one planar housing wall, a cooling plate which bears on an outwardly facing surface of the housing wall and which serves for temperature control of the motor vehicle battery, and an attachment projection which projects in a plane of the housing wall. The attachment projection has at least one attachment opening which communicates with a cooling channel formed in the cooling plate. The indirect fluidic connection of the cooling channel of the cooling plate via the attachment openings of the attachment projection makes it possible for protrusion of an attachment system for a coolant hose to be avoided and for the installation space requirement perpendicular to the surface of the housing wall to be minimized, with the result that an installation space-saving motor vehicle battery is made possible. |
| US11876201B1 |
Thermal component
An apparatus can include a thermal component that can couple with a battery module at a middle portion of the battery module. The thermal component can include a flange that extends from a side wall of the battery module. The flange of the thermal component can be disposed between a first tote flange of the battery module and a second tote flange of the battery module. |
| US11876198B2 |
Secondary battery
A secondary battery according to the present invention, in which an electrode assembly is built in a cylindrical can, a top cap connected to a positive electrode of the electrode assembly is coupled to an upper end of the can, and the can is connected to a negative electrode. The secondary battery includes a cooling member which receives heat generated in the electrode assembly to release the heat and is coupled to a lower portion of the can, wherein the cooling member has a plurality of cooling pins disposed parallel to each other. |
| US11876195B1 |
Mitigating distribution of debris associated with a catastrophic failure of a battery cell
Disclosed herein are methods, systems, and devices for mitigating distribution of metallic debris associated with a catastrophic failure of a battery pack. According to one embodiment, a battery pack includes a first lithium-ion battery cell; a first magnetic surface; and an enclosure. The first magnetic surface may be configured (e.g. positioned) to attract metallic debris associated with a catastrophic failure of the first lithium-ion battery cell. The catastrophic failure may be a result of thermal runaway of the first lithium-ion battery cell. |
| US11876190B2 |
Battery pack and method of protecting battery pack
A battery pack in one aspect of the present disclosure includes a battery and a controller provided with a counter value. During discharge of the battery pack, the controller calculates an addition value in accordance with a total number of use of the battery pack under a specified condition. The controller updates the counter value by adding the addition value. The controller prohibits the discharge of the battery pack in response to the counter value reaching a protection threshold. |
| US11876189B2 |
Battery system, battery module and battery control circuit thereof
A battery module for use in a battery system is operable in a bottom mode, a top mode or a middle mode during an enabled state. The battery module includes a battery unit and a battery control circuit. The battery unit which includes at least one battery generates a battery unit voltage between a positive terminal and a negative terminal of the battery unit. The battery control circuit is powered by the battery unit voltage and is configured to control the battery unit. The battery control circuit includes an enable terminal, an upstream input terminal, an upstream output terminal, a downstream input terminal, and a downstream output terminal. When the enable terminal is at an operation enabling level, or when the upstream input terminal is at an upstream enabling level, the battery module enters the enabled state. |
| US11876188B2 |
Electrolyte for use in sodium-sulfur batteries
The present disclosure relates to an electrolyte comprising: a) a sodium salt; b) an additive comprising at least one additional metallic/metalloid cation having a standard reduction potential which is at least 2.5V more positive than that of sodium cation; wherein said sodium salt and said additive are dispersed in a solvent comprising at least one alkyl carbonate, and wherein the concentration of said metallic/metalloid cation in the electrolyte is 15 mM to 250 mM. The present disclosure also relates to a sodium-sulfur cell comprising a sodium anode, a microporous sulfur cathode, and the electrolyte as described herein. The present disclosure further provides a method of improving cycling life of a sodium-sulfur cell, wherein the sodium-sulfur cell comprising a sodium anode, a sulfur cathode, and an electrolyte containing a sodium salt dispersed in an alkyl carbonate solvent. |
| US11876186B2 |
Alkaline storage battery and method for manufacturing the alkaline storage battery
An alkaline storage battery includes a spiral electrode group in which a positive electrode plate, a negative electrode plate, and a separator arranged between the positive electrode plate and the negative electrode plate are laminated, the negative electrode plate is located on the inner peripheral side of the positive electrode plate at an innermost peripheral portion, and an electrically conductive outer packaging can in which the spiral electrode group is accommodated together with an alkaline electrolytic solution. The negative electrode plate includes a negative electrode core body, a first negative electrode mixture layer carried on a surface on the outer peripheral side of the negative electrode core body, and a second negative electrode mixture layer carried on a surface on the inner peripheral side of the negative electrode core body. The negative electrode core body has a burr protruding toward the outer peripheral side at an edge portion of an innermost peripheral portion of the negative electrode core body. The thickness of the edge portion of an innermost peripheral portion of the first negative electrode mixture layer is smaller than the thickness of a portion other than the edge portion of the first negative electrode mixture layer. The height of the burr is 30% or less of the thickness of the separator. |
| US11876181B2 |
Lithium ion battery electrolyte additive
The present disclosure relates to a phosphorus additive that is useful for stable cycling and storage of lithium ion cells at high temperatures, an electrolyte containing the phosphorus additive, and an electrochemical energy storage device containing the electrolyte. An electrolyte includes an aprotic organic solvent system; a metal salt; and at least one thiophosphate additive having a nitrile terminal group, according to the formula: |
| US11876180B2 |
Silicon-based energy storage devices with metal sulfide containing electrolyte additives
Electrolytes and electrolyte additives for energy storage devices comprising metal sulfide compounds are disclosed. The energy storage device comprises a first electrode and a second electrode, wherein at least one of the first electrode and the second electrode is a Si-based electrode, a separator between the first electrode and the second electrode, an electrolyte, and at least one electrolyte additive selected from a metal sulfide compound. |
| US11876178B2 |
High voltage aqueous electrolyte system for lithium metal or graphite anode
The present invention is directed to aqueous solid state electrolytes that comprise a fluoride additive to stabilize the interface between the anode and aqueous electrolyte. The present invention is also directed to methods of making the solid state electrolyte materials and methods of using the solid state electrolyte materials in batteries and other electrochemical technologies. |
| US11876176B2 |
Copolymer having functional group as substituent at chain-end, method for preparing electrolyte membrane for secondary battery including the same, and electrolyte membrane for secondary battery including the same
Disclosed is a copolymer as PAES-g-PEG or PAEK-g-PEG as an arylene-based polymer having ion conductivity and mechanical strength and having a functional group as a substituent at a chain-end of PEG, wherein the functional group includes one selected from a group consisting of a hydroxyl group (—OH), methacrylate (-MA), a double hydroxyl group (-2OH), a nitrile group (—CN) and an ionic liquid group (-PYRTFSI). Further, disclosed is a solid electrolyte membrane for a secondary battery including the copolymer and thus having improved ion conductivity, lithium ion transport ability, and excellent mechanical strength. |
| US11876174B2 |
Methods and materials for protection of sulfide glass solid electrolytes
A sulfide glass solid electrolyte sheet can be protected from reaction with moisture by a thin metal layer coating converted to a thin electrochemically functional and protective compound layer. The converted protective compound layer is electrochemically functional in that it allows for through transport of lithium ions. |
| US11876170B2 |
Rechargeable battery cell
This disclosure relates to a rechargeable battery cell comprising an active metal, at least one positive electrode, at least one negative electrode, a housing and an electrolyte, the positive electrode being designed as a high-voltage electrode and the electrolyte being based on SO2 and at least one first conducting salt having the formula (I), M being a metal selected from the group formed by alkali metals, alkaline earth metals, metals of group 12 of the periodic table of the elements, and aluminum; x being an integer from 1 to 3; the substituents R1, R2, R3 and R4 being selected independently of one another from the group formed by C1-C10 alkyl, C2-C10 alkenyl, C2-C10 alkynyl, C3-C10 cycloalkyl, C6-C14 aryl and C5-C14 heteroaryl; and Z being aluminum or boron. |
| US11876164B2 |
Electrode core encasing apparatus, battery cell assembling apparatus, and electrode core assembling method
An electrode core encasing apparatus includes a main power mechanism, a housing fixing mechanism, an encasing mechanism, and an electrode core fixing mechanism. The housing fixing mechanism is disposed on one side of the encasing mechanism, which is located between the housing fixing mechanism and the electrode core fixing mechanism. The encasing mechanism includes an encasing mechanism body and an XY floating slide block. Two ends of the XY floating slide block are connected to the main power mechanism and the encasing mechanism body, respectively. The XY floating slide block is configured to drive the encasing mechanism body to slide freely relative to the main power mechanism, so as to adjust a relative position between the housing and the electrode core. The main power mechanism is configured to drive the housing fixing mechanism and the encasing mechanism to move to sleeve the electrode core into the housing. |
| US11876163B2 |
Sizing roller apparatus for folding process of battery cell
A disclosed sizing roller apparatus for a folding process of a battery cell includes: a table fixing and supporting a battery cell; a base plate disposed on a side of the table; a plurality of sizing rollers disposed on the base plate and each having a rotation axis, which is inclined inward toward a folding portion of the battery cell, to press the folding portion of the battery cell in contact with the folding portion; and a plurality of air spray nozzles disposed on the base plate and spraying air to the plurality of sizing rollers. |
| US11876162B2 |
Pouch forming method and pouch forming device
A pouch forming method and a pouch forming device are provided. In particular, the pouch forming method for forming an accommodation part that accommodates an electrode assembly in a pouch sheet includes a seating process of seating the pouch sheet on a top surface of a lower die in which a forming groove is formed in an upper portion thereof. In a vacuum elongation process, a lower portion of the pouch sheet, in which the accommodation part is formed, is elongated by vacuum, and in an accommodation part formation process, the portion of the pouch sheet, which is elongated by the vacuum, is pressed by a punch disposed above the pouch sheet in a direction in which the forming groove is formed to form the accommodation part. |
| US11876156B2 |
Light emitting device
A light emitting device including first, second, and third light emitting parts disposed near each other and each including a first-type semiconductor layer, a first active layer, and a second-type semiconductor layer, a first pad electrically coupled with the second-type semiconductor layer of the first light emitting part, a second pad electrically coupled with the second-type semiconductor layer of the second light emitting part, a third pad electrically coupled with the second-type semiconductor layer of the third light emitting part, and a common pad electrically coupled with the first-type semiconductor layer of the first, second, and third light emitting parts, in which, in a current density per light emitting part of about 20 A/cm2, one of the first, second, and third light emitting parts that is configured to emit light having the longest peak wavelength has a largest normalized external quantum efficiency. |
| US11876154B2 |
Light emitting diode device and method for manufacturing the same
A light-emitting diode (LED) device includes a first epitaxial layered structure having an upper surface having different first and second regions, a second epitaxial layered structure spaced-apart disposed on the first epitaxial layered structure, a light conversion layer formed on the first region, a bonding unit disposed on the light conversion layer, the bonding unit and the light conversion layer interconnecting the first and second epitaxial layered structures, and an electrically conductive structure formed on the second region and electrically connects the first and second epitaxial layered structures. A method for manufacturing the LED device is also disclosed. |
| US11876151B2 |
Light emitting device, light emitting diode package, backlight unit, and liquid crystal display
A display apparatus including a display panel, and a backlight to provide light toward the display panel, the backlight including a circuit board, an optical layer disposed on the circuit board, at least one light emitter disposed between the circuit board and the optical layer and including a light emitting structure disposed on the circuit board and having first and second conductivity type semiconductor layers and an active layer therebetween, first and second electrode pads electrically connected to the first and second conductivity type semiconductor layers, respectively, a reflector on the light emitting structure, a light transmitting layer disposed on the circuit board and contacting the light emitter, and a dam disposed on the circuit board and surrounding the light emitter and including a portion having a curved shape. |
| US11876147B2 |
Enhanced doping efficiency of ultrawide bandgap semiconductors by metal-semiconductor assisted epitaxy
An epitaxial growth process, referred to as metal-semiconductor junction assisted epitaxy, of ultrawide bandgap aluminum gallium nitride (AlGaN) is disclosed. The epitaxy of AlGaN is performed in metal-rich (e.g., Ga-rich) conditions using plasma-assisted molecular beam epitaxy. The excess Ga layer leads to the formation of a metal-semiconductor junction during the epitaxy of magnesium (Mg)-doped AlGaN, which pins the Fermi level away from the valence band at the growth front. The Fermi level position is decoupled from Mg-dopant incorporation; that is, the surface band bending allows the formation of a nearly n-type growth front despite p-type dopant incorporation. With controlled tuning of the Fermi level by an in-situ metal-semiconductor junction during epitaxy, efficient p-type conduction can be achieved for large bandgap AlGaN. |
| US11876146B2 |
Photovoltaic (PV) module and method for fabricating the same, and solar cell module and solar cell string
A method for fabricating a photovoltaic (PV) module, including: (1) covering a polymer material on the side of the crystalline silicon solar cell attached with a solder ribbon followed by heating to allow bonding of the solder ribbon to the crystalline silicon solar cell, so as to obtain a solar cell module; (2) assembling several solar cell modules into a solar cell string, and connecting multiple solar cell strings to form a solar cell array; (3) laying sealing plates respectively on the front and back sides of the solar cell array to form a stacked body; and (4) subjecting the stacked body to lamination achieve an ohmic contact between the solder ribbon and the grid line, and transformation of the polymer material into a filler layer. This application further provides a PV module fabricated by such method, a solar cell module and a solar cell string. |
| US11876134B2 |
Transistor device with buffered drain
A semiconductor device includes a source region. A drain region has a first conductivity type and a second dopant concentration spaced apart from the source region. A first drift region is located between the source region and the drain region and has the first conductivity type and a first dopant concentration that is lower than the second dopant concentration of the drain region. An oxide structure includes a first portion on or over the first drift region and a tapered portion between the first portion and the drain region. A substrate surface extension is between the tapered portion and the drain region. A buffer region has the first conductivity type between the first drift region and the drain region and under the tapered portion of the oxide structure. The buffer region has a third dopant concentration between the second dopant concentration and the first dopant concentration. |
| US11876119B2 |
Semiconductor device with gate isolation features and fabrication method of the same
Semiconductor structures and the manufacturing method thereof are disclosed. An exemplary manufacturing method includes providing a workpiece that includes a substrate, first channel members and second channel members over the substrate, a first gate structure engaging the first channel members, a second gate structure engaging the second channel members, a dielectric fin disposed between the first and second gate structures, an isolation feature disposed under the dielectric fin. The method also includes forming a metal cap layer at the frontside of the workpiece and depositing a dielectric feature on the dielectric fin. The dielectric feature dividing the metal cap layer into a first segment and a second segment. The method also includes etching the isolation feature to form a trench at the backside of the substrate, depositing a spacer on sidewalls of the trench, etching the dielectric fin from the trench, and depositing a seal layer in the trench. |
| US11876117B2 |
Field effect transistor with reduced parasitic capacitance and resistance
A field effect transistor includes a gate structure formed adjacent to a source/drain region, and a spacer structure formed between the gate structure and the source/drain region. The spacer structure includes a top spacer and a bottom spacer, the top spacer includes an airgap having a bottom portion that is wider than a top portion. The wider bottom portion of the airgap is located between the gate structure and the source/drain region. |
| US11876110B2 |
SiGe photodiode for crosstalk reduction
SiGe photodiode for crosstalk reduction. In one embodiment, an image sensor includes a plurality of pixels arranged in rows and columns of a pixel array disposed in a semiconductor material. Each pixel includes a plurality of photodiodes. The plurality of pixels are configured to receive an incoming light through an illuminated surface of the semiconductor material. Each pixel includes a first photodiode comprising a silicon (Si) material; and a second photodiode having the Si material and a silicon germanium (SiGe) material. |
| US11876109B2 |
Semiconductor devices with single-photon avalanche diodes and light spreading lenses
An imaging device may include single-photon avalanche diodes (SPADs). The single-photon avalanche diodes may be arranged in a one-dimensional or two-dimensional array in a SPAD-based semiconductor device. The SPAD-based semiconductor device may also include a transparent cover glass that is formed over the array of SPADs. Each line of SPADs within the SPAD-based semiconductor device may be covered by a respective light spreading lens. The light spreading lens may be formed as a groove in an upper surface of the transparent cover glass. The light spreading lens may have a uniform cross-section along its length. The light spreading lens may be formed as a convex lens on an upper or lower surface of the transparent cover glass. |
| US11876107B2 |
Image pickup apparatus for endoscope and endoscope
An image pickup apparatus for endoscope includes a resin member in which an outer dimension of a third main surface is equal to an outer dimension of a second main surface, an image pickup member having a light receiving surface smaller than the second main surface, and having a first external electrode on a back surface covered by the resin member, a fan-out wiring provided to extend between an inside and an outside of an extension space, the extension space being an extension of the image pickup member in an optical axis direction, a first through wiring penetrating through the resin member, and provided in the inside of the extension space, a first bonding electrode connected with the external electrode through the first through wiring and the fan-out wiring and forming the fan-out wiring provided on the third main surface, and an electric cable bonded to the first bonding electrode. |
| US11876105B2 |
Laser light collecting assembly for a wireless power receiver
A laser light collecting assembly for a wireless power receiver. The assembly includes a compound parabolic concentrator (CPC) mirror and an optical to electrical converter. The CPC mirror has curved internal walls that define an inlet aperture and connect the inlet aperture to an outlet aperture. The inlet aperture may be larger than the outlet aperture. The internal walls may focus a majority of the laser light entering the inlet aperture to the outlet aperture. The optical to electrical converter may be positioned adjacent to the outlet aperture and configured to receive the laser light exiting the outlet aperture so as to convert optical power in the laser light to electrical power. |
| US11876103B2 |
Display panel
A display panel includes a plurality of sub-pixel structures and a plurality of transfer elements. The sub-pixel structures include a plurality of first sub-pixel structures. A data line of each of the first sub-pixel structures is disposed adjacent to a corresponding transfer element, and a scan line of each of the first sub-pixel structures is electrically connected to the corresponding transfer element. The first sub-pixel structures include a plurality of first-type sub-pixel structures and a plurality of second-type sub-pixel structures. When the display panel displays a grayscale picture, each of the first-type sub-pixel structures has first brightness, each of the second-type sub-pixel structures has second brightness. The first brightness is less than the second brightness. A total number of the first sub-pixel structures of the display panel is A, a number of the first-type sub-pixel structures in the first sub-pixel structures is a, and 50%<(a/A)<100%. |
| US11876102B2 |
Display substrate, display panel and display apparatus
The present disclosure provides a display substrate, a display panel and a display apparatus, belonging to the field of display technology. The display substrate includes a base, a plurality of common electrodes and a plurality of common electrode lines, the common electrodes are distributed on the base in an array, the common electrode lines extend along a row direction, and each common electrode line is connected to a corresponding row of common electrodes. The common electrode line is connected to the common electrode through a conductive connection portion, and the conductive connection portion includes conductive structures stacked on top of one another in a plurality of layers. The display substrate can reduce the resistance between the common electrode and the common electrode line, thereby reducing the voltage difference between the common electrodes in the display substrate and improving the uniformity of the common voltage therein. |
| US11876100B2 |
Array substrate and method of manufacturing the same, pixel driving method, and display panel
An array substrate includes a base substrate including a first surface, a plurality of scanning signal lines disposed on the first surface, and at least two groups of shift register circuits disposed in a display area of the first surface. The first surface has the display area. Each scanning signal line extends along a first direction. Each group of shift register circuits includes a plurality of shift register circuits arranged along a second direction. Each shift register circuit is coupled to a scanning signal line. The first direction and the second direction intersect. At least one group of shift register circuits is disposed in a non-edge region of the display area. The shift register circuit disposed in the non-edge region of the display area is configured to transmit a scanning signal to the scanning signal line at both sides of the shift register circuit along the first direction. |
| US11876099B2 |
Displays with silicon and semiconducting oxide thin-film transistors
An electronic device may include a display having an array of display pixels on a substrate. The display pixels may be organic light-emitting diode display pixels or display pixels in a liquid crystal display. In an organic light-emitting diode display, hybrid thin-film transistor structures may be formed that include semiconducting oxide thin-film transistors, silicon thin-film transistors, and capacitor structures. The capacitor structures may overlap the semiconducting oxide thin-film transistors. Organic light-emitting diode display pixels may have combinations of oxide and silicon transistors. In a liquid crystal display, display driver circuitry may include silicon thin-film transistor circuitry and display pixels may be based on oxide thin-film transistors. A single layer or two different layers of gate metal may be used in forming silicon transistor gates and oxide transistor gates. A silicon transistor may have a gate that overlaps a floating gate structure. |
| US11876097B2 |
Semiconductor device
A semiconductor device includes channel layers on a substrate, the channel layers being spaced apart from each other, and having first side surfaces and second side surfaces opposing each other in a first direction, a gate electrode surrounding the channel layers and having a first end portion and a second end portion, opposing each other in the first direction, and a source/drain layer on a first side of the gate electrode and in contact with the channel layers, a portion of the source/drain layer protruding further than the first end portion of the gate electrode in the first direction, wherein a first distance from the first end portion of the gate electrode to the first side surfaces of the channel layers is shorter than a second distance from the second end portion of the gate electrode to the second side surfaces of the channel layers. |
| US11876093B2 |
Power device including lateral insulated gate bipolar transistor (LIGBT) and manufacturing method thereof
A power device which is formed on a semiconductor substrate includes: plural lateral insulated gate bipolar transistors (LIGBTs) and a forward conductive unit. The plural LIGBTs are connected in parallel to each other. The forward conductive unit is connected in parallel to the plural LIGBTs. The forward conductive unit consists of a PN diode and a Schottky diode connected in parallel to each other. The PN diode and the Schottky diode share a same N-type region, a reverse terminal, an N-type extension region, an field oxide region, a gate, and a P-type well in an epitaxial layer. The N-type region and the P-type well form a PN junction, wherein the PN junction has a staggered comb-teeth interface from top view. A metal line extends on the staggered comb-teeth interface and alternatingly contacts the N-type region and the P-type well. |
| US11876089B2 |
Electrostatic discharge (ESD) protection for CMOS circuits
A voltage clamp is disclosed. The voltage clamp may include a plurality of transistors to limit the voltage between a power supply and ground. In addition, the voltage clamp may include a positive feedback signal to reduce turn-on time of the plurality of transistors. |
| US11876083B2 |
Semiconductor package
Provided is a semiconductor package comprising a lower package that includes a lower substrate and a lower semiconductor chip, an interposer substrate on the lower package and having a plurality of holes that penetrate the interposer substrate, a thermal radiation structure that includes a supporter on a top surface of the interposer substrate and a plurality of protrusions in the holes of the interposer substrate, and a thermal conductive layer between the lower semiconductor chip and the protrusions of the thermal radiation structure. |
| US11876082B1 |
Backlight circuit, displaying device and displaying driving method
A backlight circuit includes a lamp panel and a plurality of electron microscope assemblies. The lamp panel includes a driving substrate and a plurality of light-emitting chips on one side of the driving substrate. The electron microscope assemblies are disposed on first sides, away from the driving substrate, of the light-emitting chips in a one-to-one correspondence manner. Each electron microscope assembly includes a transparent electrode shield, an electrolyte, and an electrode plate. The transparent electrode shields are disposed on a first side of the driving substrate. The light-emitting chips are positioned in the transparent electrode shields. The electrode plates are disposed on first sides, away from the driving substrate, of the transparent electrode shields. The electrolytes are filled between the transparent electrode shields and the electrode plates. |
| US11876079B2 |
Method for fabricating semiconductor device with recessed pad layer
The provides a method for fabricating a semiconductor device including performing a bonding process to bond a second die onto a first die including a pad layer, forming a through-substrate opening along the second die and extending to the pad layer in the first die, conformally forming an isolation layer in the through-substrate opening, performing a punch etch process to remove a portion of the isolation layer and expose a portion of a top surface of the pad layer, performing an isotropic etch process to form a recessed space extending from the through substrate opening and in the pad layer, conformally forming a barrier layer in the through-substrate opening and the recessed space, and forming a filler layer in the through-substrate opening and the recessed space. |
| US11876078B2 |
Through-silicon via interconnection structure and methods for fabricating same
The present disclosure relates to semiconductor technology and provides a TSV interconnection structure and a method for fabricating same. The TSV interconnection structure may include a plurality of upper substrate structures, wherein each of the plurality of upper substrate structures is provided with a plurality of TSVs, each of the plurality of upper substrate structures is stacked on and displaced from adjacent upper substrate structures, and at least some of the TSVs of each of the plurality of upper substrate structure are connected with corresponding TSVs of the adjacent upper substrate structures; and connecting wires disposed in the plurality of TSVs and configured to connect corresponding circuits on the plurality of upper substrate structures. The present disclosure utilizes a displacement arrangement between the upper substrate structures, so that the TSVs can be displaced and connected without using RDL for a better yield, shorter the fabrication time, and low costs. |
| US11876072B2 |
Method for preparing semiconductor device with wire bond
A method for preparing a semiconductor device includes providing an integrated circuit die having a bond pad. The bond pad includes aluminum (Al). The method also includes etching a top portion of the bond pad to form a recess, and bonding a wire bond to the recess in the bond pad. The wire bond includes copper (Cu). |
| US11876068B2 |
Bond pad connection layout
A memory device includes a package substrate and at least one stack of a plurality of semiconductor dies disposed on the package substrate. The plurality of semiconductor dies can be stacked in a shingled configuration. Each semiconductor die includes a plurality of slits disposed in a first direction. An offset direction defining the shingled arrangement is in-line with the first direction. Each semiconductor die can include a die substrate and a plurality of memory planes disposed on the die substrate with each memory plane having a memory cell array. Each slit can divide and separate each memory plane into at least one of logic blocks or sub-logic blocks. The semiconductor die can include a plurality of bond pads linearly aligned in a second direction that is perpendicular to the first direction. |
| US11876067B2 |
Semiconductor package and method of manufacturing the same
A semiconductor package includes a package substrate, a semiconductor chip and a plurality of bonding wires. The package substrate includes a connection pad. The semiconductor chip is disposed over the package substrate and includes a chip pad, a bonding pad, and a redistribution layer. The bonding pad is closer to a periphery of the semiconductor chip than the chip pad. The redistribution layer is connected between the chip pad and the bonding pad. The bonding wires are connected in parallel between the connection pad and the bonding pad. |
| US11876066B2 |
Palladium-coated copper bonding wire, wire bonding structure, semiconductor device, and manufacturing method of semiconductor device
The bonding wire being a Pd-coated copper bonding wire includes: a copper core material; and a Pd layer and containing a sulfur group element, in which with respect to the total of copper, Pd, and the sulfur group element, a concentration of Pd is 1.0 mass % to 4.0 mass % and a total concentration of the sulfur group element is 50 mass ppm or less, and a concentration of S is 5 mass ppm to 2 mass ppm, a concentration of Se is 5 mass ppm to 20 mass ppm, or a concentration of Te is 15 mass ppm to 50 mass ppm or less. A wire bonding structure includes a Pd-concentrated region with the concentration of Pd being 2.0 mass % or more relative to the total of Al, copper, and Pd near a bonding surface of an Al-containing electrode of a semiconductor chip and a ball bonding portion. |
| US11876065B2 |
Flip chip package assembly
In a described example, an apparatus includes: a semiconductor die having a device side surface; bond pads on the semiconductor die on the device side surface; post connects having a proximate end on the bond pads and extending from the bond pads to a distal end, the diameter of the post connects at the proximate end being the same as the diameter of the post connects at the distal end; polyimide material covering sides of the post connects and covering at least a portion of the bond pads; and solder bumps on the distal end of the post connects. |
| US11876059B2 |
Semiconductor device with directing structure and method therefor
A semiconductor device having a radiating element and a directing structure is provided. The semiconductor device includes a device package. A semiconductor die is coupled to the radiating element integrated in the device package. The directing structure is affixed to the device package by way of an adhesive. The directing structure is located over the radiating element and configured for propagation of radio frequency (RF) signals. |
| US11876054B2 |
Overlay mark and method of making
An overlay mark includes a first feature extending in an X-direction, wherein the first feature is a first distance from a substrate. The overlay mark further includes a second feature extending in a Y-direction perpendicular to the X-direction, wherein the second feature is a second distance from the substrate, and the second distance is different from the first distance, wherein at least one of the first feature or the second feature comprises a conductive material. The overlay mark further includes a third feature extending in the X-direction and the Y-direction, wherein the third feature is a third distance from the substrate, and the third distance is different from the first distance and the second distance. The first distance, the second distance and the third distance from the substrate are along a Z-direction perpendicular to both the X-direction and the Y-direction. |
| US11876053B2 |
Multi-chip package and method of providing die-to-die interconnects in same
A multi-chip package includes a substrate (110) having a first side (111), an opposing second side (112), and a third side (213) that extends from the first side to the second side, a first die (120) attached to the first side of the substrate and a second die (130) attached to the first side of the substrate, and a bridge (140) adjacent to the third side of the substrate and attached to the first die and to the second die. No portion of the substrate is underneath the bridge. The bridge creates a connection between the first die and the second die. Alternatively, the bridge may be disposed in a cavity (615, 915) in the substrate or between the substrate and a die layer (750). The bridge may constitute an active die and may be attached to the substrate using wirebonds (241, 841, 1141, 1541). |
| US11876052B2 |
Semiconductor die bonding structure
A semiconductor die bonding structure includes a lower die including a lower top bonding dielectric layer and a lower connection structure and an upper die stacked over the lower die and including an upper bottom bonding dielectric layer and an upper connection structure. The lower top bonding dielectric layer and the upper bottom bonding dielectric layer are connected. The lower connection structure and the upper connection structure are connected. |
| US11876051B2 |
Conductive layer stack and semiconductor device with a gate contact
The present application discloses a conductive layer stack, a semiconductor device and methods for fabricating the conductive layer stack and the semiconductor device. The conductive layer stack includes an intervening layer comprising tungsten silicide and positioned on an under-layer; a filler layer comprising tungsten and positioned on the intervening layer. The under-layer comprises titanium nitride and comprises a columnar grain structure. A thickness of the intervening layer is greater than about 4.1 nm. |
| US11876050B2 |
Method for fabricating interconnection using graphene
Semiconductor fabrication method for manufacturing an interconnect structure is provided. The semiconductor fabrication method for manufacturing an interconnect structure includes providing a substrate structure comprising a substrate, a first dielectric layer on the substrate, and a metal interconnect line extending through the first dielectric layer; removing a portion of the first dielectric layer on the metal interconnect line to form a recess exposing a surface of the metal interconnect line; forming a graphene layer on the exposed surface of the metal interconnect line; and forming a second dielectric layer filling the recess and covering the graphene layer. |
| US11876048B2 |
Memory device and method of manufacturing the same
Provided is a memory device, including: a substrate; a plurality of word lines, extending in a first direction, arranged in a second direction, disposed on the substrate; a dummy structure, adjacent to ends of the word lines, disposed on the substrate, wherein the dummy structure includes a main part that extends in the second direction; and a plurality of extension parts, extending in the first direction, connected to the main part, and interposed between the main part and the word lines. |
| US11876045B2 |
Method for preparing semiconductor device with copper-manganese liner
The present disclosure provides a method for preparing a semiconductor device with a copper-manganese liner. The method includes forming an opening structure in a first dielectric layer, wherein the opening structure has a first portion, a second portion and a third portion disposed between and physically connecting the first portion and the second portion; forming a lining material lining the first portion and the second portion of the opening structure and completely filling the third portion of the opening structure, wherein the lining material includes copper-manganese (CuMn); filling the first portion and the second portion of the opening structure with a conductive material after the lining material is formed; and performing a planarization process on the lining material and the conductive material. |
| US11876040B2 |
Semiconductor devices and methods of manufacturing semiconductor devices
In one example, an electronic device, comprises a substrate, comprising a first dielectric having a top surface and a bottom surface, and a first conductor in the first dielectric and comprising a first via and a first trace over the first via. The first trace comprises a first trace sidewall and a first trace base, and the first via comprises a first via sidewall. The first conductor comprises a first arcuate vertex between the first trace sidewall and the first trace base, and a second arcuate vertex between the first via sidewall and the first trace base, an electronic component over the top surface of the substrate, and an encapsulant over the top surface of the substrate and contacting a lateral side of the electronic component. Other examples and related methods are also disclosed herein. |
| US11876033B2 |
Semiconductor device including resin case having groove at corner thereof
An object of the present disclosure is to provide a technique capable of relaxing the stress to be applied around the attachment hole of the resin case at the time of fixing the resin case accommodating the semiconductor element to the heat dissipation component with a bolt. A semiconductor device includes a base plate, a heat dissipation component, and a resin case. In a state where the resin case is disposed on the heat dissipation component via the base plate, the resin case is attached to the heat dissipation component with a bolt. The resin case has a recess portion, an attachment hole formed below the recess portion, and at least one groove formed between a wall portion on an inner peripheral side forming the recess portion and the attachment hole. One end of the at least one groove reaches an outer peripheral end of the resin case. |
| US11876030B2 |
Clad material and method for producing same
There are provided a clad material and a method for producing the same, the clad material being capable of preventing cracks from being formed and preventing the separation of layers thereof from being caused, even if it is punched by press-working (even if a high shearing force is applied thereto by thermal shock. After each of Mo—Cu layers 10, which has a metal film 10a of a metal selected from the group consisting of Co, Ti, Pd, Pt and Ni on at least one side thereof is arranged on a corresponding one of both sides of a Cu-graphite layer 12, which is obtained by sintering a graphite powder having a Cu film on the surface thereof, so as to allow the metal film 10a to contact the Cu-graphite layer 12, the layers are heated while a pressure is applied between the Cu-graphite layer 12 and the Mo—Cu layers 10. |
| US11876029B2 |
Method of manufacturing electronic component module, and electronic component module
A method of manufacturing an electronic component module includes a sacrificial-body arrangement step of disposing a sacrificial body on a first principal surface of a support, the support including the first principal surface and a second principal surface, the sacrificial body being smaller than the first principal surface when viewed in a thickness direction of the support, a resin molding step of molding a resin structure on the first principal surface so as to cover the sacrificial body disposed on the first principal surface, a recess forming step of forming a recess in the resin structure by removing the sacrificial body, a wiring-layer forming step of forming a wiring layer on a side surface of the recess and on a principal surface of the resin structure, the principal surface connecting with the side surface, and a component mounting step of mounting an electronic component in the recess. |
| US11876023B2 |
Conformal film thickness determination using angled geometric features and vertices tracking
Embodiments of the invention provide a method that includes forming an IC layer having an inactive region and an active region. The active region includes a device-under-fabrication (DUF). The inactive region includes a geometric feature having a geometric shape. A film is deposited over the active DUF and the geometric feature such that a first portion of the film will be part of the active DUF, and such that a second portion of the film is over the geometric feature. A geometric shape of the film over the geometric feature matches the geometric shape of the geometric feature. Determining a thickness of the film is based at least in part a difference between a footprint of the geometric shape of the film and a footprint of the geometric shape of the geometric feature. |
| US11876020B2 |
Method for manufacturing a CFET device
A method for manufacturing a CFET device comprises forming a substrate of the double semi-conductor on insulator type, successively comprising, from the base to the surface thereof: a carrier substrate, a first electrically insulating layer, a first single-crystal semiconductor layer, a second electrically insulating layer and a second single-crystal semiconductor layer. Slices are formed into the substrate to the first electrically insulating layer so as to form at least one fin (F). A channel of a first transistor is formed in the first semiconductor layer and a channel of a second transistor is formed opposite the first transistor in the second semiconductor layer. Formation of the substrate of the double semi-conductor on insulator type comprises: a first and a second step of transferring a layer and thermal processing at a temperature that is sufficiently high to smooth the first single-crystal semiconductor layer to a roughness lower than 0.1 nm RMS. |
| US11876016B2 |
Methods for forming hole structure in semiconductor device
Embodiments of the present disclosure provide a method for forming a hole structure in a semiconductor device. The method for forming a hole structure having a first hole portion and a second hole portion connected to and over the first portion in a stack structure of a semiconductor device includes determining a hard mask layer. An etching resistivity of the hard mask layer may be inversely proportional to a difference between a first lateral dimension of the first hole portion and a second lateral dimension of the second hole portion, and the first lateral dimension may be less than the second lateral dimension. The method may also include forming the hard mask layer over the stack structure, and patterning the hard mask layer to form a first patterned hard mask layer that has a first mask opening. The first mask opening may have the first lateral dimension. The method may further include removing a portion of the stack structure exposed by the first patterned hard mask layer to form an initial hole structure in the stack structure, and patterning the first patterned hard mask layer to form a second patterned mask layer that has a second mask opening. The second mask opening may have the second lateral dimension. The method may further include removing another portion of the stack structure exposed by the second patterned hard mask layer to form the hole structure. |
| US11876012B2 |
Method of manufacturing semiconductor package substrate and semiconductor package substrate manufactured using the same
A method of manufacturing a semiconductor package substrate includes forming a trench and a post by etching an upper surface of a base substrate including a conductive material, filling the trench with a resin, removing the resin exposed to outside of the trench such that an upper surface of the post and an upper surface of the resin are at same level, forming a conductive layer on an entire area of the upper surface of the post and the upper surface of the resin, and forming a circuit wiring including an upper circuit wiring and a lower circuit wiring by simultaneously patterning the conductive layer and a lower surface of the base substrate. |
| US11876011B2 |
3D semiconductor device and structure with single-crystal layers
A 3D semiconductor device, the device including: a first level including a first single crystal layer, the first level including first transistors, where each of the first transistors includes a single crystal channel; first metal layers interconnecting at least the first transistors; a second metal layer overlaying the first metal layers; and a second level including a second single crystal layer, the second level including second transistors, where the second level overlays the first level, where at least one of the second transistors includes a raised source or raised drain transistor structure, where the second level is directly bonded to the first level, and where the bonded includes direct oxide-to-oxide bonds. |
| US11876010B2 |
Substrate processing apparatus and recording medium
There is provided a configuration that includes a substrate holder configured to hold substrates; a transfer mechanism configured to transfer the substrates to the substrate holder; and a controller configured to: acquire a number of substrates mountable on the substrate holder and a number of the product substrates to be mounted on the substrate holder; divide the product substrates into product substrate groups; divide the dummy substrates into dummy substrate groups based on the number of the product substrates, the number of the substrates mountable on the substrate holder, and a number of the product substrate groups; combine the product substrate groups and the dummy substrate groups; create substrate arrangement data for distributing and mounting the product substrates on the substrate holder; and cause the transfer mechanism to transfer the substrates according to the substrate arrangement data. |
| US11876009B2 |
Overhead transport vehicle
An overhead transport vehicle travels along a rail on a ceiling of a building to transport a FOUP. The overhead transport vehicle includes a holding base and an upper shelf transfer device. The holding base holds at least one of a side surface and a bottom surface of the FOUP. The upper shelf transfer device moves the holding base at least upwardly while holding the FOUP. The upper shelf transfer device moves the holding base from the holding position in which the holding base holds and transfers the FOUP to the upper transfer position to transfer the FOUP, which is a different position from the holding position in a plan view and higher than the holding position. |
| US11876007B2 |
Hermetically sealed housing with a semiconductor component and method for manufacturing thereof
A method is provided for producing a hermetically sealed housing having a semiconductor component. The method comprises introducing a housing having a housing body and a housing cover into a process chamber. The housing cover closes off a cavity of the housing body and is attached in a gas-tight manner to the housing body. At least one opening is formed in the housing. At least one semiconductor component is arranged in the cavity. The method furthermore comprises generating a vacuum in the cavity by evacuating the process chamber, and also generating a predetermined gas atmosphere in the cavity and the process chamber. The method moreover comprises applying sealing material to the at least one opening while the predetermined gas atmosphere prevails in the process chamber. |
| US11876004B2 |
Printed circuit board
A printed circuit board according to an embodiment includes: an insulating layer; a first pad disposed on a first surface of the insulating layer; a first conductive layer disposed on the first pad and including gold (Au); a second pad disposed on a second surface of the insulating layer; and a second conductive layer disposed on the second pad and including gold (Au), wherein the first conductive layer is a conductive layer connected to a wire, the second conductive layer is a conductive layer connected to a solder, and the first conductive layer is thicker than the second conductive layer. |
| US11876002B2 |
Method for interconnecting components of an electronic system by sintering
A method for interconnecting components of an electronic system includes depositing a sintering solution onto a first component to form an interconnection layer, the sintering solution comprising a solvent, metal nanoparticles dispersed in the solvent, and a stabilizing agent adsorbed onto the nanoparticles. More than 95.0%, preferably more than 99.0% of the mass of the nanoparticles include a metal selected from silver, gold, copper and alloys thereof and have a polyhedral shape with an aspect ratio greater than 0.8. The method also includes eliminating, at least partially, the solvent from the layer to form an ordered agglomerate in which the nanoparticles are regularly disposed in three axes, the stabilizing agent binding them together and maintaining at least a portion of the nanoparticles at a distance from each other, debinding and sintering the layer, and depositing a second component in contact with the layer before or during debinding or sintering. |
| US11876001B2 |
Method and system for manufacturing semiconductor layer
The present disclosure provides a method and system for manufacturing a semiconductor layer. The method includes: placing a first wafer in a cavity to form a metal film on the first wafer; before forming the metal film, the temperature inside the cavity is a first temperature; transferring the first wafer on which the metal film has been formed out of the cavity; the temperature in the cavity is a second temperature, and the second temperature is greater than the first temperature; introducing an inert gas into the cavity to cool the cavity, such that the temperature in the cavity is equal to the first temperature; after the temperature in the cavity is equal to the first temperature, placing a second wafer in the cavity to form the metal film on the second wafer. The manufacturing method can reduce the defects on the surface of the metal film. |
| US11875999B2 |
Advanced etching technologies for straight, tall and uniform fins across multiple fin pitch structures
Embodiments of the invention describe semiconductor devices with high aspect ratio fins and methods for forming such devices. According to an embodiment, the semiconductor device comprises one or more nested fins and one or more isolated fins. According to an embodiment, a patterned hard mask comprising one or more isolated features and one or more nested features is formed with a hard mask etching process. A first substrate etching process forms isolated and nested fins in the substrate by transferring the pattern of the nested and isolated features of the hard mask into the substrate to a first depth. A second etching process is used to etch through the substrate to a second depth. According to embodiments of the invention, the first etching process utilizes an etching chemistry comprising HBr, O2 and CF4, and the second etching process utilizes an etching chemistry comprising Cl2, Ar, and CH4. |
| US11875992B2 |
Semiconductor devices including a support pattern on a lower electrode structure
Semiconductor devices are provided. A semiconductor device includes a first portion of a lower electrode structure on a substrate. The semiconductor device includes a first support pattern being in contact with a first portion of a sidewall of the first portion of the lower electrode structure. The semiconductor device includes a second portion of the lower electrode structure on a second portion of the sidewall of the first portion of the lower electrode structure. The semiconductor device includes an upper electrode on the second portion of the lower electrode structure and on the first support pattern. Moreover, the semiconductor device includes a dielectric layer between the upper electrode and the second portion of the lower electrode structure. |
| US11875989B2 |
Semiconductor device, solid-state imaging device and electronic apparatus
A semiconductor device including a first semiconductor section including a first wiring layer at one side thereof, the first semiconductor section further including a photodiode, a second semiconductor section including a second wiring layer at one side thereof, the first and second semiconductor sections being secured together, a third semiconductor section including a third wiring layer at one side thereof, the second and the third semiconductor sections being secured together such the first semiconductor section, second semiconductor section, and the third semiconductor section are stacked together, and a first conductive material electrically connecting at least two of (i) the first wiring layer, (ii) the second wiring layer, and (iii) the third wiring layer such that the electrically connected wiring layers are in electrical communication. |
| US11875987B2 |
Contacts having a geometry to reduce resistance
A method of increasing the surface area of a contact to an electrical device that in one embodiment includes forming a contact stud extending through an intralevel dielectric layer to a component of the electrical device, and selectively forming a contact region on the contact stud. The selectively formed contact region has an exterior surface defined by a curvature and has a surface area that is greater than a surface area of the contact stud. An interlevel dielectric layer is formed on the intralevel dielectric layer, wherein an interlevel contact extends through the interlevel dielectric layer into direct contact with the selectively formed contact region. |
| US11875982B2 |
Multi-modal ionization for mass spectrometry
Techniques and systems for multi-modal ionization for mass spectrometry are provided. In some embodiments, a method may comprise: receiving an analyte; ionizing some molecules of the analyte using a first ionization method to produce first ions; ionizing other molecules of the analyte using a second ionization method to produce second ions; and providing the first and second ions to a mass analyzer. |
| US11875969B2 |
Process chamber with reduced plasma arc
A processing system comprises a chamber body, a substrate support and a lid assembly. The substrate support is located in the chamber body and comprises a first electrode. The lid assembly is positioned over the chamber body and defines a processing volume. The lid assembly comprises a faceplate, a second electrode positioned between the faceplate and the chamber body, and an insulating member positioned between the second electrode and the processing volume. A power supply system is coupled to the first electrode and the faceplate and is configured to generate a plasma in the processing volume. |
| US11875966B2 |
Method and apparatus for inspection
An electron beam inspection apparatus, the apparatus including a plurality of electron beam columns, each electron beam column configured to provide an electron beam and detect scattered or secondary electrons from an object, and an actuator system configured to move one or more of the electron beam columns relative to another one or more of the electron beam columns, the actuator system including a plurality of first movable structures at least partly overlapping a plurality of second movable structures, the first and second movable structures supporting the plurality of electron beam columns. |
| US11875963B2 |
Device for connecting to a high-voltage grid
A device for connecting to a high-voltage grid carrying an AC voltage and having a plurality of phases, includes an active part having at least one phase connection for connecting to a phase of the high-voltage grid, at least one step winding connected downstream of one of the phase connections and having a plurality of taps, a tap changer having, for each step winding, a selector for currentlessly switching over from a current to a desired tap of the step winding, and a load changeover switch connected downstream of the selector in series for commutating the current from the current to the desired tap, for avoiding a high short-circuit current in the step winding or in the tap changer. An impedance unit, having an impedance to be switched between a low impedance and a high impedance, is disposed between each selector and each load changeover switch. |
| US11875947B2 |
Capacitive units and methods of forming capacitive units
Some embodiments include a capacitive unit having two or more capacitive tiers. Each of the capacitive tiers has first electrode material arranged in a configuration having laterally-extending first segments and longitudinally-extending second segments. The first and second segments join at intersection-regions. The first electrode material of the first and second segments is configured as tubes. The capacitive tiers are together configured as a stack having a first side. The first electrode material caps the tubes along the first side. Capacitor dielectric material lines the tubes. Second electrode material extends into the lined tubes. Columns of the second electrode material extend vertically through the capacitive tiers and are joined with the second electrode material within the lined tubes. A conductive plate extends vertically along the first side of the stack and is directly against the first electrode material. Some embodiments include methods of forming integrated assemblies. |
| US11875945B2 |
Capacitor component including connection portion between external electrode and body
A capacitor component includes a body having a stacked portion in which first internal electrodes and second internal electrodes are alternately stacked with each other and with dielectric layers therebetween in a first direction, and having first and second connection portions disposed on opposite surfaces of the stacked portion, respectively, in a second direction perpendicular to the first direction. First and second external electrodes are disposed on the first and second connection portions, respectively. The first and second connection portions each include a metal layer disposed on the stacked portion and a ceramic layer disposed on the metal layer. Corners of the body have a rounded shape in a cross-section of the body extending in the first and second directions. |
| US11875943B2 |
Multilayer ceramic capacitor
A multilayer ceramic capacitor includes a body including a dielectric layer and first and second internal electrodes alternately disposed with the dielectric layer interposed therebetween, a first external electrode disposed on the body and connected to the first internal electrode, and a second external electrode disposed on the body and connected to the second internal electrode. The dielectric layer includes a first dielectric layer adjacent to the first internal electrode, a second dielectric layer adjacent to the second internal electrode, and a third dielectric layer disposed between the first and second dielectric layers. D1 |
| US11875938B1 |
Systems and methods for generating motion
A system comprises a hollow body forming a closed loop channel; one or more electromagnetic coils on the hollow body; a free-moving magnetic object in the channel; and a control system configured to control the one or more electromagnetic coils to cause the free-moving magnetic object to rotate within the channel during an acceleration phase and to cause one or more magnetic collisions with at least one of the one or more electromagnetic coils during an energy transfer phase, the one or more magnetic collisions causing a directional movement of the system. |
| US11875935B2 |
Integrated electronic device comprising a coil and method for manufacturing such a device
An electronic device includes a substrate; a porous semiconductor material layer arranged on the substrate; a first high magnetic permeability material arranged inside the pores of a first portion of the porous semiconductor layer, the first portion of the porous semiconductor material layer impregnated with the first high magnetic permeability material forming a first magnetic layer separated from the substrate by a second portion of the porous semiconductor material layer; and a coil arranged on the first magnetic layer. |
| US11875933B2 |
Switchboard including current transformer
A switchboard is provided via a terminal bushing; a switchboard terminal coupled to the terminal bushing; a metering transformer bushing which is installed or released from the front part thereof through a breaker chamber, covers the switchboard terminal, and is inserted into the terminal bushing; and a metering transformer which is fastened to the metering transformer bushing and disposed on the outer circumference of the metering transformer bushing. The metering transformer includes at least one terminal that faces forward, and the metering transformer bushing may include an opening for exposing the at least one terminal to the front thereof. |
| US11875929B2 |
Coil component and method of manufacturing the same
A coil component including a body having a magnetic portion including a metal magnetic particle and a resin, and a coil conductor embedded in the magnetic portion, and an outer electrode provided on a surface of the body and connected to the coil conductor. The coil conductor is a wound body of a conductive wire covered with an insulating film, and has a first surface and a second surface facing each other in a winding axis direction. Also, on the first surface of the coil conductor, a first resin portion is provided at least either on a surface of the conductive wire or in a gap between adjacent ends of the conductive wire. |
| US11875928B2 |
Reactor
A reactor includes a coil, a magnetic core, and a holding member holding an end face of the wound part in an axial direction and an outer core part of the magnetic core. The holding member is a frame-shaped body having a through hole into which an end portion of the inner core part is inserted. The outer core part has an inward surface opposing the inner core part, an outward surface on an opposite side to the inward surface, and a plurality of peripheral surfaces joining between the inward surface and the outward surface. The reactor includes a core coupling member, coupling the outer core part and the inner core part, having a supporting piece supporting the outward surface of the outer core part, and an engaging leg piece having a distal end engaging a peripheral surface engaging part formed on a peripheral surface of the inner core part. |
| US11875925B2 |
Thermistor, varistor or capacitor component with a fusible connecting element between the main body of the component
An electrical component comprises a main body and at least one external electrode that is fastened by a connecting material to the main body. The main body and the external electrode have different coefficients of thermal expansion that determine a critical temperature which, when exceeded, results in a connection between the main body and the external electrode experiencing mechanical stresses that lead to damage to the component. The connecting material has a melting point which is lower than a critical temperature. |
| US11875924B2 |
Method of fabricating resistor in igniter
A method of fabricating resistors in igniter is provided. The method includes punching an alloy material to obtain a plurality of alloy components. The alloy components are disposed on a substrate, and electrodes are disposed on the substrate. Resistors in igniter are obtained by disposing electrodes on the substrate such that two electrically connecting regions of each alloy component are physically contacting and electrically connecting to the electrodes, respectively. The resulting resistors in igniter have uniform size and stable shape hence showing great ignition performance. |
| US11875921B2 |
Lightweight carbon nanotube cable comprising a pair of plated twisted wires
A carbon nanotube (CNT) cable includes: a pair of plated twisted wires, each wire comprising one or more sub-cores, at least one sub-core comprising CNT yarn; a dielectric surrounding the plated twisted wires; and an electrical layer surrounding the dielectric, the electrical layer configured to shield the CNT cable. A method for making a CNT cable includes: controlling a deposition rate, depositing plating so as to surround a pair of wires, each wire comprising one or more sub-cores, at least one sub-core comprising CNT yarn; twisting the plated wires together; and surrounding the plated twisted wires with an electrical layer configured to shield the plated twisted wires, thereby creating the CNT cable. |
| US11875919B2 |
Multilayer electric field grading article, methods of making the same, and articles including the same
A multilayer electric field grading article comprises first and second layers forming a discrete interface. The first layer comprises a first electric field grading composition comprising first particles dispersed in a first matrix material. The second layer comprises a second electric field grading composition comprising second particles, compositionally different than the first particles, dispersed in a second matrix material. The first and second layers have respective first and second degrees of nonlinearity between respective first and second onset voltages and corresponding first and second breakdown voltages. The first and second layers taken together have a combined onset voltage that is higher than the first and second onset voltages, and the first and second layers taken together have a greater combined degree of nonlinearity than each of the first and second degrees of nonlinearity taken individually. A method of reducing electric field stress at a joint or termination of a substrate includes applying the multilayer electric field grading article to a surface of a substrate. |
| US11875912B2 |
Shielded flat cable
A shielded flat cable includes a plurality of ground lines disposed in a first plane, a pair of signal lines provided between the plurality of ground lines and disposed in the first plan, an insulating layer covering the plurality of ground lines and the pair of signal lines, and a shield layer covering the insulating layer. In a cross section perpendicular to a longitudinal direction, the plurality of ground lines include an adjacent ground line adjacent to one signal line of the pair of signal lines. A minimum distance between the pair of signal lines is smaller than a minimum distance between the adjacent ground line and the one signal line. |
| US11875910B2 |
Off-axis capillary x-ray optics
An optical apparatus is provided for manipulating light from x-ray sources (e.g., free electron lasers). In some embodiments, the optical apparatus includes a first capillary optic having a first longitudinal axis and a second capillary optic having a second longitudinal axis that is angled with respect to the first longitudinal axis. The second capillary optic is positioned to receive light directly from the first capillary optic. |
| US11875909B2 |
Pulse generator and radiation system having the same
Pulse generators and radiation systems having the same are provided. A pulse generator may include a shielding device and a control device operably connected with the shielding device. The control device may be configured to control the shielding device to intermittently shield radiation emitted from the radiation source to produce pulsed radiation. |
| US11875908B2 |
Electrode with radioisotope and phosphor composite layer for hybrid radioisotope batteries and radioluminescent surfaces
An electrode for beta-photovoltaic cells includes: a substrate formed of a conductive layer with a thickness ranging between about 10 nm to 1 micron; a composite layer of radioluminescent phosphor with radioisotope particles homogeneously dispersed therein formed on conductive substrate with a thickness ranging between about 1 and 25 microns; and a semiconductor comprising a P-i-N/P-u-N junction or a N-i-P-P junction. The radioisotope may be a beta-emitter, such as Ni-63, H-3, Pm-147, or Sr-90/Y-90. |
| US11875907B2 |
Series and/or parallel connected alpha, beta, and gamma voltaic cell devices
A device for producing electricity. The device includes a substrate having spaced apart first and second surfaces and doped a first dopant type, first semiconductor material layers disposed atop the first substrate surface and doped the first dopant type, and second semiconductor material layers disposed atop the first semiconductor material layers and doped a second dopant type. A first contact is in electrical contact with the second substrate surface or in electrical contact with one of the first semiconductor material layers. A beta particle source emits beta particles that penetrate into the semiconductor material layers; the beta particle source is proximate the uppermost layer of the second plurality of semiconductor material layers. A second contact is in electrical contact with one of the second plurality of semiconductor material layers. In one embodiment, bi-polar contacts (the first and second contacts) are co-located on each major face of the device. |
| US11875905B1 |
Salubrity retention system using selective digital communications
One or more devices that provides an immersive cerebral salubrity retention and selection package (ICSRSP) to potential new patients (PNPs) comprising customized cerebral salubrity care personnel with available personal time periods to improve their cerebral salubrity. An ICSRSP determines whether a PNP qualifies for a cerebral health immersion program (CHIP). The ICSRSP generates a set of interrogatives based on data and data sets (used for a determination) that are not included in initially collected data regarding the PNP. The PNP's acceptance into the ICSRSP is based on an assessment of the PNP data and PNP-provided responses to the interrogatives. If the PNP is selected for the CHIP, an option is provided to the PNP to enroll in the CHIP to become a patient. If additional information is needed to complete an acceptance process for the CHIP, a user interface is provided enabling the PNP to provide data for process completion. |
| US11875901B2 |
Registration apparatus, registration method, and recording medium
A registration apparatus is configured to access a network formed of a set of first nodes and first edges, the first nodes each representing a first feature vector including a plurality of elements, the first edges each coupling two first nodes representing two first feature vectors to each other based on two first feature vectors, a processor in the registration apparatus is configured to execute: obtaining processing of obtaining a second feature vector; and registration processing of registering a second node representing the second feature vector to the network based on a similarity relationship among third feature vectors in a set of third feature vectors included in the set of first feature vectors, and coupling the second node and a third node representing the third feature vector to each other with a second edge, the number of third feature vectors being smaller than the number of first feature vectors. |
| US11875897B2 |
Medical image processing apparatus, method, and program, and diagnosis support apparatus, method, and program
Provided are a medical image processing apparatus, method, program, and a diagnosis support apparatus, method, and program that can efficiently collect medical images that have a large contribution to improving the accuracy of a diagnosis using medical images. The medical image processing apparatus includes a reception unit that receives an input of a medical image and patient information corresponding to the medical image, an analysis result acquisition unit that acquires an analysis result obtained by analyzing the medical image, a detection unit that detects whether or not the analysis result has been corrected, and a data processing unit that creates and stores data in which identification information capable of identifying a patient is concealed in a case where it is detected that the analysis result has been corrected. |
| US11875893B2 |
Method and apparatus for outputting information related to a pathological slide image
A computing apparatus includes: at least one memory; and at least one processor, wherein the processor generates quantitative information regarding at least one cell included in a region of interest of a pathological slide image by analyzing the pathological slide image, generates qualitative information regarding at least one tissue included in the pathological slide image by analyzing the pathological slide image, and controls a display apparatus to output at least one of the quantitative information and the qualitative information on the pathological slide image according to a manipulation of a user. |
| US11875887B2 |
Methods and apparatus for virtual competition
A system configured to be coupled with a participant of an activity. The system comprises: a participant activity monitoring unit configured for monitoring a performance of the activity by the participant; an activity information module configured for storing performance information corresponding to the activity; and a participant performance correlator configured for delivering comparative performance data based on the monitored performance of the activity by the participant and the stored performance information. |
| US11875885B2 |
Interoperable platform for reducing redundancy in medical database management
Systems and methods are disclosed for reducing redundancy in medical database management. An example system may include an application program interface communicatively linked to a user interface associated with each of: a plurality of hospital information systems, a plurality of source devices associated with each of the plurality of hospital information systems, and a plurality of electronic data management systems. The system may further include a mapping module configured to map lexical tokens between patient-specific data forms used by each of the system components. An example method may performed by a computing device having one or more processors may include receiving, from the source devices, patient-specific health data; generating updates to patient-specific electronic health records (EHR) for patients; generating patient-specific electronic data capture (EDC) data associated with the patients, and updating electronic data management systems with the patient-specific EDC data. |
| US11875882B1 |
System for predicting end-stage renal disease complication risk based on contrastive learning
Disclosed is an system for predicting end-stage renal disease complication risk based on contrastive learning, including an end-stage renal disease data preparation module, configured to extract structured data of a patient by using a hospital electronic information system and daily monitoring equipment, and process the structured data to obtain augmented structured data; and a complication risk prediction module, configured to construct a complication representation learning model and a complication risk prediction model, perform training and learning on the augmented structured data through the complication representation learning model to obtain a complication representation, and perform end-stage renal disease complication risk prediction by using the complication representation through the complication risk prediction model. |
| US11875878B2 |
Machine learning method and apparatus using steps feature selection based on genetic algorithm
The present disclosure relates to a machine learning method and apparatus using steps feature selection based on a genetic algorithm, and the machine learning method includes defining a feature set including a plurality of features, generating a plurality of feature combinations including n-dimensional features (n is a natural number) for the feature set, independently constructing feature models for the plurality of feature combinations and calculating prediction accuracy for each of the feature models as a prediction result for a predetermined data set, arranging the feature models according to the prediction accuracy to determine at least one good feature model that satisfies a preset criterion, determining at least one good feature from among features included in a corresponding feature set of the at least one good feature model, and updating the feature set to include only the at least one good feature and re-determining a good feature model for a (n+1)-dimensional feature combination based on the updated feature set. |
| US11875871B2 |
Memory channels calibration during boot wherein channels are calibrated in parallel based on identifer
In an embodiment, a system includes an energy source and an integrated circuit that is coupled to one or more memory devices via a plurality of memory channels. A memory controller in the integrated circuit is programmable with a plurality of identifiers corresponding to the plurality of channels, and is further programmable with a command and a first identifier associated with the command. Responsive to the command, the memory controller is configured to perform one or more calibrations on a subset of the plurality of channels for which corresponding identifiers of the plurality of identifiers match the first identifier. Other ones of the plurality of channels, for which the corresponding identifiers do not match the first identifier, do not perform the calibration. |
| US11875868B2 |
Quick reliability scan for memory device
Technologies for performing a quick reliability scan include, for a particular block of a set of blocks of different block types, each block of the set of blocks including pages of memory of a physical memory device, identifying subset of the pages of the block. The block is scanned by scanning the subset of the plurality of pages of the block for a fold condition. A page of the subset of the plurality of pages is determined to have the fold condition. After the set of blocks has been scanned, the folding of the block that includes the page that has been determined to have the fold condition is requested. |
| US11875867B2 |
Weighted wear leveling for improving uniformity
A memory device can include multiple memory cells and a processing device operatively coupled with the memory device to perform operations including grouping the memory cells into a groups based on a metric reflecting an electrical distance of a memory cell from a voltage source, and determining, for each group, a respective share of write operations, wherein the share of write operations is related to an aggregate value of the metric for memory cells of the group. The operations can also include distributing the write operations to each group according to the share of write operations determined for the group. |
| US11875865B2 |
Select gate reliability
A method includes determining a programmed threshold voltage for a select gate of a memory string and assigning the select gate a programmed reliability rank based upon the programmed threshold voltage. The programmed reliability rank indicates that hot data, warm data, and/or or cold data are programmable to the memory string. The method further includes incrementing a quality characteristic count to a first check voltage value, determining a first checked threshold voltage for the select gate at the first check voltage value, and assigning the select gate a first reliability rank based upon the first checked threshold voltage. The first reliability rank indicates that the warm data or the cold data, or both, are programmable to the memory string. |
| US11875864B2 |
Mitigating edge layer effect in partially written blocks
A storage device includes 3D NAND including layers of multi-level cells. When a shutdown command is received, whether a block is partially written is evaluated. If so, dummy lines are written after the last written wordline of the block. Partially written blocks may be those having a fill percentage less than a threshold. The threshold may be a function of the PEC count of the block. If a maximum retention time is exceeded by data stored in a partially written block, dummy lines may also be written to the block. |
| US11875861B2 |
Memory cell sensing
Sensing devices might include a first voltage node configured to receive a first voltage level, a second voltage node configured to receive a second voltage level lower than the first voltage level, a p-type field-effect transistor (pFET) selectively connected to a data line, and a sense node selectively connected to the pFET. The pFET might be connected between the first voltage node and the data line, between the second voltage node and the data line, and between the first voltage node and the data line. Memories might have controllers configured to cause the memories to determine whether a memory cell has an intended threshold voltage using similar sensing devices. |
| US11875859B2 |
Memory devices for comparing input data to data stored in memory cells coupled to a data line
A memory device might include control circuitry configured to cause the memory device to compare input data to data stored in memory cells connected to a data line, cause a first level of current to flow from the data line in response to a mismatch between one digit of the input data and data stored in a respective pair of memory cells, cause a second level of current to flow from the data line in response to a mismatch between a different digit of the input data and the data stored in a respective pair of memory cells, compare a representation of a level of current in the data line to a reference, and deem the input data to potentially match or not match the data stored in the plurality of memory cells in response to the comparison. |
| US11875856B2 |
Semiconductor memory device
According to one embodiment, a semiconductor memory device includes: a first memory cell; a second memory cell; a first word line; a second word line; and a first bit line. The device is configured to execute a first operation, a second operation, and a third operation to write data into the first memory cell. In the first operation, a first voltage is applied to the second word line. In the second operation, after the first operation, a second voltage higher than the first voltage is applied to the second word line. In the third operation, after the second operation, a third voltage higher than the second voltage is applied to the first word line, and a fourth voltage lower than both the second voltage and the third voltage is applied to the second word line. |
| US11875855B2 |
Non-volatile memory device including signal lines arranged at the same level as a common source line and a gate arranged at the same level as a ground selection line
A memory device including: a memory cell array disposed in a first semiconductor layer, the memory cell array including a plurality of wordlines extended in a first direction and stacked in a second direction substantially perpendicular to the first direction; and a plurality of pass transistors disposed in the first semiconductor layer, wherein a first pass transistor of the plurality of pass transistors is disposed between a first signal line of a plurality of signal lines and a first wordline of the plurality of wordlines, and wherein the plurality of signal lines are arranged at the same level as a common source line. |
| US11875851B2 |
Semiconductor memory device
A semiconductor memory device includes a memory cell array having memory strings that include memory cells and first and second selection transistors. During a read operation, a controller applies a first voltage higher than ground to a source line, and a second voltage to a first and second selection gate lines that are connected to a selected memory string. The second voltage is also applied to the first selection gate lines connected to non-selected memory strings during a first period of the read operation. A third voltage higher than ground and lower than the second voltage is applied to the first selection gate lines connected to non-selected memory strings during a second period of the read operation subsequent to the first period. |
| US11875845B2 |
Memory device and operating method of the memory device
There is provided a method for operating a memory device for performing a program operation of programming data in selected memory cells among a plurality of memory cells. The method includes: applying a program voltage to the selected memory cells; verifying program states of memory cells programmed to any one program state among a plurality of program states distinguished based on a plurality of threshold voltages among the selected memory cells; and verifying an erase state of memory cells programmed to an erase state among the selected memory cells. |
| US11875843B2 |
Systems and methods for improved data access speed
Systems and methods are provided for a memory device. A memory device includes a memory array, a column selection circuit coupled to the memory array, where the column selection circuit is configured to generate a column selection signal, and a sense amplifier configured to receive data signals from the memory array. An enable signal generating circuit is configured to generate a first enable signal and a second enable signal. The column selection circuit generates the column selection signal based on the first enable signal, and the sense amplifier is configured to receive a data signal from the memory array in response to the second enable signal. |
| US11875841B2 |
Memory device with high data bandwidth
A memory device is provided. The memory device includes at least one memory chip and a logic chip. Each of the at least one memory chip includes a memory array, a plurality of bit lines, and a plurality of data paths. The data paths respectively correspond to the bit lines. The number of the data paths is equal to or less than the number of the bit lines. A plurality of data transmission ports of the logic chip are electrically connected to the data paths of the at least one memory chip in a one-to-one manner. The number of the data transmission ports is equal to a sum of the data paths of the at least one memory chip. |
| US11875840B2 |
Semiconductor device performing in-memory processing and operation method thereof
A semiconductor device includes a cell circuit including a plurality of memory arrays, and a control circuit configured to control the cell circuit. A memory array of the plurality of memory arrays has a plurality of sub-arrays including a first sub-array and a second sub array, and an array connecting circuit configured to connect bit lines of the first sub-array to respective corresponding bit lines of the second sub-array according to a copy signal. The semiconductor device may further include a partial sum circuit configured to perform charge sharing between a plurality of bit lines of the first sub-array. |
| US11875838B2 |
Memory device, semiconductor device, and electronic device
A memory device with shortened access time in data reading is provided. The memory device includes a first layer and a second layer positioned above the first layer, the first layer includes a reading circuit, and the second layer includes a first memory cell and a second memory cell. The reading circuit includes a Si transistor. The first memory cell and the second memory cell each include an OS transistor. The first memory cell is electrically connected to the reading circuit, and the second memory cell is electrically connected to the reading circuit. When a first current corresponding to first data retained in the first memory cell flows from the reading circuit to the first memory cell and a second current corresponding to second data retained in the second memory cell flows from the reading circuit to the second memory cell, the reading circuit compares the current amounts of the first current and the second current, and reads the first data. |
| US11875836B2 |
Apparatus and method for endurance of non-volatile memory banks via wear leveling with linear indexing
Endurance mechanisms are introduced for memories such as non-volatile memories for broad usage including caches, last-level cache(s), embedded memory, embedded cache, scratchpads, main memory, and storage devices. Here, non-volatile memories (NVMs) include magnetic random-access memory (MRAM), resistive RAM (ReRAM), ferroelectric RAM (FeRAM), phase-change memory (PCM), etc. In some cases, features of endurance mechanisms (e.g., randomizing mechanisms) are applicable to volatile memories such as static random-access memory (SRAM), and dynamic random-access memory (DRAM). The endurance mechanisms include a wear leveling scheme that uses index rotation, outlier compensation to handle weak bits, and random swap injection to mitigate wear out attacks. |
| US11875834B2 |
Magnetic memory device and memory system
According to one embodiment, a magnetic memory device includes a first memory cell and a control circuit. The first memory cell includes a first magnetoresistance effect element and a first switching element coupled in series. The control circuit is configured to repeatedly apply a first voltage to the first memory cell until a first condition is satisfied in a first operation. |
| US11875828B2 |
Magnetic storage reader having a bridge to align magnetic moments
A reader of a magnetic recording head includes a sensor stack, a first side shield and a second side shield disposed on opposite sides of the sensor stack in a cross-track dimension, and a bridge. The bridge is configured to align magnetic moments of the first side shield and the second side shield. The bridge is disposed above the sensor stack relative to a media-facing surface of the magnetic recording head and proximate to the first side shield and the second side shield. |
| US11875825B1 |
Perpendicular magnetic recording writer with double driving coil
A perpendicular magnetic recording (PMR) writer is disclosed. A write current passes through a driving coil and a bucking coil generates a magnetic flux that passes through the main pole tip and is used to write one or more magnetic bits in a magnetic medium. The improved PMR writer includes a double driving coil (DDC) design, in which a second electric current path in parallel with the driving coil through the main pole tip is added to drive the main pole in the same direction as the top driving coil. |
| US11875822B1 |
Performance characteristic transfer for localized content
Systems and techniques for validation and generation of localized content for audio and video are described herein. The systems and techniques provide for training of twin neural networks to evaluate performance characteristics, sometimes referred to as content-auxiliary characteristics, of a localized performance. The localized performance may be validated or improved by identifying misalignment in the performance characteristics to ensure that localized content preserves content as well as creative intent and performance ability in the final product. The machine learning models trained using the techniques described herein may be used in connection with auto-localization processes to automatically generate high quality localized audio and video content. |