US11985733B2
Technology for a user equipment (UE), operable to generate an enhanced buffer status report (eBSR) is disclosed. The UE can identify packets for uplink transmission. The UE can filter the packets for uplink transmission, to identify a number of small packets pending for transmission and a number of larger packets, relative to the small packets, that are pending for transmission in the uplink transmission. The UE can encode the eBSR for transmission to a next generation node B (gNB), wherein the eBSR includes information identifying the number of small packets pending for transmission. The UE can have a memory interface configured to send to a memory the number of small packets pending for transmission.
US11985730B2
Embodiments of this application provide a terminal configuration method and an apparatus. When determining that a SIM card in a terminal is powered on, a wireless communications module reads SIM card information such as some or all of an international mobile subscriber identity (IMSI), a service provider name (SPN), or a global identifier ID (GID) in the SIM card from the SIM card. After that, the SIM card information obtained by the wireless communications module is sent to an application processor. The application processor obtains an operator parameter based on the SIM card information reported by the wireless communications module, and configures the terminal. Therefore, at a moment at which the SIM card is powered on, the wireless communications module obtains the SIM card information from the SIM card, so that a timing for the UE to obtain the IMSI is advanced.
US11985729B2
A wireless device component testing system and process includes implementation of a SIM switcher device. The SIM switcher device configured to connect to a wireless device, a computer system, and a plurality of SIM cards. The SIM switcher device is configured support testing of the plurality of SIM cards in conjunction with the wireless device, where the wireless device component testing system is configured to implement testing for the plurality of SIM cards, the wireless device, and a wireless network.
US11985725B2
Techniques, systems, and devices to support small data transfers are described. A first node, such as a gNodeB or an eNodeB, can perform operations that include receiving a resume request from a user equipment (UE) that is in an inactive state, the resume request including a small data indication, where context information for the UE resides at a second node; transmitting a retrieve UE context request to the second node, the retrieve UE context request including the small data indication; receiving a UE context response from the second node; transmitting, by the first node, a resume response to the UE to cause the UE to switch to a connected state; processing uplink data from the UE; and transmitting a release message to the UE to cause the UE to switch to the inactive state. The release message can be based on RRC release information received from the second node.
US11985724B2
A method, mobile device (101) and radio access network RAN (102) are disclosed for suspending and re-establishing a radio resource control (RRC) connection. In some examples, the mobile device (101) indicates a preference to have the RRC connection either suspended or released. In other examples, RAN (102) sends to the mobile device (101) a connection suspend command message instructing the mobile device to suspend a RRC connection with the RAN (102). The mobile device (101), in response to the connection suspend command message, suspends the RRC connection. When the RRC connection is suspended the mobile device (101) cannot transmit or receive user plane data to the RAN (102) and performs functions the same as or similar to idle mode functions. On suspension, RRC connection information is stored and can be used to re-establish the suspended RRC connection.
US11985718B2
The present disclosure relates to a communication method and system for converging a 5th-Generation (5G) communication system for supporting higher data rates beyond a 4th-Generation (4G) system with a technology for Internet of Things (IoT). The present disclosure may be applied to intelligent services based on the 5G communication technology and the IoT-related technology, such as smart home, smart building, smart city, smart car, connected car, health care, digital education, smart retail, security and safety services. Disclosed is a method of operating a user equipment UE in a wireless communication system, including determining a data transmission rate requirement of a vehicle-to-everything (V2X) application and acquiring data rate information according to the required data transmission rate, transmitting the data rate information to a base station and acquiring a sidelink radio link control (RLC) function configuration parameter, and transmitting the acquired sidelink RLC function configuration parameter to another UE.
US11985713B2
The embodiments set forth herein disclose techniques for enabling a user device to seamlessly establish a secure, high-bandwidth wireless connection with a vehicle accessory system to enable the user device to wirelessly stream user interface (UI) information to the vehicle accessory system. To implement this technique, a lower-bandwidth wireless technology (e.g., Bluetooth) is used as an initial means for establishing a Wi-Fi pairing between the user device and the vehicle accessory system. Wi-Fi parameters associated with a Wi-Fi network provided by the vehicle accessory system can be communicated to the user device using the lower-bandwidth wireless technology. A secure Wi-Fi connection can then be established between the user device and the vehicle accessory system using the provided Wi-Fi parameters. The embodiments also disclose a technique for enabling the user device to automatically reconnect with the vehicle accessory system in a seamless manner (e.g., when returning to a vehicle).
US11985704B2
Proposed are a method and apparatus for performing joint transmission in a wireless LAN system. Specifically, an M-AP transmits a C-RTS frame to first and second S-APs. The M-AP receives, from the first and second S-APs, a CTS frame that is a response to the C-RTS frame. The M-AP performs joint transmission on an STA through the first and second S-APs.
US11985703B2
An information transmission method includes: determining grant-free uplink transmission configuration information of at least two target UEs, the grant-free uplink transmission configuration information at least comprising LBT detection configuration information of each of the at least two target UEs, the LBT detection configuration information configured to distinguish respective LBT detection priorities of the at least two target UEs for channel collision avoidance, wherein the at least two target UEs share periodic uplink transmission resources in an unlicensed spectrum; and transmitting, to each of the at least two target UEs, the grant-free uplink transmission configuration information, so that any one of the at least two target UEs performs an LBT detection according to the grant-free uplink transmission configuration information, transmits uplink service data through a currently shared uplink transmission resource after the LBT detection succeeds.
US11985702B2
A method of wireless communication includes performing, by a user equipment (UE) device, a channel sensing operation during a first window of a frame period associated with a wireless communication network. Performing the channel sensing operation includes performing a direction-based scan of one or more beams associated with the wireless communication network, and the channel sensing operation is included in a joint sensing operation performed with a base station. The method further includes, based at least in part on a result of the channel sensing operation, determining whether to perform, during a second window of the frame period, one or more communication operations with the base station.
US11985699B2
A user equipment (UE) selects first and second radio resources from respective first and second pools of radio resources. In one example these are primarily allocated for contention-free and scheduling-based channel access, respectively. Content to duplicate in parallel communications is selected based at least on a characteristic of uplink data waiting to be sent (such as size) and/or on the selected first and second radio resources (such as timing difference between them). The UE transmits the selected content on each of the selected first and second radio resources. In the examples the content to duplicate was selected from among the uplink data to send and a scheduling request message. In various embodiments one of these transmissions indicates it's a duplicate, and the duplicated scheduling request message is transmitted on the first resource with the uplink data. These teachings are particularly useful for URLLC data.
US11985696B2
The present specification relates to an apparatus and method for performing random access. This specification discloses a method for performing random access by a terminal in a non-terrestrial network system, the method comprising the steps of: performing a search for a cell of a non-terrestrial network on the basis of a synchronization signal block transmitted from a non-terrestrial network node; after the search for the cell is completed, receiving, from the non-terrestrial network node, random access-related information about the cell of the non-terrestrial network; generating a random access preamble on the basis of a frequency resource area of a random access channel related to the cell of the non-terrestrial network; and transmitting the generated random access preamble to the non-terrestrial network node. Performance degradation can be reduced when random access is performed in a non-terrestrial network system.
US11985688B2
Embodiments of this application provide a transmission direction configuration method, a device, and a system, and relate to the field of communications technologies. A specific solution is as follows: a terminal device receives first indication information from a network device, the first indication information is used to indicate a configuration of uplink and downlink transmission directions, the configuration is used to describe types, a number, and distribution of resource elements comprised in one period, the resource granularity comprises a time domain granularity, the time domain granularity comprises (OFDM) symbol, the types of the resource elements comprise at least one of an uplink resource element, a downlink resource element, or a switch resource element between the downlink resource element and the uplink resource element; and performs information transmission indicated by the first indication information, of the uplink and/or downlink transmission directions.
US11985675B2
A method for transmitting an MTC physical downlink control channel (MPDCCH) by a base station in a wireless communication system supporting machine type communication (MTC). A base station transmits, to a terminal. configuration information related to the transmission of an MPDCCH and maps the MPDCCH onto multiple resource elements (REs) of at least one first symbol constituting a first slot of a special subframe. The special subframe is a subframe in which, among symbols constituting the subframe, the number of symbols for data transmission is smaller than or equal to a predetermined number. The base station transmits the MPDCCH to the terminal over the multiple resource elements, wherein the mapping step is performed by copying at least one second symbol of a second slot adjacent to the first slot onto the at least one first symbol.
US11985667B2
Aspects of the disclosure provide a method for multiplexing transmission of information and apparatus, a method for receiving information and apparatus, user equipment (UE), a base station and a computer-readable storage medium. The method for multiplexing transmission of information can include, when a physical uplink control channel (PUCCH) and a plurality of physical uplink shared channels (PUSCHs) have an overlapping portion in a time-domain, selecting, according to a selection criterion, a PUSCH for multiplexing transmission of uplink control information (UCI) carried in the PUCCH. The method can further include using the selected PUSCH for the multiplexing transmission of the UCI and transmission content of the selected PUSCH. According to the embodiments of the present disclosure, when the PUCCH and the plurality of PUSCHs have an overlapping portion in the time-domain, a suitable PUSCH can be selected for the multiplexing transmission.
US11985662B2
A user equipment (UE) includes one or more non-transitory computer-readable media containing computer-executable instructions embodied therein, and at least one processor coupled to the one or more non-transitory computer-readable media. The at least one processor configured to execute the computer-executable instructions to receive downlink control information (DCI) on a downlink (DL) channel of a non-terrestrial network (NTN), the DL channel reception ending in a first slot, and transmit an uplink (UL) transmission on a UL channel of the NTN in a second slot. The second slot is separate from the first slot by a timing offset, where a duration of the timing offset is dependent on a type of the UL transmission and a numerology of the UL transmission.
US11985659B2
The present application relates to devices and components including apparatus, systems, and methods for control signaling and reference signal transmission in wireless networks.
US11985657B2
Methods, systems, and devices for wireless communications are described. A user equipment (UE) may report, to a base station, a capability of the UE to support interleaving physical uplink shared channel (PUSCH) messages. The base station may schedule two or more PUSCH transmissions having temporally overlapping durations based on the reported capability of the UE, and the UE may transmit interleaved PUSCH messages scheduled by the base station. In some cases, demodulation reference signal (DMRS) bundling may be enabled for PUSCH transmissions. A UE may be incapable of both performing DMRS bundling for PUSCH transmissions and transmitting interleaved PUSCH transmissions. In some case, a UE may disable DMRS bundling, drop a scheduled PUSCH transmission, transmit PUSCH messages sequentially (e.g., not interleaved), and/or indicate an error to the base station if the UE receives uplink grants scheduling two or more PUSCH transmissions having temporally overlapping durations.
US11985656B2
A wireless communication system and, more particularly, a method and an apparatus therefor, the method including the steps of: triggering power headroom reporting at a first time point; determining power headroom (PH) information of a cell on the basis of actual transmission or a reference format, on the basis of an uplink (UL) scheduling status; and transmitting the PH information of the cell at a second time point, via a configured grant based physical uplink shared channel (PUSCH), wherein the UL scheduling status includes downlink control information reception from the first time point to a third time point which exists before the second time point, and a time interval between the third time point and the second time point is determined on the basis of a PUSCH processing time.
US11985655B2
The present disclosure proposes a method, a network element, and a non-transitory computer readable storage medium of scheduling a UL RS resource for an MU-MIMO enabled UE. The method is performed at a network element to schedule a UL RS resource for an MU-MIMO enabled UE. The method comprises: determining whether channel status information for the UE is known or not; assigning a first RS resource from a first RS group to the UE in response to determining that the channel status information for the UE is unknown and that the first RS resource is not assigned to any other UE; and assigning a second RS resource from a second RS group to the UE in response to determining that the channel status information for the UE is known.
US11985651B2
Disclosed are methods, systems, apparatus, and computer programs for determining availability of soft time-domain resources for a node in an integrated access and backhaul (IAB) network. In one aspect, a method includes receiving a Radio Resource Control (RRC) message from the IAB donor; determining, based on the RRC message, whether soft time-domain resources are available for the IAB node; and in response to determining that soft time-domain resources are available, scheduling a transmission with a child node using the available soft time-domain resources.
US11985647B2
Methods, systems, and devices for sidelink groupcast communications are described. A user equipment (UE) may transmit a beam training request to a base station to determine beams for use with other UEs in a sidelink groupcast communications group. The base station may receive the beam training request, identify wireless resources that a group of UEs may use to perform beam training, and may transmit a beam training grant to each UE of the group of UEs. The UE may transmit a number of training beams using the wireless resources provided in the beam training grant, and the other UEs may measure received signals on the wireless resources to identify one or more beams. Each UE may provide a beam training report to the base station. The base station, based on the beam training reports, may determine beams and resources for use in the groupcast sidelink communications.
US11985636B2
Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a user equipment (UE) may receive a downlink communication. The UE may receive a configuration identifying a first uplink resource for a hybrid automatic repeat request acknowledgement (HARQ-ACK) and a second uplink resource for multiplexing channel state information (CSI) reports. The UE may receive a downlink communication. The UE may determine that a HARQ-ACK for the downlink communication is to be multiplexed with one or more CSI reports on the second uplink resource. The UE may determine that an error has occurred based at least in part on a determination that the second uplink resource configured is in a different sub-slot than the first uplink resource. Numerous other aspects are provided.
US11985630B2
Methods, apparatus and systems for reducing access delay in a wireless communication are disclosed. In one embodiment, a method performed by a wireless communication node is disclosed. The method comprises: configuring a plurality of transmission resources for an access of a wireless communication device to the wireless communication node; and receiving, from the wireless communication device on a first transmission resource among the plurality of transmission resources, a first message comprising a preamble for the access to the wireless communication node.
US11985617B2
Aspects relate to reporting timing adjustment for full-duplex (FD) communications. A method by a user equipment (UE) may include receiving a first timing advance signal from a base station, determining, based on the first timing advance signal, a timing difference between a downlink signal and an uplink signal is not within a threshold, transmitting a timing report to the base station, including the determined timing difference, and receiving, from the base station, an updated timing advance signal for full-duplex (FD) communication based on the timing report.
US11985598B2
Apparatus, methods, and computer-readable media for facilitating power savings while monitoring for paging messages and wakeup signals are disclosed herein. An example method for wireless communication at a UE includes receiving an indication of an active BWP associated with an ON duration of a DRX cycle. The example method also includes monitoring a first bandwidth for a WUS at a WUS occasion of the DRX cycle, the first bandwidth corresponding to a subset of the active BWP. The example method also includes transitioning to an awake state for the ON duration when the WUS is received at the WUS occasion.
US11985595B2
A wakeup circuit operable in a low-power wireless device is provided. The wakeup circuit includes at least one radio frequency rectifier configured to output a rising transient voltage in response to existence of a RF signal received at an antenna of the wireless device; and a detector configured to output a wakeup signal when an input voltage level of the detector is higher than a reference voltage signal, wherein a signal output by the detector upon detection of a wakeup signal causes resetting each of the at least one rectifier upon detection of the wakeup signal; and wherein the wakeup circuit is coupled to an antenna interface of the wireless device.
US11985594B2
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 configuration of a minimum slot offset based at least in part on a determination of a minimum wake-up signal (WUS) gap capability associated with the UE, wherein the minimum WUS gap capability corresponds to a capability of the UE to support a WUS gap having a minimum gap size, wherein the minimum slot offset indicates a minimum time period between a physical downlink control channel (PDCCH) occasion and a physical downlink shared channel (PDSCH) occasion scheduled by the PDCCH; and monitor the PDCCH occasion for a downlink grant based at least in part on the configuration. Numerous other aspects are provided.
US11985589B2
A mobility management network element in a visited network performs a method in a home-routed roaming operation to facilitate a switching of a terminal in a session to the visited network. The mobility management network element obtains single network slice selection assistance information (S-NSSAI) for a home network of the terminal corresponding to the session of the terminal. The mobility management network element also obtains S-NSSAI for the visited network corresponding to the session of the terminal, according to a mapping relationship between the S-NSSAI for the home network and the S-NSSAI for the visited network. The mobility management network element then sends the S-NSSAI for the visited network to an access device of the terminal in the visited network, for the access device to process the session.
US11985588B2
The present specification relates to a high-efficiency wireless LAN standard operating in a new band. A reception station (STA) according to one embodiment of the present specification can carry out a step of receiving a discovery frame via a 2.4 GHz band or 5 GHz band from a first access point (AP), wherein the discovery frame includes information related to a second AP operating in a 6 GHz band. The reception STA can carry out an association procedure for the second AP operating in the 6 GHz band on the basis of the received information.
US11985582B2
Systems and methods present practical applications to directing emergency alerts from cellular-based message distribution systems to distributed desktop applications via a desktop application gateway. Logic in the desktop applications and their corresponding IP network gateways for the desktop application may direct alerts from the cellular-based system to distributed desktop applications having a connection to the gateway. A distributed application may determine a location of the user and include enhancements to display the alert at a user's computing device. The gateway for the distributed application may store the location information for each logged-in user or registered instance of the user. An interface between the cell broadcast center and the distributed application gateway may allow the gateway to receive the alert, including a region for distributing the alert, from the cell broadcast center, and send the alert to all registered users with a location matching the alert region.
US11985566B2
An Automatic Emergency Call Initiator (AECI) initiates an automatic emergency call protocol on a mobile communication system, which can be done using signaling messages. The user uses the AECI to initiate the call on a mobile station. GPS or other location data is automatically determined. Data is stored on an Emergency Notification Server (ENS) associated with an event identifier for easy retrieval or notification to emergency responders. The ENS generates an automated call to a call center and also supports the automatic emergency call protocol by storing GPS and identifying info on mobile stations meeting location criteria of the AECI initiated call. The ENS can also tag a mobile station to continue tracking mobile stations coming within a specified distance of the mobile station. A security alert protocol for predetermined mobile stations detected by a network can also be implemented using the ENS.
US11985555B2
A method by a user equipment in a wireless communication system includes receiving an access command from a source node, the access command instructing the UE to access a target cell and including an access configuration specifying an access method without random access and one or more valid target cell beams for which the access configuration is valid at the target cell, and accessing the target cell in response to the access command.
US11985548B2
Techniques are described to configure a channel structure for a random-access procedure. For example, a wireless communication method includes communicates, by a first device, a channel structure to a second device, where the channel structure includes a first set of resources reserved for a first message (e.g., a preamble), a second set of resources reserved for a second message (e.g., a payload), or a time duration gap between the first set of resources and the second set of resources. The wireless communication method also includes receiving by the first device the first message and the second message at the configured first and second set of resources, respectively.
US11985532B2
A communication system includes: a communication device configured to communicate with a server external to a vehicle; and a control device. The control device is configured to: control the communication device to receive predetermined data from the server while the vehicle is traveling along a travel route to a destination; acquire first and second sections among the travel route; control the communication device to receive the data while the vehicle is traveling in the first section; and control the communication device in such a way that an interruption process is completed before the vehicle travels in the second section. The first section is a section where the data is received. The second section is a section where the data is not received. The interruption process is a process of interrupting the reception of the data in a resumable state.
US11985531B2
Methods, systems, and devices for wireless communications are described. A user equipment (UE) may receive, from a base station, a configuration message indicating a first reporting quantity type and a second reporting quantity type for generating a measurement report. The UE may determine a measurement payload size to use for generating a measurement payload for the first reporting quantity type and the second reporting quantity type. The UE may measure a first set of resources in accordance with the first reporting quantity type and a second set of resources in accordance with the second reporting quantity type. The UE may transmit, to the base station, the measurement report including a first measurement payload having the measurement payload size for the first reporting quantity type and a second measurement payload having the measurement payload size for the second reporting quantity type.
US11985530B2
The present application relates to devices and components including apparatus, systems, and methods for performing body proximity sensing operations based on uplink or measurement gaps.
US11985529B2
A plurality of access points configured to communicate with a subordinate wireless LAN terminal, an information collecting device configured to collect a frame respectively transmitted and received between the plurality of access points and the wireless LAN terminal, and extract information on communication quality of an access point of the plurality of access points from a header of the frame, and an information collecting server configured to acquire the information on the communication quality of the access point from the information collecting device, analyze the information to determine whether the communication quality is good or bad for each of the plurality of access points, and execute processing of externally displaying or notifying a result that is determined are included.
US11985525B2
Systems and methods are disclosed herein for handling measurement configurations for a power saving state and/or handling associated measurements, upon receiving a message from a network node while performing measurements in accordance with the measurement configurations while in the power saving state. Embodiments of a method performed by a wireless device in a cellular communications system are disclosed. In some embodiments, a method performed by a wireless device in a cellular communications system includes receiving at least one measurement configuration for a power saving state and performing measurements in the power saving state in accordance with the at least one measurement configuration. The method further includes, while performing the measurements in the power saving state, receiving a message from a network node and performing one or more actions to handle the at least one measurement configuration, the measurements, or both the measurement configuration and the measurements, upon receiving the message.
US11985524B2
A configuration for a UE that measures CLI to determine the reception timing of the CLI signal transmitted from a UE in another cell. Aspects of a method, apparatus, and computer-readable medium are presented herein that provide a solution to the problem of measuring CLI signals by improving the manner in which a wireless device determines the reception timing of a transmitted CLI signal. An apparatus receives a first downlink signal from a first base station. The apparatus receiving a second downlink signal from a second base station. The apparatus determines a CLI signal measurement from a second UE received at the first UE based on a propagation delay difference, the propagation delay difference being based on the first downlink signal and the second downlink signal.
US11985522B2
An alert that is generated by a first orchestrator associated with a first subsystem or received from one or more distributed orchestrators that are associated with one or more corresponding subsystems is analyzed. The alert is triggered by a change in behavior determined by a behavioral analysis algorithm associated with the first orchestrator or corresponding behavior analysis algorithms associated with the one or more distributed orchestrators. It is determined whether an alert is indicative of a false positive based on an objective associated with the first orchestrator, an algorithm associated with the first orchestrator and one or more constraints associated with the first orchestrator. The alert is filtered in response to determining that the alert is indicative of the false positive.
US11985513B2
Provided is a radio communication device capable of reducing interference, caused by non-SR transmission, with a basic service set (BSS) performing spatial reuse (SR) transmission. An SR transmission resource control unit (107) of the radio communication device (SR initiator) (100) determines transmission resources for an SR signal to be transmitted by means of SR to a second BSS other than a first BSS to which the radio communication device (100) belongs on the basis of radio quality information transmitted from other radio communication devices (SR responders) in the first BSS. A radio transmission/reception unit (101) transmits the SR signal by using the determined transmission resources.
US11985504B2
The present disclosure relates to the area of telecommunication, and in particular to methods for reporting network dysfunction in a wireless communication network (1). According to a first aspect of embodiments herein it is provided a method, for use in a wireless communication device (10), for reporting network dysfunction. The method comprises obtaining information defining radio communication properties (e.g. use of a relaying wireless communication device (30)) for use when reporting network dysfunction in a wireless communication network (1). The method further comprises detecting network dysfunction, and sending a report indicating the detected network dysfunction e.g. to a radio network node 20 using the obtained radio communication properties. The disclosure also relates to a corresponding radio network node (20) and wireless communication devices (10), (30) and to a computer program for implementing the proposed method.
US11985501B2
A Third Generation Partnership Project (3GPP) gateway serves a non-Third Generation Partnership Project (non-3GPP) user device over a 3GPP N1 link. The gateway receives a transaction request from the non-3GPP user device. The gateway translates the transaction request into a 3GPP request. The gateway transfers the 3GPP request to a 3GPP network and receives an authentication request from the 3GPP network. The gateway generates and transfers an authentication response based on the transaction request and the authentication request to the 3GPP network. In response to the authentication, the gateway establishes the 3GPP N1 link with the 3GPP network for the non-3GPP user device. The gateway exchanges user data with the non-3GPP user device. The gateway interworks the user data and N1 signaling. The gateway exchanges the N1 signaling with the 3GPP network. The 3GPP network interworks the N1 signaling and the user data and exchanges the user data.
US11985500B2
In one embodiment, a network interface is operable to receive a communication request over a communication link of a radio access network. A processor communicatively coupled to the network interface receives the communication request from a first networked device over a communication link of a radio access network via a first communication protocol. The communication request comprises caller information. The processor then verifies caller information and obtains an authenticator, associated with the caller information, that indicates the communication request is authorized to be routed to a second networked device. The second networked device is configured to receive communications via a second communication protocol.
US11985495B2
Various implementations include methods and related systems for controlling the audio output in a vehicle cabin. In one implementation, a method includes: receiving a first input indicative of a first audio output at a first location in the vehicle cabin; displaying a range of outputs available to a user in a second location in the vehicle cabin; receiving a second input indicative of a second audio output within the range of outputs at the second location; and outputting the first audio output and the second audio output in the vehicle cabin.
US11985492B2
It is an object to provide a speaker including a strong magnetic circuit and a method of manufacturing a speaker. To achieve the object, a speaker according to the present technology includes an outer magnet and an inner magnet. The outer magnet has a ring shape and is magnetized along an axial direction of the ring shape. The inner magnet has a circular outer shape when viewed from the axial direction of the outer magnet, is magnetized in a direction opposite to a direction of the outer magnet along the axial direction, and is disposed inside the outer magnet through a gap.
US11985491B2
The invention relates to an evaluation device (6) for analysing a public address system (1), the public address system (1) comprising at least one loudspeaker (3a-3d) and at least one audio signal output unit (4), the loudspeaker (3a-3d) having an impedance plot (10), the evaluation device (6) comprising a neural network (11), the neural network (11) being trained to determine a loudspeaker type on the basis of an impedance plot (10), the evaluation device (4) being provided with the impedance plot (10) of the loudspeaker (3a-3d) and an additional parameter, and the evaluation device being designed to analyse the loudspeaker (3a-3d) and/or determine the loudspeaker type by means of the neural network (11) on the basis of the provided impedance plot (10) and the additional parameter.
US11985490B2
Herein described may be an embodiment of a surround sound headphone device for the production of surround sound which may comprise a first and second headphone assembly which may have acoustic chamber surrounds. The acoustic chamber surrounds may envelope a first and second acoustic chamber assembly. The first and second acoustic chamber assembly may have an acoustic chamber dividing partition, a one or more than one high frequency external port, a one or more than one low frequency external port, a one or more than one low frequency high frequency port, a one or more than one high frequency high frequency port, a one or more than one high frequency auditory source and, a one or more than one low frequency auditory source.
US11985488B2
Embodiments include a processing device communicatively coupled to a plurality of audio devices comprising at least one microphone and at least one speaker, and to a digital signal processing (DSP) component having a plurality of audio input channels for receiving audio signals captured by the at least one microphone, the processing device being configured to identify one or more of the audio devices based on a unique identifier associated with each of the one or more audio devices; obtain device information from each identified audio device; and adjust one or more settings of the DSP component based on the device information. A computer-implemented method of automatically configuring an audio conferencing system, comprising a digital signal processing (DSP) component and a plurality of audio devices including at least one speaker and at least one microphone, is also provided.
US11985487B2
Methods, apparatus, systems, and articles of manufacture are disclosed to enhance and audio signal. An example apparatus includes processor circuitry to at least determine a first signal spectrum corresponding to a first microphone, the first signal spectrum identifying first audio, determine a second signal spectrum corresponding to a second microphone, the second signal spectrum identifying the first audio, the second spectrum different from the first spectrum, the first microphone different from the second microphone, the second signal spectrum having a first spectral distance to the first signal spectrum, calculate a mask based on the first and second signal spectrums, and generate a third signal spectrum corresponding to the first microphone utilizing the mask and the first signal spectrum, the third signal spectrum different from the first signal spectrum, the third signal spectrum having a second spectral distance to the second signal spectrum, the second spectral distance less than the first spectral distance.
US11985484B2
A ready-made device attachable to an outer ear achieving excellent feeling of attachment and high stability is provided. The device attachable to an outer ear according to this invention includes an inserting part of a tubular shape to be inserted into an external auditory canal and a setting part to be set in a cavity of concha, and the inserting part and the setting part are disposed on an imaginary spherical surface, and the inserting part is rotatable around a longitudinal axis thereof inside the external auditory canal. Since the setting part is arranged on the same imaginary spherical surface as the inserting part, the setting part is disposed along an inner wall of a cavity of concha in a state where the inserting part is inside the external auditory canal.
US11985468B2
Disclosed are a method and a device for controlling a serial interface of a wireless earphone, a wireless earphone, and a computer readable storage medium. The method includes: disabling a serial interface function of the wireless earphone in a case that a first predetermined condition is met, where the first predetermined condition includes that the wireless earphone is outside a charging case, or the wireless earphone is in the charging case and a lid of the charging case is closed; and enabling the serial interface function of the wireless earphone in a case that a second predetermined condition is met, where the second predetermined condition includes that the wireless earphone is in the charging case and the lid of the charging case is open.
US11985467B2
At least one exemplary embodiment is directed to a method of determining hearing loss using audio cues whose spectrum is orthogonal to each other to identify a wearer's hearing loss, and using the information to adjust audio to normal listening levels.
US11985464B2
Systems, methods, and non-transitory computer-readable storage media for determining when to wirelessly communicatively couple together a pair of untethered wireless audio output devices and for determining when to erase a connection history stored on one or both of the wireless audio output devices.
US11985458B2
A first wireless speaker and microphone device paired with an information handling system comprising a microphone, speaker, wireless radio system for conducting a first pairing with the information handling system for wireless communications, and memory for storing a pairing profile for the first pairing. A microcontroller to operatively couple the first wireless speaker and microphone device to a second wireless speaker and microphone device by conducting a second pairing between the first and second wireless speaker and microphone devices, and cloning and transmitting the pairing profile from the first pairing to the second wireless speaker and microphone device. The first wireless speaker and microphone device to receive a switching command to stop audio transmission and reception at the first wireless speaker and microphone device to allow transmission and reception at the second wireless speaker and microphone device using a cloned wireless link established with the cloned pairing profile.
US11985449B2
Provided are a medical image processing device, a medical image processing method, and an endoscope system that make it easy to compare a region of interest and its peripheral region with each other and make it unlikely to miss the region of interest if the region of interest in a time-series image is reported by using figures. A coordinates calculating unit (43) that calculates, on the basis of region-of-interest information indicating a region of interest in a time-series image, a plurality of sets of coordinates of interest on an outline of a polygon or circle having a symmetric shape that surrounds the region of interest. A reporting information display control unit (45B) that superposes figures on the basis of the calculated plurality of sets of coordinates of interest when superposing the figures for reporting the region of interest on the time-series image. Herein, the figures have a size that does not change with respect to a size of the region of interest.
US11985448B2
A camera integrates a magnet at one end of a housing to magnetically attract and attach the camera to a front side of a peripheral display, such as to support a video conference through an information handling system interfaced with the display. Camera position at a display panel front face is detected, such as with a touchscreen of the display panel or an infrared curtain presented from the camera dock along the display panel front face. Presentation of content at the display is adjusted based upon the camera position, such as to enhance a video conference by placing a window with an active speaker proximate the camera so that an end user of camera appears to be looking the speaker in the eye.
US11985442B2
Bias circuit elements for applying voltages/currents to a photodetector are described. Bias circuit elements described are active devices, e.g. mosfets, directly connected to the photodetector signal point, which inject noise that will be amplified/integrated. Lowering 1/f noise in these bias devices uses multiple parallel mosfets and switching the parallel mosfets gates between a bias activation level signal and a voltage sufficient to drive the mosfet into accumulation Gate switching may be accomplished by at least two partially out of phase clocking signals, with at least one parallel mosfet applying bias while another is in accumulation in continuously switched time periods. Gate switching at a frequency higher than the imaging bandwidth, will have negligible effect on the image signal. During the accumulation phase traps present within the conducting channel of each MOSFET will be depopulated, essentially resetting the MOSFET's 1/f noise, allowing for long integration times while controlling 1/f noise.
US11985423B2
An imaging element incorporates a memory and a processor. The memory stores image data obtained by performing imaging at a first frame rate. The processor is configured to output the image data at a second frame rate. In addition, the processor derives shake degree information indicating a degree of shake included in an image indicated by the image data, using the image data, and outputs the derived shake degree information at a rate greater than or equal to the second frame rate. The first frame rate is a frame rate greater than or equal to the second frame rate.
US11985408B2
A camera module includes optical lenses, a light filter, a circuit board, a photosensitive chip conductively connected to the circuit board, and a bonding portion. The bonding portion has a lower bonding side, a top bonding surface, and a light path. The lower bonding side of the bonding portion is bonded to a circuit board assembly, and the bonding portion surrounds a photosensitive area of the photosensitive chip, so that the photosensitive area of the photosensitive chip is exposed to the light path of the bonding portion. A periphery of the light filter is bonded to the top bonding surface of the bonding portion, so that the light filter is kept in the light path of the photosensitive chip by the bonding portion. The optical lenses are kept in the photosensitive path of the photosensitive chip, effectively reducing the height of the camera module.
US11985399B2
A photographing apparatus and an inspection device are provided. The photographing apparatus comprises a camera, a light supplementing structure, and a closed housing; the camera is provided with a lens, and positioned in and connected to the housing; the housing is provided with at least one photographing portion configured to be attached to an object to be photographed, and a space is formed between the lens and the photographing portion; the light supplementing structure is positioned in and connected to the housing, the light supplementing structure is configured to emit light to said object through the space and the photographing portion, and the lens is configured to capture an image of said object via the photographing portion. The inspection device comprises a rack and the photographing apparatus, and the housing is connected to the rack.
US11985398B2
A system for recording video in a wearable device is provided. The system includes: a barrel to provide mechanical support for one or more components in the system, a camera, disposed inside the barrel, wherein the camera includes a front lens with a field of view pointed to an onlooker outside of the wearable device, a cover glass mounted on the barrel, the cover glass configured to protect the front lens and one or more components in the system, a light emitting device, disposed inside the barrel, and a light pipe configured to receive a light from the light emitting device and to transmit the light through an overlap area on the cover glass and to the onlooker, when the camera is recording a scene outside of the wearable device, within the field of view, wherein the camera field of view comprises at least a portion of the overlap area.
US11985393B2
In one aspect, a method includes (i) identifying a plurality of upcoming content-modification opportunities for a content-presentation device, each respective content-modification opportunity corresponding to a respective underlying advertisement that is available for replacement by a respective supplemental advertisement; (ii) using the identified upcoming content-modification opportunities as a basis for determining expected values for a plurality of supplemental advertisements; (iii) selecting a subset of supplemental advertisements from among the plurality of supplemental advertisements based on the subset having expected values above a threshold value; (iv) in advance of the upcoming content-modification opportunities, sending the subset of supplemental advertisements to be locally stored at the content-presentation device; and (v) upon occurrence of one of the content-modification opportunities, causing the content-presentation device to replace one of the respective underlying advertisements with one of the locally stored supplemental advertisements.
US11985386B2
An interactive user interface, such as a remote terminal user interface, is compressed prior to transmission to a video client. The compression may be performed independently of any other video that may be simultaneously transmitted to the video client. At the client side, two compressed video streams (remote user interface and video content) may be decompressed independently of each other. In some cases, technology already existing in some client devices, such as picture-in-picture (PiP) capability, may be leveraged to decompress the received compressed remote user interface without needing to modify the hardware of those client devices.
US11985382B2
Methods, apparatus, systems and articles of manufacture are disclosed to validate reference media assets in media identification systems. Example apparatus disclosed herein are to identify respective instances of media represented by corresponding candidate media resources to be verified, and cause the respective instances of media to be presented and monitored by corresponding ones of a plurality of virtual machines. Disclosed example apparatus are also to perform a comparison of a first one of the candidate media resources to a corresponding test media resource generated by a first one of the virtual machines that played and monitored a first one of the instances of media represented by the first one of the candidate media resources. Disclosed example apparatus are further to validate the first one of the candidate media resources based on the comparison.
US11985377B2
Disclosed herein are system, apparatus, article of manufacture, method and/or computer program product embodiments, and/or combinations and sub-combinations thereof, for a media device receiving from a source media device a request about a media capability of the media device, and identifying a data block indicating a default capability of the media device. The media device can further select a data unit of the data block to be replaced based on a media capability of a downstream media device attached to the media device. Afterward, the media device can modify the data block by replacing the selected data unit by information indicating the media capability of the downstream media device to generate a modified data block to represent a combined media capability of the media device and the downstream media device. In addition, the media device can send the modified data block to the source media device.
US11985374B2
A method of an electronic device for controlling sharing of video and an electronic device adapted to the method are provided. The electronic device includes a display, a communication circuit, a control circuit, and a memory electrically connected to the control circuit, where the memory stores instructions enabling the control circuit to control the communication circuit to transmit a first video to an external device connected to the electronic device, when a video sharing function is executed, display an icon on the display, when transmitting the first video, and control the communication circuit to pause the transmission of the first video and to transmit a second video to the external device, in response to a first input applied to the icon.
US11985373B2
Provided are a television receiving apparatus and a voice signal processing method. The television receiving apparatus includes: a broadcast signal receiving and processing unit configured to process broadcast signals according to broadcast standards; a communication unit configured to connect with a network and communicate with one or more servers and one or more external devices; monitor configured to display an image; speaker configured to output voice; microphone configured to receive a voice input; interface unit configured to receive a command signal from outside or output a signal to an external device; control unit in connection with the interface unit, the communication unit, the monitor, the speaker, the broadcast signal receiving and processing unit and configured to generate control signal for a target controlled object based on voice input from outside and send the control signal to the target controlled object to implement a control operation corresponding to the voice input.
US11985342B2
A method for video encoding includes determining a corresponding motion vector for each of multiple control points of a base predictor. The method further includes determining a corresponding motion vector difference for each of the multiple control points of the base predictor based on the determined motion vector for each respective control point. The method further includes generating prediction information of the current block to be included in a coded video bitstream. The prediction information includes (i) a usage flag indicative of the affine merge mode with offset, (ii) offset parameters defining the determined corresponding motion vector difference for each of the one or more of the control points, and (iii) a zero motion vector difference flag for the multiple control points of the base predictor. The zero motion vector difference flag indicates whether offset parameters for the respective control point are provided in the prediction information.
US11985341B2
A technique for encoding video is provided. The technique includes for a first portion of a first frame that is encoded by a first encoder in parallel with a second portion of the first frame that is encoded by a second encoder, determining a historical complexity distribution; determining a first bit budget for the first portion of the first frame based on the historical complexity distribution; and encoding the first portion of the first frame by the first encoder, based on the first bit budget.
US11985326B2
A video decoding method includes, determining a center motion vector of a current block by using a base motion vector of the current block based on affine model-based inter-prediction being performed in the current block, determining a reference range of an area to be referred to, with respect to the current block, based on a size of the current block, based on a reference area having a size of the reference range with respect to a point in a reference picture of the current block, the point being indicated by a central motion vector of the current block, deviating from or including a boundary of the reference picture, changing the reference area by parallelly translating the reference area into a current picture, and determining prediction samples of sub-blocks of the current block in the changed reference area from the reference picture.
US11985322B2
The general intra prediction process is unnecessarily complicated with inclusion of the reference sample filtering. This application provides solutions for this problem. A method for intra prediction is provided. The method includes: during an intra predicted sample generation stage, obtaining a filtering indication, which indicates whether a filtered value or an unfiltered value of reference samples of the current coding block will be used. When the value of the filtering indication is true, a prediction sample is generated by using the filtered value of the reference samples based on the planar mode. When the value of the filtering indication is false, a prediction sample is generated by using the unfiltered value of the reference samples based on the planar mode. As a result, the reference sample filtering stage can be fully removed or can be combined with other stage.
US11985320B2
It is provided a method of video coding implemented in a decoding device or an encoding device, the method comprising: obtaining initial motion vectors for a current block; obtaining first predictions for a sample value in the current block based on the initial motion vectors; calculating a first matching cost according to the first predictions; determining whether an optical flow refinement process should be performed or not, according to at least one preset condition, the at least one preset condition comprising a condition of whether the calculated first matching cost is equal to or larger than a threshold value; and performing an optical flow refinement process for obtaining a final inter prediction for the sample value in the current block, when it is determined that the optical flow refinement process should be performed.
US11985319B2
There is disclosed a computer-implemented method for lossy image or video compression, transmission and decoding, the method including the steps of: (i) receiving an input image at a first computer system; (ii) encoding the input image using a first trained neural network, using the first computer system, to produce a latent representation; (iii) quantizing the latent representation using the first computer system to produce a quantized latent; (iv) entropy encoding the quantized latent into a bitstream, using the first computer system; (v) transmitting the bitstream to a second computer system; (vi) the second computer system entropy decoding the bitstream to produce the quantized latent; (vii) the second computer system using a second trained neural network to produce an output image from the quantized latent, wherein the output image is an approximation of the input image. Related computer-implemented methods, systems, computer-implemented training methods and computer program products are disclosed.
US11985316B2
Methods for the real-time, reversible compression of high dynamic range videos, allowing high dynamic range videos to be broadcast through standard dynamic range channels. The methods include streaming pixel values from at least one image sensor through a pipeline on a processor. The pipeline includes an HDR function that combines the streaming pixel values in real-time into an HDR stream and a transfer function that converts the HDR stream to an SDR video stream. The method further includes transmitting the SDR video stream to a receiver in real time for display as a video.
US11985309B2
A picture decoding method comprises: partitioning a picture is partitioned, and a luma component intra prediction mode and a chroma component intra prediction mode of the current coding block are determined; when the chroma component intra prediction mode indicates using a luma component of the current coding block to determine a prediction value of a chroma component of the current coding block, a prediction block of the chroma component of the current coding block is determined according to the luma component intra prediction mode; and prediction refinement is performed on the prediction block of the chroma component of the current coding block, so as to obtain a refined prediction block of the chroma component of the current coding block.
US11985306B2
Different implementations are described, particularly implementations for video encoding and decoding based on linear weighted intra prediction, also called matrix based intra prediction, are presented. Accordingly, the encoding or decoding comprises obtaining intra predicted samples of a block from a selected weight matrix and associated bias and from a set of neighboring reference samples; wherein any coefficient of the selected weight matrix is a power of two. According to relaxed version, not all but only a part of the coefficients of the selected weight matrix is a power of two. Advantageously, such arrangement allows to reduce the amount of memory for storing data and to reduce the complexity of the intra prediction samples computation.
US11985303B2
A context modeling method includes: determining, for a current block, whether a first preset condition is satisfied and whether a second preset condition is satisfied, where the first preset condition is a preset condition related to a first neighboring block neighboring to the current block in a first direction, the second preset condition is a preset condition related to a second neighboring block neighboring to the current block in a second direction; determining a subclass index of a context model of a first flag of the current block based on the height and the width of the current block; and determining the context model of the first flag of the current block based on a satisfaction status of the first preset condition, a satisfaction status of the second preset condition, and the subclass index of the context model of the first flag.
US11985299B2
A calibration device includes one or more processors. The one or more processors acquire a measured value obtained when a spectroscopic light source configured to output uniform light with a predetermined spectroscopic wavelength and configured to change the spectroscopic wavelength outputs the uniform light while changing the spectroscopic wavelength of the uniform light and a spectroscopic measurement unit to be calibrated spectroscopically measures the outputted uniform light. The one or more processors acquire a target value for each of the spectroscopic wavelengths obtained when the spectroscopic measurement unit measures the uniform light. The one or more processors calculate a transformation matrix for transforming the measured value, based on the measured value and the target value.
US11985293B2
Systems and methods for calibrating an array camera are disclosed. Systems and methods for calibrating an array camera in accordance with embodiments of this invention include the capturing of an image of a test pattern with the array camera such that each imaging component in the array camera captures an image of the test pattern. The image of the test pattern captured by a reference imaging component is then used to derive calibration information for the reference component. A corrected image of the test pattern for the reference component is then generated from the calibration information and the image of the test pattern captured by the reference imaging component. The corrected image is then used with the images captured by each of the associate imaging components associated with the reference component to generate calibration information for the associate imaging components.
US11985289B2
An image forming apparatus performs the following. An imaging range imaged by each of the plurality of imaging sensors includes an overlapping portion between the imaging sensors adjacent in a width direction orthogonal to a conveying direction along the conveying path. A hardware processor performs a calibration operation of a first sensor based on a color measuring result of a predetermined inspection image measured within a standard imaging range of the first sensor among the plurality of imaging sensors, and a standard imaging result within the standard imaging range imaging an inspection image with a same pattern as the inspection image. The hardware processor compares imaging results by the plurality of imaging sensors in the overlapping portions and performs the calibration operation of another sensor different from the first sensor using the standard imaging result as a standard.
US11985288B2
An image processing apparatus includes an acquisition unit configured to acquire first image data indicating a reference image as a target print result, and second image data indicating a target image to be inspected, and a processing unit configured to inspect the target image by performing a correction on a second partial region adjacent to a first partial region to enhance the second partial region relative to a difference image representing a difference between the reference image and the target image based on the first image data and the second image data, the first partial region having a difference in between the reference image and the target image.
US11985270B2
A system and method that provides adaptive campaign management and customer engagement predictions utilizing a customer data platform comprising an data ingestion module, an analytics module, and a unified customer database. Furthermore, the system and method ingest a plurality of disparate information related to a customer from various information sources such as enterprise specific customer records, social media data and metadata, web app data and metadata, and mobile device app data and metadata, transforms the ingested data into a standard data format, and correlates the transformed data with existing customer information to form a unified customer profile. The system uses machine learning for predictions and maintenance of customer profiles, and continuously and automatically updates the machine learning models over time. A collection of unified customer data profiles may represent a unified knowledge base of customer information that can be accessed by a plurality of enterprises for call campaign management.
US11985253B2
Disclosed are systems and methods that authenticate non-fungible tokens (“NFT”) and/or digital data represented by or pointed to by an NFT. In some implementations, authentication may be with respect to an existing NFT. In other implementations, authentication may be with respect to an NFT that is being created. The disclosed implementations may compare a candidate and/or candidate NFT data with existing NFTs and/or existing NFT data to determine if the candidate NFT and/or candidate NFT data is similar to other NFTs and/or other NFT data of another NFT, which may exist on any of many different blockchains.
US11985247B2
A method for authenticating an origin of a network device. The method includes reading one or more encrypted parameters from a memory of the network device, decoding the one or more encrypted parameters, and determining whether one or more of the decoded parameters match parameters obtained from a trusted platform module (TPM) installed in the network device and/or a read only memory (ROM) of the network device. In response to a mismatch between the decoded parameters and the parameters obtained from the TPM or the ROM, at least one of suspending operation of the device or transmitting a report of an authentication failure across a network on which the device is operating.
US11985234B2
Methods, systems and apparatus for implementing a secure quantum swap operation on a first and second qubit. In one aspect a method includes establishing, by a first party and with a second party, an agreement to use a secure swap protocol; performing the quantum swap operation, comprising, for each two-qubit gate included in the quantum swap operation: performing, by the first party and according to the secure swap protocol, a respective preceding quantum gate cipher on the first qubit; performing, by the first party and the second party, the two-qubit gate on the first qubit and the second qubit; and performing, by the first party and according to the secure swap protocol, a respective succeeding quantum gate cipher on the first qubit. The preceding and succeeding quantum gate ciphers comprise computational bases that anti-commute with a computational basis of the two-qubit gate across a second axis of the Bloch sphere.
US11985231B2
Certain embodiments disclosed herein provide attestation for a transient version of an application while reusing the attestation and the cryptographic key on which the attestation is based for the full version of the application should the user obtain the full version of the application prior to the transient version being deleted. As an example, a computing device can detect an upgrade event corresponding to replacing an application clip with the full version of the application, and associate the cryptographic key already stored in a key database with the full version of the application. Associating the existing key with the full version of the application enables the full application to automatically take over the attestation previously provided for the application clip, saving time and resources that would otherwise be used for establishing a new attestation for the full version of the application.
US11985230B2
A method for updating a current master key (MK) with a new MK, protected by an HSM, while a software component using a key is active, is disclosed. The method comprises signaling that a new master key has been loaded to the HSMs, re-encrypting the key encrypted with the current MK, storing the re-encrypted key as respective newKey component of a key object, wherein a current key is stored in a curKey component of the key object, and setting the new MK in a first HSM, and signaling to the active software component that the new MK is set in at least one of the HSMs. Upon determining that the new MK is set in the HSM, restricting usage of the HSMs to the selected HSM, and upon determining that the new MK is set in all HSMs, moving the value of the newKey to the curKey component.
US11985229B2
A method for accessing a private key is provided. The method includes storing, by a first device, the private key and an associated public key, generating an access token, sending to a second device, the access token, sending, to a first server, an address relating to a decentralized identifier and the access token, sending, by the first server, to a ledger, a request for getting a decentralized identifier along with the decentralized identifier address. By way of the method a solution is provided for accessing, by a first server to be accessed from a second device, based on a decentralized identifier readable from a ledger, a second server, as a proxy to a first device. It allows for authenticating a first device to a first server while keeping the private key only at the first device side (and not at the second device side).
US11985219B2
Provided herein is a digital communications bus suitable for automotive applications, along with bus controllers and sensors that use the bus and its associated communication methods. One illustrative sensor includes: a clock signal generator; a bus interface coupled to differential signal conductors to detect periodic synchronization pulses from a bus controller; and a controller that aligns a clock signal from the clock signal generator with the periodic synchronization pulses. The bus interface sends digital data between the periodic synchronization pulses to the bus controller using the clock signal to control symbol transitions.
US11985207B2
An aggregating server includes a control logic, a first proxy node, and a second proxy node in an aggregated address space The first proxy node corresponds to a first node in a remote address space of an aggregated server, and the second proxy node corresponds to a second node in the remote address space of the aggregated server. The control logic is configured to forward node data from the first node in the remote address space via the first proxy node and the second proxy node to the second node in the remote address space according to an input/output relationship.
US11985191B2
An application synchronization method is provided. The method includes acquiring an application identification and running status data of a currently running target application, and sending the application identification and the running status data to a second terminal associated with the first terminal to synchronize the target application on the second terminal with the target application on the first terminal.
US11985188B2
Example methods and systems for decentralized network topology adaptation in a in a peer-to-peer (P2P) network are described. In one example, a first computer system may obtain first attribute information associated with the first computer system; and second attribute information associated with a second computer system. Based on the first and second attribute information, the first computer system may generate a connection confidence prediction associated with a connection between the first computer system and the second computer system. The connection confidence prediction may indicate whether the connection is a suboptimal connection associated with a suboptimal network topology. In response to determination that the connection confidence prediction satisfies a break condition, the first computer system may break the connection between the first computer system and the second computer system, but otherwise maintain the connection.
US11985187B2
Active-active standby is maintained for communication sessions using web connections between two active session zones and a standby session zone, for example, in the event of a failure. A first load balancer directs system management communications of a first datacenter to a first server of the first datacenter. A second load balancer directs the system management communications during a failure event to a second server. A database controller performs a failover based on the failure event.
US11985184B2
In some implementations, a device may receive file location information identifying a file to be transferred to a user device associated with the first network provider, wherein the file location information identifies a domain name associated with a second network provider. The device may provide, based on the file location information, a request to obtain one or more records associated with the domain name. The device may receive the one or more records based on the request. The device may selectively obtain, based on the one or more records, the file from a first content device associated with the second network provider or from a second content device associated with a third-party provider. The device may provide the file to the user device.
US11985173B2
A method for Bluetooth audio multi-streaming by a first electronic device includes establishing a Broadcast Isochronous Group (BIG) with second electronic devices, broadcasting a first audio to the second electronic devices over the BIG, detecting an audio event at the first electronic device while broadcasting the first audio to the second electronic devices, determining one or more primary electronic devices of the second electronic devices and one or more secondary electronic devices of the second electronic devices, and continuing to broadcast the first audio over the BIG to the one or more secondary electronic devices and concurrently unicasting a second audio that corresponds to the audio event over a Connected Isochronous Group (CIG) connection to the one or more primary electronic devices.
US11985171B2
An aggregated networking device subsystem station move control system includes first and second aggregated networking devices connected via an ICL. The first aggregated networking device receives a MAC address from the second aggregated networking device that was learned on an orphan port that has port security enabled and a station-move-deny configuration, and generates a static MAC address entry in its MAC address table that associates the MAC address with the ICL. The static MAC address entry causes data packets received on non-ICL ports on the first aggregated networking device that include the MAC address to generate a static MAC move violation. The first aggregated networking device also programs rule(s) that, in response to data packets being received on its non-ICL ports that have port security disabled and generating a static MAC move violation, causes the association of the MAC address with that non-ICL port.
US11985169B2
A network device may receive network traffic for an application. The network device may determine a first classification for the network traffic according to a first classification technique. The first classification may identify the network traffic as relating to a particular application or an unknown application. The network device may determine a second classification for the network traffic according to a second classification technique. The second classification may identify the network traffic as relating to an unknown application of a particular type and identity. The network device may process, based on whether the first classification identifies the network traffic as relating to the particular application or the unknown application, the network traffic according to a first security policy associated with the particular application or a second security policy associated with the unknown application of the particular type and identity.
US11985158B2
Systems and methods are provided for implementing an adaptive machine learning platform for security penetration and risk assessment. For example, the system can receive publicly-available information associated with a client computer system, process the information to identify an input feature, and implement a machine learning model to identify the corresponding risk associated with the input feature. The system can recommend a penetration test for discovered weaknesses associated with the input feature and help make changes to the client computer system to improve security and reduce risk overall.
US11985156B2
Embodiments of the present disclosure provide systems, methods, and non-transitory computer storage media for detecting abnormal behavior of device in an enterprise network based on an analysis of behavioral information of the device's neighbors in network. At a high level, embodiments of the present disclosure employ a hive-mind approach to determine anomalous behavior of a device in a network based on analyzing behavior information reported by neighboring devices within the network. Embodiments identify that a device is alive and connected within the network based on multiple neighboring devices reporting behavioral information about the device; however, the device may be dysfunctional and failing to report its own information. By aggregating and analyzing behavioral information of a device based on the reporting information of its neighboring devices, embodiments of the present disclosure are able to determine whether a device is healthy even when the device is unable to report its own information.
US11985155B2
Secure device data records (DDRs) are provided. In some embodiments, a system for secure DDRs includes a processor of a wireless communication device for wireless communication with a wireless network, in which the processor is configured with a secure execution environment, and in which the secure execution environment is configured to: monitor service usage of the wireless communication device with the wireless network; and generate a plurality of device data records of the monitored service usage of the wireless communication device with the wireless network, in which each device data record is associated with a unique sequence order identifier; and a memory coupled to the processor and configured to provide the processor with instructions. In some embodiments, the secure execution environment is located in an application processor, in a modem processor, and/or in a subscriber identity module (SIM).
US11985149B1
A device for verifying previous determinations from cybersecurity devices comprising a processor and a memory. The memory comprises submission analysis logic including workflow selector logic to receive the object data and process the object data to select at least one analyzer supported by the analyzer logic. The analyzer logic, in accordance with the selected analyzer(s), is configured to (i) analyze the object data for potential threats and embedded object data, (ii) generate results data based on that analysis, and (iii) pass the embedded object data back to the workflow selector for further analysis. Finally, the submission analysis logic comprises triage ticket generation logic to generate triage tickets for analyst review and alert logic to generate automatic alerts.
US11985139B2
Various embodiments are directed to apparatuses, methods, and computer program products for executing centralized data verification using supported data structures associated with one or more third-party system. In various embodiments, an apparatus is configured to retrieve from a verification system repository associated with a verification system a supported data structure associated with a data structure identifier from the verification system repository; based on the third-party system identifier associated with the data structure, provide a data structure inquiry request data packet to a third-party resource to request a verification data structure associated with the data structure identifier from the third-party resource; receive an unsupported verification data structure associated with the data structure identifier from the third-party resource in an unsupported format defined by the third-party resource; convert the unsupported verification data structure into a supported format in association with generating a supported verification data structure using one or more validation rules.
US11985133B1
This disclosure describes techniques that include filtering or gating access to a network based on attributes or an evaluation of the network destination. In one example, this disclosure describes a method that includes receiving, by a computing system and from a client device, a request for information about a network destination; identifying, by the computing system and based on the request, an address associated with the network destination; evaluating, by the computing system, the address to determine whether the address passes a plurality of tests; responsive to determining that the address passes the plurality of tests, storing the address, by the computing system, as one of a plurality of scrutinized addresses; outputting, by the computing system and to the client device, the address.
US11985120B2
A computer-implemented method for secure identification of a device being associated at a specific location, thus allowing a user to activate a procedure connected to the specific location where the device is placed, said device being disconnected from internet, comprising the following steps: an enrollment process performed through an application miming on a mobile device, said enrollment process associating the device hardware parameters to the specific location and recording and storing these data on a back-end application miming on a central system; a generation process performed on the device, said generation process generating and displaying on the device a graphical code OTP based with limited lifetime; a validation process of the graphical code OTP based; if the received graphical code OTB based is validated, the user is allowed to activate, through his mobile device, the procedure connected to the specific location.
US11985118B2
A software system that has an embedded browser, an authenticator and a data channel module where the authenticator is adapted to authenticate a user, to authenticate a data channel and to bind the user authentication with the authenticated channel is disclosed. The authenticator is further adapted to communicate with the user via a graphical user interface of the embedded browser using graphical and control primitives of the authenticator and/or using a stand-alone graphical user interface of the authenticator, and the data channel module is adapted to communicate with service provider servers via a secure protocol, to communicate with the embedded browser and to communicate with the authenticator. A method of authentication using this system increases security and user comfort when accessing services and data requiring authentication is also disclosed.
US11985116B2
A system and method for controlling authorization to a protected entity are provided. The method includes: receiving an access request for access to the protected entity, wherein the access request is received from a client device; in response to the access request, causing the client device to perform an admission process that includes performing at least one game; monitoring a distributed database to identify at least one admission transaction designating admission criteria; determining if the admission criteria satisfy a set of conditions for accessing the protected entity; identifying, on the distributed database, completion results of the at least one game, wherein whether the admission criteria satisfies the set of conditions for accessing the protected entity is determined based on the results of the at least one game; and granting access to the protected entity by the client device when the admission criteria satisfies the set of conditions.
US11985097B2
A method for automatically detecting and processing a computer input event comprising one or more intents is provided. The method may include, in response to receiving the computer input event, automatically generating a parse tree comprising nodes including a possible interpretation of the received computer input event and at least one determined intent. The method may further include performing a confidence evaluation for the nodes and receiving one or more first scores from one or more computer agents for a respective node to indicate an ability of a respective computer agent to process the respective node. The method may further include, determining a second score for the respective node by aggregating the one or more first scores from the one or more computer agents for the respective node. The method may further include, based on the determined second score, selecting a node for processing the received computer input event.
US11985096B2
This application relates to the wireless communications field, for example, is applicable to a wireless local area network supporting the 802.11be standard, and in particular, to a PPDU uplink bandwidth indication method and a related apparatus. The method includes: An AP generates and sends a trigger frame. The trigger frame carries first indication information, where the first indication information directly indicates or jointly indicates an EHT TB PPDU bandwidth or an uplink PPDU total transmission bandwidth. The trigger frame carries second indication information, where the second indication information indicates distribution of an HE TB PPDU and/or an EHT TB PPDU in the uplink PPDU total transmission bandwidth, or directly indicate whether an EHT station transmits an HE TB PPDU or an EHT TB PPDU.
US11985095B2
One embodiment relates to a method for transmitting a sidelink signal by a terminal in a wireless communication system, the method comprising: a step of selecting one or more subchannels for physical sidelink shared channel (PSSCH) or physical sidelink control channel (PSCCH) transmission; and a step of transmitting the PSSCH or the PSCCH through the one or more subchannels, wherein the terminal selects the subchannel from a sidelink synchronization signal block (S-SSB) and a frequency division multiplexing (FDM) resource, on the basis of at least one of a priority of a threshold or higher, a target reliability of a threshold or higher, a latency requirement of a threshold or lower, a QoS requirement of a threshold or higher, and an SSB measurement value of a threshold or higher.
US11985093B2
A method of wireless communication by a receiving sidelink user equipment (UE) includes receiving a first original message from a first transmitting sidelink UE. The method also includes receiving, from a network coding device, a network coded (NC) packet that is coded across the first original message and a second original message from a second transmitting sidelink UE. The first original message corresponds to a first transport block. The second original message corresponds to a second transport block. The method further includes transmitting a first negative acknowledgment (NACK) in response to the first transport block being unsuccessfully decoded. The method still further includes transmitting a second NACK in response to the second transport block being unsuccessfully decoded. The method still further includes transmitting a first acknowledgment (ACK) in response to the first transport block being successfully decoded.
US11985092B2
A terminal is disclosed that includes a transmitter that performs uplink (UL) transmission without a UL grant using a resource configured by higher layer signaling, a receiver that receives retransmission command information, which indicates a retransmission command for the UL transmission, and a processor that controls a resource used for retransmission of the UL transmission by units of symbols based on the retransmission command information. In other aspects, a base station and a radio communication method for a terminal are disclosed.
US11985085B2
Methods and apparatuses for communications in a distributed antenna wireless communication system. A method for operating a user equipment (UE) includes receiving a first configuration for measuring a channel difference between a target cell and a reference cell in a cell group; receiving information for one or more measurement reference signals (RSs) to measure for determining the channel difference; and receiving a second configuration for reporting the channel difference between the target cell and the reference cell in the cell group. The method further includes measuring, based on the information, the measurement RSs; determining, based on the measured measurement RSs, the channel difference between the target cell and the reference cell in the cell group; and transmitting, based on the second configuration, a channel difference report associated with the determined channel difference. The measurement RSs comprise channel state information reference signals (CSI-RSs), synchronization signal blocks (SSBs), or both.
US11985083B2
This disclosure relates to a relay node, and a method of wireless communications by the relay node, including attempting to decode a plurality of first transport block portions of a transport block, wherein the plurality of first transport block portions are received on a first link according to a first encoding configuration. The aspects further include encoding successfully decoded ones of the plurality of first transport block portions according to a second encoding configuration to define one or more second transport block portions corresponding to the transport block, wherein the second encoding configuration is different from the first encoding configuration. And, the aspects further include transmitting the one or more second transport block portions on a second link and according to the second encoding configuration. Other aspects of the relay node and a receiver node are also disclosed.
US11985081B2
Certain aspects of the present disclosure provide techniques for power savings for reduced capability devices. A method that may be performed by a user equipment (UE) includes receiving a shared bandwidth part (BWP) configuration and a group common BWP configuration. The group common BWP configuration indicates a group common BWP shared by a group of UEs, including the UE, having one or more common capabilities or a common UE type. The method includes communicating using the group common BWP based on the group common BWP configuration.
US11985077B2
Systems and methods for routing communication among a plurality of devices are described. In an example, a controller can detect a communication initiated from a first device to a target device among a second device and a third device. The controller can identify the second device as the target device. The controller can, in response to identifying the second device as the target device, activate a direct communication path between the first device and the second device to allow the first device to communicate with the second device using direct communication mode. The controller can, in response to identifying the second device as the target device, activate redriver path between the first device and the third device to allow the first device to communicate with the third device using redriver mode.
US11985074B1
One example method includes adjusting overall resource usage in a digital twin network that includes a dynamically informed digital twin of a near-edge node and a dynamically informed digital twin of far-edge nodes. Operational conditions of a dynamically informed digital twin are evaluated based on contextual variables that represent operating properties of the dynamically informed digital twin. Updated information levels are received from an orchestration service of the dynamically informed digital twin. The updated information levels define an amount of resources the dynamically informed digital twin will use in the performance of primary tasks. The updated information levels are parsed. A physical entity associated with the dynamically informed digital twin is informed to adjust sampling properties or increase or decrease its activity and the dynamically informed digital twin is informed to modify information processing methods to thereby adjust the overall resource usage in the digital twin network.
US11985072B2
Provided is a multimedia data stream processing method, an electronic device and a storage medium, relating to the field of artificial intelligence, and specifically, to the technical fields of cloud computing, media cloud technology, and the like, which may be applied to scenes such as smart cloud. The multimedia data stream processing method includes: allocating a plurality of sub-streams of a multimedia data stream to a plurality of edge resource nodes, where the multimedia data stream is segmented into a plurality of slices and each of the plurality of sub-streams includes a part of the plurality of slices of the multimedia data stream; and scheduling the plurality of edge resource nodes to provide the plurality of sub-streams of the multimedia data stream for a terminal device.
US11985066B2
Solutions to configure congestion reaction behavior of end devices of a Fibre Channel (FC) fabric, to the extent that any such solutions exist, are inefficient, cumbersome, and unscalable. The present document discloses embodiments of a distributed Congestion Control Service that may use FC services and communication paths to distribute congestion control actions (e.g., during login or at other times such as configuration parameters change). Embodiments also allow for congestion configuration parameters to be provided to end devices in a transport-agnostic way. Furthermore, congestion control actions may be delivered on-demand or at other times, such as after a change.
US11985060B2
Systems and methods are provided for managing a data communication within a multi-level network having a plurality of switches organized as groups, with each group coupled to all other groups via global links, including: at each switch within the network, maintaining a global fault table identifying the links which lead only to faulty global paths, and when the data communication is received at a port of a switch, determine a destination for the data communication and, route the communication across the network using the global fault table to avoid selecting a port within the switch that would result in the communication arriving at a point in the network where its only path forward is across a global link that is faulty; wherein the global fault table is used for both a global minimal routing methodology and a global non-minimal routing methodology.
US11985059B2
There is provided route control with excellent flexibility even in a large-scale multicast transfer system. A multicast transfer system transfers a multicast packet arriving at a plurality of destinations between multicast communication devices 1, and a packet transfer processing unit 15 of the multicast communication device 1 transfers, when an interface of a multicast communication device 1 adjacent to itself is specified as a transfer destination of a received multicast packet, the multicast packet to the specified interface, and transfers, when the interface of the multicast communication device 1 adjacent to itself is not specified as the transfer destination of the received multicast packet, the multicast packet to an interface to a multicast communication device 1 specified as the destination.
US11985057B1
To achieve impact-less re-routing of traffic towards non best-paths in a network, two locator routes are originated for each network fabric: a primary locator and a secondary locator. In a steady state, the forwarding state on each router is created by recursion of endpoints identifiers through their originating location's primary locator-route. Secondary locator routes are not used in the steady state. At a desired point, a steering route is injected into the network device to redirect routing from the primary locator route to the secondary locator route. The secondary locator route has a different resultant port from the primary locator route to redirect incoming packets on a different network path.
US11985044B1
Systems, computer program products, and methods are described herein for proactive network infrastructure component monitoring and replacement. The present invention is configured to transmitting instructions to display a manager input portal via a graphical display of a user device; receiving input via the graphical display of the user device for one or more network components or constraint variables; initiating a logic algorithm to determine the effects of the one or more network components or constraint variables on an assignment list; generating an updated assignment list and analyze the updated assignment list in comparison with one or more prior versions to determine one or more changes; generating a link between the one or more changes and the received input; and using a machine learning algorithm, forecasting one or more additional changes in order to generate an optimized recommendation for the updated assignment list.
US11985042B2
Disclosed is a service quality prediction method in a service network environment. The method includes the steps of (1) constructing a service uncertainty quality model of a user through service quality log information generated when the user invokes the same or different services multiple times; (2) tapping a set of similar users of a target user based on the service uncertainty quality model of the user; and (3) improving a matrix factorization algorithm based on similarity information of the set of similar users of the target user to achieve accurate prediction of service quality. The service quality prediction method of the present invention can provide a basis for decision-making, perform targeted service optimization based on the service quality information, and provide more accurate service recommendation.
US11985041B1
In some examples, a system can execute an iterative optimization routine on a set of candidate physical locations for an object. Each iteration can involve a series of operations. The operations can include selecting one of the candidate physical locations; determining a predicted demand value for the candidate physical location based on a first traffic score and a second traffic score associated with the candidate physical location; and determining a predicted overhead value for the candidate physical location. The operations can also include determining a predicted cannibalization factor for the candidate physical location; and generating an overall score for the candidate physical location based on the predicted demand value, the plurality of predicted overhead values, and the predicted cannibalization factor. The system may then identify one or more of the candidate physical locations as optimal locations based on their overall scores and display the optimal locations on a geographical map.
US11985039B1
Systems, methods, software and a framework are disclosed for an improved, adaptable, intelligent, real time, machine learning, AI/Robot integrated, large scale, cloud computing based synchronous communications/computing network enabled with adaptive intelligent ‘4D spherical scaling’ of databases, servers, and/or virtual servers and/or server clusters and elastically with their directly associated computer caches/storage and linked and ‘intra-scalable microservices’ and with external resources and with ‘tech stack awareness’, and ‘tech stack integration’ functionality.
US11985038B2
Examples described herein relate to a selection of a network device in a network installation for a forwarder operation. Selection may include computing a performance score based on a set of performance parameters. Broadcasting the computed performance score to other network devices. Receiving performance scores from the other network devices. Comparing the received performance scores with the computed performance score. Continuing in the forwarder mode based on a determination that the received performance scores are less than its computed performance score. Receiving multicast Domain Name Service (mDNS) packets from one or more client devices. Sending the received mDNS packets to a central service.
US11985032B2
A templating engine in a network management platform creates and stores named templates that describe a network state associating one or more IP address blocks and sub-blocks with one or more corresponding attributes of potential and actual network resources. Named templates comprise, for each IP address sub-block, a data object including a set of actions to be taken in response to provisioning requests based on metadata associated with a network resource identified by the request. Responsive to a provisioning request for access by a resource to the enterprise network, an executed template automatically assigns an IP address to that resource in one of the sub-blocks according to identified attributes of the resource. The executing template automatically notifies external systems of the IP address assignment of the enterprise network.
US11985031B2
A method by a wireless device is provided for optimized reconfiguration of radio link monitoring (RLM) and beam monitoring. The method includes receiving, from a first network node, a first message comprising at least one RLM parameter. A second message indicating activation of the at least one RLM parameter associated with the first message is received. The second message is a lower layer signal compared to the first message.
US11985028B2
The present disclosure relates to a method for configuring a network in a motor vehicle having at least a first switch and a second switch. The method provides, based on a common syntax, a first piece of configuration information for the first switch and a second piece of configuration information for the second switch. The method converts, by a respective processing module, the first piece of configuration information into a first piece of control information and the second piece of configuration information into a second piece of control information, wherein a syntax of the first piece of control information differs from a syntax of the second piece of control information. The method controls the first switch according to the first piece of control information and the second switch according to the second piece of control information.
US11985027B2
Systems and methods are provided for providing a clustering solution and a Virtual Router Redundancy Protocol (VRRP) platform for a branch deployment of at least a first gateway and a second gateway. The VRRP platform can be associated with a VRRP Internet Protocol (IP) address and the first gateway configured as a VRRP master. A change in an operational status of the first gateway can be determined with the clustering solution. The second gateway can be caused to be configured, with the clustering solution, as a new VRRP master. Network traffic associated with the VRRP Internet Protocol (IP) address can be received. The second gateway can be caused to forward the network traffic.
US11985016B2
A method, network node and wireless device are provided in which a method in the network node for switching between different numerologies supported by the network node includes determining at least one parameter that can be used by the network node for switching between a first signal operating with a first numerology and a second signal operating with a second numerology; switching between the first signal and the second signal based on the at least one parameter; and after the switching, operating at least one of the first signal and the second signal between the network node and a second node.
US11985008B2
[Problem] To reduce a setting burden on a media path in a media gateway. [Solution] A MG (1) includes a first interface for connecting to a first network among a plurality of communication networks, a second interface for connecting to a second network among a plurality of communication networks, and a test command issuing unit (13) configured to establish, when a mapping between the first interface and the second interface is set by first setting data for associating a media path ID in the first interface with a termination ID in the first interface and second setting data for associating a media path ID in the second interface with a termination ID in the second interface, a test call for a media path passing through the first interface and the second interface based on the mapping and test, by assigning a resource to the media path that is established, whether data transmission and reception are possible on the media path that is established.
US11985002B2
In one embodiment, a method is performed. A device may include an interface in communication with a network. The device may determine whether an all-active multi-homed ethernet segment (ES) associated with the interface is enabled. On a condition that an all-active multi-homed ES is enabled, the device may determine an ethernet virtual private network (EVPN) designated forwarder (DF) state of the all-active multi-homed ES. If the all-active multi-homed ES is enabled and has an ethernet virtual private network (EVPN) designated forwarder (DF) state, the device may enter a protocol independent multicast (PIM) designated router (DR) state. If an all-active multi-homed ES is enabled and does not have an EVPN DF state, the device may enter a PIM non-DR state.
US11984992B2
A method performed by a User Equipment (UE) for transmitting a Hybrid Automatic Repeat Request-Acknowledgment (HARQ-ACK) codebook is provided. The method includes transmitting a report indicating support of the UE to transmit more than one Type-3 HARQ-ACK codebook; receiving a first Radio Resource Control (RRC) configuration including at least one parameter and receiving a second RRC configuration including a first Physical Uplink Control Channel (PUCCH) resource configuration and a second PUCCH resource configuration, the first PUCCH resource configuration being associated with a first HARQ-ACK codebook and the second PUCCH resource configuration being associated with a second HARQ-ACK codebook; receiving a Downlink Control Information (DCI) format; determining a priority indicated by the DCI format; selecting one of the first PUCCH resource configuration or the second PUCCH resource configuration based on the priority; and transmitting a third HARQ-ACK codebook via the PUCCH resource in a slot determined by the UE.
US11984964B2
Discussed herein are devices, systems, and methods for decentralized device management. A method can include receiving a first message from a second device, implementing a first machine learning (ML) model that operates on the received first message and an observation to determine a next objective to be completed by the first device, and training a simulator to produce the first message based on the observation.
US11984963B2
A radio device receives data from a base station that transmits a first radio signal, carrying a first data block, in a first time window, and a second radio signal, also carrying the first data block, in a different, second time window. The radio device comprises first and second antennas, receive circuitry, and a switch for selectively connecting the receive circuitry to the first antenna or to the second antenna. It is configured to sample the first radio signal, received by the first antenna in the first time window, to generate first sampled data; disconnect the first antenna from the receive circuitry and connect the second antenna; sample the second radio signal, received by the second antenna in the second time window, to generate second sampled data; and use both the first sampled data and the second sampled data to decode the first data block.
US11984961B2
Methods and apparatuses for selecting beams. A method includes determining, based on a channel condition, whether to use an adaptive selection method or a cycling selection method to select a subset of a plurality of beams for a beam measurement; based on the channel condition being a first channel condition, using the adaptive selection method to select the subset of beams; and based on the channel condition being a second channel condition, using the cycling selection method to select the subset of beams. The method further includes performing the beam measurement on the selected subset of beams, generating beam measurement information based on the beam measurement on the selected subset of beams, and determining one or more of the plurality of beams to use for a wireless communication based on the beam measurement information.
US11984940B2
A Wi-Fi mesh network uses a co-axial radio frequency (RF) cable to communicate between a central Wi-Fi mesh network node and one or more satellite Wi-Fi mesh network nodes instead of communicating wirelessly over the air between those nodes. In an example embodiment, the Wi-Fi signals are down-converted to a ˜500 MHz frequency range at the central Wi-Fi mesh network node and then passed through the RF cable. At the receiving end, the down-converted signal is then up-converted back from the ˜500 MHz frequency range to one of the 2.4 GHz, 5 GHz or 6 GHz frequency bands, which may then be wirelessly transmitted via Wi-Fi chipset of the satellite Wi-Fi mesh network node.
US11984939B2
The present disclosure provides a method (200) in a network device for uplink inter-cell interference estimation. The network device serves a cell divided into a plurality of sectors each corresponding to an angle range. The method (200) includes, for a first sector of the plurality of sectors: measuring (210) an uplink inter-cell interference level; and estimating (220) an uplink inter-cell interference metric based on the measured uplink inter-cell interference level.
US11984938B2
A method and method to detect vegetation growth into a wireless signal path. Signal strength indicators for a signal that is transmitted from a transmitter at a second location are received from a receiver at a first location. The signal strength indicators are determined to be consistent with a progression of a decrease in received signal strength corresponding to a growth of vegetation growing into a wireless signal path between the first location and the second location. A recent signal strength indicator is determined to be below a threshold from a baseline received signal strength, and a notification of likely vegetation encroachment into the wireless signal path is provided based on the recent signal strength indicator being below the threshold and determining that the signal strength indicators are consistent with a progression of a decrease in signal strength corresponding to a growth of vegetation.
US11984932B2
Optical network systems and components are disclosed, including a transmitter comprising a digital signal processor that receives data; circuitry that generate a plurality of electrical signals based on the data; a plurality of filters, each of which receiving a corresponding one of the plurality of electrical signals, a plurality of roll-off factors being associated with a respective one of the plurality of filters; a plurality of DACs that receive outputs from the digital signal processor, the outputs being indicative of outputs from the plurality of filters; a laser that supplies light; and a modulator that receives the light and outputs from the DACs, and supplies a plurality of optical subcarriers based on the outputs, such that one of the optical subcarriers has a frequency bandwidth that is wider than remaining ones of the optical subcarriers, said one of the optical subcarriers carrying information for clock recovery.
US11984921B2
Provided are a supply modulator and a wireless communication apparatus including the same. A supply modulator according to the inventive concept is driven in any one of an average power tracking mode and a discrete level envelope tracking mode to apply an output voltage to a power amplifier, and includes a multiple output voltage balancer, a switching regulator, a switching regulator controller, a switch array, a discrete-level controller, a switch controller, an output filter, and a main controller.
US11984917B2
A mounting system for a near field radio frequency (RF) communicator, the system comprising: a splitter, for splitting an alternating electrical signal received from an antenna of the smart card and having: a first output for providing a first part of the alternating electrical signal to an RF input of said chip, and a second output for providing a second part of the alternating electrical signal for powering an auxiliary circuit; a matching network, at the first output of the splitter, and arranged to provide: an input impedance selected based on the impedance of the first output of the splitter, and an output impedance selected based on the impedance of the RF input of said chip; wherein the network comprises a first inductor for electrical connection to said chip and a second inductor, and the second inductor is arranged for inductive coupling to the first inductor thereby to provide RF coupling, with DC isolation and/or common mode isolation, to the RF input of said chip.
US11984916B2
An apparatus is disclosed for transmission setting selection. In an example aspect, an apparatus includes a wireless interface device with a communication processor and a radio-frequency front-end. The communication processor is configured to provide a signal. The radio-frequency front-end is coupled to the communication processor and configured to accept the signal. The radio-frequency front-end includes an amplifier configured to amplify the signal based on one or more amplifier settings. The wireless interface device is configured to adjust the one or more amplifier settings responsive to an output power being changed with a gain being unchanged.
US11984906B2
A batteryless wireless sensor system includes a data acquisition system, a radio frequency (RF) transceiver, and a batteryless wireless sensor device. The RF transceiver is in communication with the data acquisition system, transmits a RF signal, and receives sensor data and provide the sensor data to the data acquisition system. The batteryless wireless sensor device includes a RF transmitter, an analog to digital converter (ADC), and a sensor. The batteryless wireless sensor harvests energy from the RF signal and generates a DC signal based on the energy harvested from the RF signal, powers up and operates the ADC and the sensor based on the DC signal, and generates sensor data. The batteryless wireless sensor then transmits the sensor data via the RF transmitter to the RF transceiver. In certain examples, the ADC is implemented as a current mode ADC.
US11984901B2
A counter signal counting at a frequency of a clock signal is generated. Among a plurality of different numeric ranges corresponding to a plurality of different thresholds, a threshold corresponding to a numeric range containing a frequency ratio is selected. In response to the counter signal reaching the selected threshold, a logic level of an output signal is switched.
US11984881B2
A thyristor circuit includes at least one branch including at least one thyristor, a thyristor control circuit and a current detector. The current detector is configured to detect a current value representative of an electrical current flowing through the thyristor and to input the detected current value into the thyristor control circuit. The thyristor control circuit is configured to determine a fault condition in which the detected current value exceeds a predetermined current threshold based on a deteriorated blocking ability of the thyristor. Dependent on the determination result, the thyristor control circuit triggers the thyristor into a conductive state.
US11984879B2
A drive circuit is provided. When the switching element is in turn-on state and a collector-emitter voltage of the switching element is equal to or higher than a first predetermined voltage value, the first diode is turned on; the first transistor and the second transistor are turned on; and, after a mask time in which a first capacitor is started to be charged with a current from a current source and a voltage value at two ends becomes equal to or higher than a second predetermined voltage value higher than the first predetermined voltage value, an abnormality detection signal is output to the control unit. The control unit stops an output of the pulse signal to the switching element in response to the abnormality detection signal.
US11984878B2
A switch including a transistor to be protected, and a Miller effect protection unit including a protection transistor, the drain of the protection transistor being connected to the gate of the transistor to be protected, the source of the protection transistor being connected to the source of the transistor to be protected, a linking circuit, the linking circuit being a high-pass filter arranged between the gate of the protection transistor and the drain of the transistor to be protected, and a control circuit interposed between the gate of the protection transistor and the source of the transistor to be protected.
US11984870B2
A bonded body includes a supporting substrate composed of a metal oxide, a piezoelectric material substrate, a bonding layer provided between the supporting substrate and piezoelectric material substrate and having a composition of Si(1-x)Ox (0.008≤x≤0.408), and an amorphous layer provided between the bonding layer and supporting substrate. The oxygen ratio of the amorphous layer is higher than the oxygen ratio of the supporting substrate.
US11984857B2
Aspects of this disclosure relate to an impedance transformation circuit for use in an amplifier, such as a low noise amplifier. The impedance transformation circuit includes a matching circuit including a first inductor. The impedance transformation circuit also includes a second inductor. The first and second inductors are magnetically coupled to each other to provide negative feedback to linearize the amplifier.
US11984856B2
A low noise amplifier includes: an amplification unit including a first transistor and a second transistor connected in a cascode structure and configured to amplify a signal input to a control terminal of the first transistor; and a gain controller connected between a contact point at which the first transistor and the second transistor are connected to each other and a power source voltage, and configured to adjust a gain of the amplification unit.
US11984855B2
A receiver front end amplifier capable of receiving and processing intraband non-contiguous carrier aggregate (CA) signals using multiple low noise amplifiers (LNAs) is disclosed herein. A cascode having a “common source” configured input FET and a “common gate” configured output FET can be turned on or off using the gate of the output FET. A first switch is provided that allows a connection to be either established or broken between the source terminal of the input FET of each LNA. Further switches used for switching degeneration inductors, gate capacitors, and gate to ground capacitors for each leg can be used to further improve the matching performance of the invention.
US11984854B2
Envelope tracking power supply circuitry includes a look up table (LUT) configured to provide a target supply voltage based on a power envelope measurement. The target supply voltage is dynamically adjusted based on a delay between the power envelope of an RF signal and a provided envelope tracking supply voltage. The envelope tracking supply voltage is generated from the adjusted target supply voltage in order to synchronize the envelope tracking supply voltage with the power envelope of the RF signal.
US11984851B2
An oscillator circuit includes: an oscillator, oscillating a resonator and generating a first oscillation signal; and a PLL circuit, adjusting a ratio between a first frequency of the first oscillation signal and a second frequency of a second oscillation signal output from a voltage controlled oscillator, and controlling the oscillator based on a loop filter voltage being an input voltage of the voltage controlled oscillator.
US11984848B2
The present invention relates to a frequency generator arrangement having an oscillator for generating an oscillator signal having an oscillator frequency and an oscillator output for outputting the oscillator signal, the frequency generator arrangement further comprising a frequency multiplier coupled and/or connected to an oscillator output for generating an output signal of the frequency generator arrangement having a multiplier frequency corresponding to a multiple of the oscillator frequency, wherein the frequency multiplier comprises a frequency multiplier core directly causative of the frequency multiplication, the frequency multiplier core having a power supply, and the frequency generator arrangement having a control input for controlling the power supply to the frequency multiplier core, whereby an output power of the output signal is adjustable by controlling the power supply to the frequency multiplier core.
US11984843B2
A photovoltaic panel having a photovoltaic module supported by a distributed support frame is described. The distributed support frame may include a support member extending over a back surface of the photovoltaic module. For example, one or more support members may extend laterally from a support hub mounted on the back surface. The distributed support frame may reduce a span length of the photovoltaic module between support locations, and thus, may reduce a likelihood that a module laminate will crack under a design load.
US11984829B2
A system has a DC bus circuit with first and second terminals, an intermediate node, first and second capacitors, first and second depletion mode FETs, and first and second switching control circuits, where the first depletion mode FET has a drain coupled to the first bus terminal, a source, and a gate coupled to the intermediate node, the second depletion mode FET has a drain coupled to the intermediate node, a source, and a gate coupled to the second bus terminal, the first switching control circuit turns the first depletion mode FET off responsive to a first capacitor voltage of the first bus capacitor being less than or equal to a second capacitor voltage of the second bus capacitor, and the second switching control circuit turns the second depletion mode FET off responsive to the first capacitor voltage being greater than or equal to the second capacitor voltage.
US11984826B2
Reduced computation time for model predictive control (MPC) of a five level dual T-type drive considering the DC link capacitor balancing, the common-mode voltage (CMV) along with torque control of an open-ends induction motor based on determining a reduced set of switching states for the MPC. The reduced set of switching states are determined by considering either CMV reduction (CMVR) or CMV elimination (CMVE). Cost function minimization generates a voltage vector, which is used to produce gating signals for the converter switches. The reduced switching state MPC significantly reduces computation time and improves MPC performance.
US11984820B2
Systems and methods for increasing the efficiency of inverters are provided. In some embodiments, an inverter may be configured to connect to a direct current power source and output alternating current power. The inverter may include one or more transistors configured to receive a direct current signal and output a pulse width modulated signal having a particular switching frequency or spread spectrum frequencies. The inverter also includes a low pass filter having multiple elements where each of the multiple elements have parasitic characteristics. One or more of the multiple elements may be designed such that the frequency response has a notch or a minimum at the switching frequency while having a desired cutoff frequency.
US11984812B2
A dual active bridge DC/DC converter in accordance with the invention comprises a first DC link, preferably comprising a first DC link capacitor; a converter bridge connected to the first DC link; a transformer, preferably a medium frequency transformer, having a primary side and a secondary side; the primary side of the transformer comprising a plurality of M>1 primary windings, each of the plurality of primary windings having a first and a second terminal; wherein the dual active bridge DC/DC converter further comprises a first plurality of M energy transfer inductors; and wherein for each of the M primary windings, a different one from the first plurality of energy transfer inductors is connected between said primary winding bridge and the converter bridge.
US11984808B2
A regulator for an interleaved power factor correction circuit to enhance current sharing performance includes adjuster circuitry that determines a duty cycle adjustment; judge circuitry that determines whether to activate the adjuster circuitry; distributor circuitry that determines tuned duty cycles based on input duty cycles and the duty cycle adjustment; and tuner circuitry that determines tuned average inductor currents in first and second phases of the interleaved power factor correction circuit based on the tuned duty cycles.
US11984804B2
A resonant charge pump circuit includes a resonant circuit having a bucket capacitor and a bucket inductor connected in series, and a switching circuit connected to the resonant circuit. The switching circuit switches to a first state that enables current to flow from an input terminal into the resonant circuit to charge the bucket capacitor and the bucket inductor, and switches to a second state that enables current to flow from the resonant circuit to discharge the bucket capacitor and the bucket inductor to an output terminal. The resonant circuit controls current flow into and out from the resonant circuit when the switching circuit switches between the states. The resonant charge pump circuit also includes a timing circuit that controls when the switching circuit switches between the states.
US11984788B2
An electric motor includes a stator, a rotor having a rotating shaft, first and second bearings each having an outer ring, balls, and an inner ring, and spaced apart axially from each other, a preload washer including a shaft section having a preset fixed length in the axial direction, and an elastically-deformable portion extending from one end portion of the shaft section to be elastically deformable, the preload washer applying a preset intensity of preload to the inner ring of the first or second bearing, and a coupling member screwed into an end portion of the rotating shaft and elastically deforming the preload washer in the axial direction. This structure may result in preventing an excessive preload from being applied to the bearing and allowing a preset preload to be stably maintained when thrust is applied.
US11984784B2
The actuator includes a movable body, a support body with a case that accommodates the movable body and a coil holder, connecting bodies connected to the movable body and the support body, a magnetic drive circuit including a coil and magnets opposed to the coil in a Z direction and causing the movable body to vibrate in an X direction with respect to the support body, and a buffer material fixed to the case and opposed to the movable body in the X direction. When the magnetic drive circuit is driven with a first voltage, the movable body vibrates without colliding with the buffer material. When the magnetic drive circuit is driven with a second voltage, which is larger than the first voltage, the movable body collides with the case through the buffer material, whereby an impulsive force is generated.
US11984783B2
The invention relates to a stator for an electric machine, comprising a plurality of rod conductors and at least one insulation disk that is arranged in an end face region of the stator and includes a plurality of interconnection pieces. Rod conductor contact surfaces and interconnection piece contact surfaces have corresponding shapes such that a planar contact can be created; for this purpose, the interconnection piece protrude from the insulation disk in the radial direction at least along the interconnection piece contact surface such that a plurality of interconnection piece contact surfaces can simultaneously come into contact with the associated rod conductor contact surfaces. The invention further related to an electric machine and to a manufacturing process.
US11984780B2
A coil unit and a manufacturing method of the same are provided which simplify the connection structure at the end portion of a coil to reduce the size of a stator, and minimize the work environment (equipment and work regions) when mounting the coil on the stator, and make it possible to perform efficient mounting work. A terminals-welded coil unit includes a coil made of a first metal material, and a terminal made of a second metal material connected to an end portion of the coil. A welded portion between the end portion of the coil and the terminal is configured by pressure welding with end surfaces butted against each other.
US11984779B2
A rotating electric machine includes a field element having a plurality of magnetic poles of which polarities alternate in a circumferential direction, and an armature including an armature winding of multiple phases and an armature core having a circular cylindrical shape. The armature core is provided integrally with the armature winding. The field element and the armature are provided to oppose each other in a radial direction. An armature holding member includes a circular cylindrical portion assembled on an inner side in the radial direction of the armature core. The armature core and the circular cylindrical portion are fitted and fixed to each other with a predetermined tightening margin. A regulating portion regulates displacement in the circumferential direction of the armature core by engagement in the circumferential direction, and is provided in portions of the armature core and the circular cylindrical portion that oppose each other in the radial direction.
US11984771B2
A motor assembly is provided including a stator and a rotor. The stator includes a stator main body defining a longitudinal axis, stator teeth projecting radially from the stator main body, stator windings wound around the stator teeth, and two winding terminals provided for each stator tooth extending away from the stator main body substantially parallel to the longitudinal axis. A circuit board is oriented along a radial plane adjacent the stator. The circuit board includes a central through-hole through which a rotor shaft extends, at least one magnetic sensor mounted on a surface of the circuit board around the central through-hole configured to magnetically interface with the rotor, peripheral openings arranged to receive the winding terminals of the stator, and conductive routings extending from the peripheral openings to connect the stator windings in a series or a parallel configuration and/or a wye or a delta configuration.
US11984764B2
Disclosed are a rotor and a permanent magnet motor. The rotor includes a rotor core, at least two first permanent magnets and at least two second permanent magnets. A coercivity of each first permanent magnet is different from a coercivity of each second permanent magnet, the at least two first permanent magnets and the at least two second permanent magnets are arranged in an axial direction in magnetic steel slots of the rotor core. One of the first permanent magnets and one of the second permanent magnets are arranged to be connected in series in a radial direction of the rotor core in one slot to form a permanent magnet pole. A consequent pole is formed between every two adjacent permanent magnet poles, and the permanent magnet pole forms a magnetic circuit passing through the consequent pole.
US11984759B2
Methods of operating a grid ancillary service with an uninterruptible power supply (GAUPS) device are provided. A method of operating a GAUPS device includes controlling a switch of the GAUPS device in response to a signal that is generated by the switch, to control efficiency of an inverter and quality of power supplied to a load via the inverter. The switch is coupled between the inverter and the load. Related systems and devices are also provided.
US11984748B2
The invention discloses a full current control battery module and an energy storage system of full current control battery, belonging to the field of electric energy storage, wherein the full current control battery module comprises an energy transmission control unit, a relay energy unit and a current control unit. The invention can realize the separate current control of each battery module and isolate the influence of the current generated by the external DC system on the battery module.
US11984747B2
The disclosed apparatus and method is a closed loop system that obtains, stores and transfers motive energy. Preferably, the majority of the electricity generated is utilized to service a load or supplied to the grid. A portion of the electric power produced is used to recharge the batteries for subsequent use of the electric motor. The system controls and manages the battery power by controlling the charging and discharging of the battery reservoir via a series of electrical and mechanical innovations controlled by electronic instruction using a series of devices to analyze, optimize and perform power production and charging functions in sequence to achieve its purpose.
US11984741B2
A system, recharge apparatus, and method includes transmit coils positioned in a pattern to allow at least one of the transmit coils to establish a wireless link with a receive coil positioned in proximity of the recharge apparatus. A power source is coupled to the transmit coils and configured to selectively energize ones of the transmit coils to transfer power to the receive coil. An energy efficiency detection circuit is configured to detect an electrical response of each one of the transmit coils when energized by the power source, the electrical response indicative of an energy efficiency between the one of the transmit coils and the receive coil. The power source selectively energizes ones of the transmit coils, selected according to a statistical analysis of an historical record and the electrical response indicative of the energy efficiency meeting a minimum efficiency criterion for energy transfer to the receive coil.
US11984740B2
The present invention provides a temperature protective device for a filter capacitor bank. The capacitor bank comprises two or more capacitors which are arranged in an array manner. The temperature protective device comprises a temperature measurement device which comprises: a cover body covering the capacitor bank; a single temperature sensor fixed at a center area of the cover body, which is used for measuring a temperature value of the capacitor bank; and a heat conduction pad located between the cover body and the capacitor bank, wherein the heat conduction pad and the cover body have fitted shapes. The temperature protective device of the present invention saves cost and can accurately realize temperature protection of the capacitor bank.
US11984722B2
Distributed grid intelligence can enable a virtual power grid. Multiple consumer nodes can have local power sources, and be coupled to a same point of common coupling (PCC). The consumer nodes can be controlled by distributed control nodes at the consumer nodes. The control nodes control the distribution of power from the local power sources based on local power demand of each respective consumer node, and also based on distribution of power from the other respective control node. Thus, consumer nodes can share power generated locally, but operate independently without the need for central management or a central power plant.
US11984716B2
A floor system in a server room includes a main panel and a sub-panel. The main panel includes main panel inlaid cables and main panel connectors where the main panel inlaid cables connect a first set of the main panel connectors to a second set of the main panel connectors. The sub-panel includes sub-panel inlaid cables and sub-panel connectors where the sub-panel inlaid cables connect the sub-panel connectors to one another. The floor system provides an operating floor via the main panel and the sub-panel where the operating floor is raised relative to a sub-floor and the main panel is a removable floor panel to access a space between the operating floor and the sub-floor. The main panel inlaid cables and the sub-panel inlaid cables establish a current pathway from a power source.
US11984714B1
The present invention pertains to devices and applications for electrical enclosures designed with one or more mounting methods with one or more input openings for electrical power and one or more openings for installation of electrical delivery products which provide a means for mechanically mounting or connecting, and providing electrical power to at least one connected electrical apparatus. More specifically, the invention pertains to outdoor, weather resistant, electrical junction boxes with rear openings and side conduit removable plugged openings for input of electrical power, weather resistant GFCI outlets with outlet covers and a junction box cover which provide an electrical junction box mechanical interface for mounting and providing electrical power to a connected electrical apparatus such as a lighting apparatus, security camera, etc.
US11984712B2
A cable jacket removal device is used to selectively remove a sheath from a length of a sheathed cable. The cable jacket removal device includes a support frame, a drive shaft, and a motor. The support frame removably couples the removal device to the cable to be stripped. The drive shaft is coupled to the support frame. The motor is coupled to the drive shaft to selectively rotate the drive shaft to cause the removal device to travel along the cable to automatically remove a cable jacket from a predefined distance of the cable.
US11984702B2
An optical scanning device includes a laser light emitter in which an excess of a current over a bias current is increased or decreased in proportion to an analog signal input thereto, a laser driver to drive the laser light emitter, an optical scanner to scan a surface of an object with laser light emitted from the laser light emitter, an offset value determiner to determine an offset value of the analog signal input to the laser light emitter based on a target light quantity of the laser light emitter, and a laser driver controller to control a quantity of light emitted from the laser light emitter by inputting a signal on the basis of a signal of the determined offset value to the laser driver.
US11984698B2
A light emitting device includes a plurality of semiconductor laser elements, a frame part, a light-reflective member, a plurality of wires, and first and second protective elements. The frame part has a pair of first inner lateral surfaces and a second inner surface. The light-reflective member is configured to reflect laser light traveling from at least one of the plurality of semiconductor laser elements toward one of the first inner lateral surfaces of the frame part. The wires electrically connect the semiconductor laser elements respectively to an upper surface of the frame part. The first and second protective elements are disposed on the upper surface of the frame part in an area of the upper surface along the second inner surface. At least one of the wires is bonded on an area of the upper surface between the first and second protective elements.
US11984697B2
An optical member includes: a conversion member including a fluorescent material; a light reflecting ceramic holding the conversion member, the conversion member and the light reflecting ceramic having a continuous surface; a light-transmissive film on the continuous surface; and a wiring on the light-transmissive film.
US11984696B2
An optical amplifier includes an optical amplifier chip that includes a pair of semiconductor optical amplifiers (SOAs), a U-shaped waveguide connecting the pair of SOAS, and two electrodes that respectively correspond to the pair of SOAS and are separated from each other, and a base substrate that includes a common metal wiring connecting the two electrodes, and on which the optical amplifier chip is mounted.
US11984692B2
An electrical junction box comprises an electrically conductive housing and at least one cable end wherein an everted braided shield section of the cable end is received in a retainer section of the housing and an electrically conductive adhesive is provided.
US11984687B2
A connector includes a body having a central bore and a first grounding contact surface, a post disposed within the central bore and having an outwardly projecting flange configured to produce a first portion of a mating interface, and a conductive coupler. The post portion has a tubular sleeve configured to mechanically and electrically engage a prepared end of a coaxial cable. The conductive coupler has an engagement surface at a first end configured to mechanically and electrically engage an interface port, a lip at a second end configured to produce a second portion of the mating interface, and a second grounding contact surface opposing the first grounding contact surface. The first and second portions are configured to slide along the mating interface to rotate about an elongate axis of the connector. The connector includes a conductive ring disposed between the first and second grounding contact surfaces and configured to produce an electrical path between the body and the conductive coupler.
US11984681B2
The present invention relates to a male connector and to an accommodating device. The male connector comprises a plurality of male terminals and a support base. The plurality of male terminals are connected to a plurality of female terminals. The support base holds the plurality of male terminals with spacing therebetween in a line-up direction. The plurality of male terminals protrude upwards from an upper surface of the support base. An incline section is formed on the upper surface of the support base, said incline section having a height difference in an intersecting direction that intersects a plane including the protrusion direction and the line-up direction of the plurality of male terminals.
US11984678B2
An I/O connector assembly configured for making a cabled connection to an interior portion of a printed circuit board for signals passing through the connector. The assembly may include a receptacle connector, a cage and cables, terminated to conductive elements of the terminal subassemblies, extending through the cage to the midboard. The terminal subassemblies may have first type conductive elements configured for mounting to the printed circuit board and second type conductive elements configured for terminating cables. Features may be included for precise positioning of the receptacle connector formed with the terminal subassemblies relative to the cage such that connector to connector variation in the positioning of the contact portions of the conductive elements in the terminal subassembly is provided. A mating plug may be designed with low wipe, which improves high frequency performance of the mated connector system.
US11984676B2
A connection comprising, a connecting part, a sleeve materially bonded to the connecting part and having a through-opening extending in a longitudinal direction, and a bolt connected to the sleeve and having a bolt shank and a bolt flange, the bolt being crimped with its bolt shank in the longitudinal direction in the through-opening of the sleeve, the bolt is arranged with its bolt flange in a recess arranged at a front face of the sleeve, characterized in that the sleeve is connected to the connecting part by its front face located at the front face end.
US11984671B2
A segmented patch antenna is described. The segmented patch antenna comprises two rectangular parasitic elements. Each parasitic element comprises an integrated diode. The segmented patch antenna further comprises a main rectangular patch segment. The main rectangular patch segment comprises 3 slots, 2 slits and 3 diodes, respectively. The segmented patch antenna is suitable for use in multiple frequencies between 4.1 GHz and 5.7 GHz inclusive and configurable to operate in 12 independent modes.
US11984658B2
The present invention relates to an antenna device comprising an antenna part having a patch with several edges, a first transmit path connected to a first connection port at a first edge of the patch, and a second transmit path connected to a second connection port at the first edge of the patch. The first and second connection ports are located at a distance from each other along the first edge, and a first transmitter and a second transmitter are connected to the antenna part. The first transmit path comprises a first signal combiner connected to the first and second transmitters and to the first connection port. The second transmit path comprises a second signal combiner connected to the first and second transmitters and to the second connection port. The first signal combiner is arranged to generate a difference between signals originating from the first and second transmitters. The second signal combiner is arranged to generate a sum of the signals originated from the first and second transmitters. Thereby, it is possible to simultaneously transmit two different signals. A method for transmitting a radio frequency signal by means of the device is provided as well.
US11984654B2
The present disclosure relates to an antenna element including: a dielectric layer; a radiation electrode arranged on an upper surface of the dielectric layer and including a first mesh structure; and a dummy electrode arranged on the upper surface of the dielectric layer and including a second mesh structure, in which at least one of the radiation electrode and the dummy electrode satisfies Equation 1, and an image display device including the same.
US11984652B2
An antenna assembly includes an antenna body formed of a sheet metal, an electric cable, and a conductive film. The antenna body includes at least one crimp portion. The conductive film has a main portion and at least one connected portion extending from the main portion. The electric cable has a conductor portion 46. The at least one crimp portion is crimped to the conductor portion in a state that at least one connected portion lies between the conductor portion and the at least one crimp portion.
US11984650B2
An antenna system mounted in a vehicle according to the present invention may include: a first antenna system in which multiple first antenna elements configured to transmit and receive a first signal according to a first communication system perform multi-input multi-output (MIMO); and a second antenna system in which multiple second antenna elements configured to transmit and receive a second signal according to a second communication system perform beamforming, wherein the multiple first antenna elements and the multiple second antenna elements are arranged on the same circuit board, so as to provide an antenna arrangement structure in which the isolation characteristic between antenna elements is optimized, for a flat vehicular antenna including an LTE antenna system and a 5G antenna system.
US11984649B2
A wearable device includes a conducting frame, a circuit board, and a grounding member. The conducting frame includes a first part and a second part that are separated. The circuit board has a system grounding surface and is disposed inside the conducting frame. The grounding member is disposed inside the conducting frame and connected to the first part. The first part and the grounding member are formed as a first antenna. The first part has a first feeding terminal. The grounding member has a first grounding terminal, and the first grounding terminal is connected to the system grounding surface of the circuit board. The second part is formed as a second antenna. The second antenna has a second feeding terminal, a second grounding terminal, and a third grounding terminal. The second and the third grounding terminals are connected to the system grounding surface of the circuit board.
US11984636B2
An active waveguide transition includes a waveguide defining a waveguide volume and including a back short wall at a first end. A first probe is mounted on the waveguide in an operable position extending into the waveguide volume, and a first RF electrical signal connector is mounted on the active waveguide transition. A first circuit assembly is mechanically coupled to an exterior surface of the waveguide, the circuit assembly including a first multi-layer ceramic substrate with an RF amplifier system mounted thereon. The RF amplifier system is electrically coupled to the multi-layer ceramic substrate, the first probe, and the first RF electrical signal connector to define an active first signal path for RF communication signals between the probe and first RF signal connector.
US11984633B2
The present disclosure provides a phase shifter and an antenna, and relates to the field of communication technology. The phase shifter provided by the embodiment of the present disclosure is divided into a first feeding region, a second feeding region and a phase-shift region. The phase shifter includes: a first substrate and a second substrate provided opposite to each other, a dielectric layer provided between the first substrate and the second substrate, and a first feeding structure and a second feeding structure. The first feeding structure is electrically coupled to one end of the signal line, and the second feeding structure is electrically coupled to the other end of the signal line. The first feeding structure is located in the first feeding region; and the second feeding structure is located in the second feeding region. Recesses are formed in the first base substrate and/or in the second base substrate.
US11984628B2
Disclosed is a method of producing an antioxidant that has excellent antioxidant ability and is well dispersed when applied to a membrane-electrode assembly (MEA). The method includes a step of preparing a powder including reduced metal oxide and a step of mixing the powder with a powdery ionomer to obtain an antioxidant in which the ionomer is bound to the surface of the reduced metal oxide.
US11984625B2
A method is provided for producing an electrochemically active unit that includes a membrane and at least one assembly, which includes a gas diffusion layer and a sealing element produced on the gas diffusion layer. The method is reliably performable with less expenditure on process apparatuses and process time and includes the following: producing the sealing element on the gas diffusion layer; connecting the sealing element and/or the gas diffusion layer to a support element; and assembling the membrane and the at least one assembly, which includes the gas diffusion layer and the sealing element, to form the electrochemically active unit.
US11984622B1
A battery cell includes a shell, an end cover, an electrode assembly, and a current collector component. The shell has an opening, and the inner surface of the shell is provided with a first limit part in a protruding manner. The end cover covers the opening. The electrode assembly and the end cover are respectively located on both sides of the first limit part, and the electrode assembly has a tab on the side facing the end cover. The current collector component includes a body part and a connecting part, and the connecting part is connected to the first limit part. The body part includes a first welding region and a second welding region, the first welding region is located on the periphery of the second welding region, the first welding region and the second welding region are separated by the connection position between the connecting part and the body part.
US11984615B2
A battery module is provided comprising a plurality of battery cells and a housing having an internal space in which the plurality of battery cells are accommodated. The housing is at least partially formed of a plate member which is connected with the internal space. The plate member forms a flame or gas path which in an event of a battery cell malfunction generating a flame or gas is configured to discharge the generated flame or gas externally of the housing.
US11984614B2
A cap assembly is disclosed that creates a gas-tight seal with a cell can housing. The cap assembly has an outer surface, an inner surface and a perimeter edge. The cap assembly further includes an electrolyte injection port forming a port opening between the outer surface and the inner surface, a vent constructed to form a vent opening from the inner surface to the outer surface when a vent pressure differential is achieved between an outer surface pressure and an inner surface pressure. The vent is positioned (a) concentric to the electrolyte injection port, and (b) closer to the perimeter edge than the position of the electrolyte injection port.
US11984603B2
An electrode for a lithium secondary battery, which may be applied to the lithium secondary battery to increase cycling performance and efficiency of the battery, and a manufacturing method thereof. When the electrode for the lithium secondary battery of the present invention is applied to the lithium secondary battery, uniform deposition and stripping of lithium metals occur throughout the surface of the electrode when charging/discharging the battery, thereby inhibiting uneven growth of lithium dendrites and improving cycle and efficiency characteristics of the battery. Further, the electrode for the lithium secondary battery of the present invention exhibits remarkably high flexibility, as compared with existing electrodes including a metal current collector and an active material layer, thereby improving processability during manufacture of the electrode and assembling the battery.
US11984595B2
A lithium secondary battery includes a cathode formed from a cathode active material including a cathode active material particle having a specific concentration ratio, an anode; and a separation layer interposed between the cathode and the anode. The lithium secondary battery has improved formation discharge amount, formation discharge efficiency and power output.
US11984589B2
This application provides a positive-electrode plate, including a current collector, and a first active substance layer and a second active substance layer that are sequentially disposed on a surface of the current collector. The first active substance layer includes a first positive-electrode active material, and the first positive-electrode active material includes at least one of a compound represented by Formula (I) Li1+x1Mna1M1-a1O2-y1Ay1 or a compound represented by Formula (II) Li1+x2Mna2N2-a2O4-y2By2. The second active substance layer includes a second positive-electrode active material having a pH value of from 10˜12. In this application, the active substance layer that includes high-pH positive-electrode active material is disposed outside the active substance layer that includes a lithium manganese-based positive-electrode active material, so as to make a layered electrode plate.
US11984579B2
A positive electrode material includes secondary particles formed from primary particles. The positive electrode material satisfies the following relational expression: 15%≤(Dv50a−Dv50b)/Dv50b≤80%, where Dv50a represents Dv50 directly measured by a laser particle size analyzer for the positive electrode material without ultrasonic treatment, Dv50b represents Dv50 measured by the laser particle size analyzer for the positive electrode material after ultrasonic treatment, and Dv50 represents a particle size of the positive electrode material at a cumulative volume of 50% in a volume-based particle size distribution as measured by starting from small particle sizes. The secondary particles of the positive electrode material that meets the foregoing condition can form soft agglomerates, so that the electrochemical device is of high cycle performance and high safety performance.
US11984569B2
An energy storage apparatus includes an energy storage device and a spacer disposed adjacent to the energy storage device in a first direction, in which the spacer is disposed inward of the energy storage device in a second direction orthogonal to the first direction when viewed from the first direction, and has a concave-convex portion having at least one of a concave portion and a convex portion formed at an end portion in the second direction, and the concave-convex portion is disposed separated from the energy storage device.
US11984557B2
An electrolyte for a secondary battery is provided. The electrolyte for a secondary battery according to an embodiment of the present invention comprises: a non-aqueous organic solvent including propyl propionate (PP) and ethyl propionate (EP); a lithium salt; and an additive. The lithium salt is contained in a concentration of 0.6-1.6 M. Accordingly, when the electrolyte is applied to a battery and a flexible battery, excellent discharge performance can be exhibited in extremely low temperature and high temperature. In addition, the flexible battery of the present invention can prevent or minimize the deterioration of physical properties required as a battery even if repeated bending occurs. Such an electrolyte for a secondary battery of the present invention can be applied to various fields which require high discharge capacity at extremely low temperature and high temperature.
US11984546B2
A method for manufacturing a side wire for a substrate and a substrate structure are provided. The method includes: forming a plurality of first pattern structures on a side surface of the substrate, wherein a gap between any adjacent two of the plurality of first pattern structures connects a top surface and a bottom surface of the substrate to each other; forming a conductive material film covering the side surface of the substrate; and removing the plurality of first pattern structures and a portion of the conductive material film that is attached on the plurality of first pattern structures, and maintaining a portion of the conductive material film that is located between any adjacent two of the plurality of first pattern structures as the side wire.
US11984539B2
A light emitting element includes an emission stacked pattern and an insulating film. The emission stack pattern includes a first conductive semiconductor layer, an active layer disposed on the first conductive semiconductor layer, and a second conductive semiconductor layer disposed on the active layer. The insulating film surrounds an outer surface of the emission stacked pattern and has a non-uniform thickness.
US11984538B2
A thin-film white LED chip includes a transparent substrate, a first transparent electrode, an emissive structure, a second transparent electrode, and a first phosphorescent/fluorescent layer respectively arranged in sequence. The emissive structure includes an emissive layer, an electron injection layer and a hole injection layer respectively formed at both sides of the emissive layer, and a total thickness of the electron injection layer and the second transparent electrode (in an inverted structure) or a total thickness of the hole injection layer and the second transparent electrode (in a conventional structure) is smaller than a length of one emission wavelength of the emissive layer. The evanescent wave generated by total internal reflection can penetrate into and be absorbed by the first phosphorescent/fluorescent layer to further emit light, thereby the overall external quantum efficiency of the LED chip is improved.
US11984533B2
A light emitting device according to an embodiment of the present disclosure includes: a first layer including Alx2Inx1Ga(1-x1-x2) N (0
US11984524B2
Provided herein is a diamond gammavoltaic cell comprising: a diamond body having a diamond body surface including first and second opposing surfaces; a low-barrier electrical contact formed on the first surface; and a high-barrier electrical contact formed on the second surface, wherein the diamond body surface that is not in contact with either the low-barrier electrical contact or the high-barrier electrical contact is at least partially surface transfer doped to provide a p-type surface.
US11984522B2
A backside contact solar cell has, on a first main surface of a crystal silicon substrate, a p-type region having a p-conductive type and an n-type region having an n-conductive type, and a positive electrode formed on the p-type region and a negative electrode formed on the n-type region, wherein the positive electrode includes a laminated conductor of a first electric conductor which is formed on the p-type region and which includes a group III element and a second electric conductor which is laminated on the first electric conductor and which has a lower content ratio of the group III element than the first electric conductor, and the negative electrode includes the second electric conductor formed on the n-type region. In this way, a low-cost backside contact solar cell has a high photoelectric conversion efficiency.
US11984518B2
A photovoltaic module, including a plurality of solar cells each including a semiconductor substrate and a passivation layer, the semiconductor substrate is provided with an electrode including busbars, fingers, and electrode pads, each of the solar cells includes 9 to 20 busbars, each of the solar cells includes 40 to 100 fingers, and each of the busbars is connected to 3 to 10 electrode pads; a plurality of solder strips configured to connect the plurality of solar cells to each other, each of the solder strips fits the busbars and includes at least one boss portion soldered with the electrode pads, and a gradient of an outer surface of the boss portion along an extension direction of the solder strip ranges from 0° to 10°.
US11984517B2
Local metallization of semiconductor substrates using a laser beam, and the resulting structures, e.g., micro-electronic devices, semiconductor substrates and/or solar cells, are described. For example, a solar cell includes a substrate and a plurality of semiconductor regions disposed in or above the substrate. A plurality of conductive contact structures is electrically connected to the plurality of semiconductor regions. Each conductive contact structure includes a locally deposited metal portion disposed in contact with a corresponding a semiconductor region.
US11984514B2
A semiconductor apparatus includes a plurality of semiconductor devices. The semiconductor devices each include a ferroelectric layer, a conductive metal oxide layer, and a semiconductor layer, between two electrodes. The conductive metal oxide layer may be between the ferroelectric layer and the semiconductor layer. The ferroelectric layer, the conductive metal oxide layer, and the semiconductor layer may all include a metal oxide. The conductive metal oxide layer may include one or more materials selected from the group consisting of an indium oxide, a zinc oxide, a tin oxide, and any combination thereof.
US11984513B2
A charge trapping non-volatile organic memory device according to the present invention has a structure in which an organic matter-based blocking layer, a trapping layer, and a tunneling layer are sequentially positioned between a gate and an organic semiconductor layer positioned on an insulating substrate, the trapping layer including a metal oxide and a polymer, and has an organic-inorganic composite film in which the metal oxide is dispersed in a polymer matrix in units of atoms.
US11984509B2
A thin-film transistor, a display device including a thin-film transistor, and a method of manufacturing a thin-film transistor are provided. A thin-film transistor includes: a base substrate, a semiconductor layer on the base substrate, the semiconductor layer including: a first oxide semiconductor layer, and a second oxide semiconductor layer on the first oxide semiconductor layer, the second oxide semiconductor layer having a Hall mobility smaller than a Hall mobility of the first oxide semiconductor layer, and a gate electrode spaced apart from the semiconductor layer and partially overlapping the semiconductor layer, wherein a concentration of gallium (Ga) in the second oxide semiconductor layer is higher than a concentration of gallium (Ga) in the first oxide semiconductor layer.
US11984507B2
A semiconductor device including an active region extending in a first direction on a substrate; channel layers vertically spaced apart on the active region; a gate structure extending in a second direction and intersecting the active region, the gate structure surrounding the channel layers; a source/drain region on the active region in contact with the channel layers; and a contact plug connected to the source/drain region, wherein the source/drain region includes a first epitaxial layer on side surfaces of the channel layers and including a first impurity; a second epitaxial layer on the first epitaxial layer and including the first impurity and a second impurity; and a third epitaxial layer on the second epitaxial layer and including the first impurity, and in a horizontal sectional view, the second epitaxial layer includes a peripheral portion having a thickness in the first direction that increases along the second direction.
US11984506B2
Field effect transistors having field effect transistors having gate dielectrics with dipole layers and having gate stressor layers, and methods of fabricating field effect transistors having gate dielectrics with dipole layers and having gate stressor layers, are described. In an example, an integrated circuit structure includes a semiconductor channel structure including a monocrystalline material. A gate dielectric is over the semiconductor channel structure, the gate dielectric including a high-k dielectric layer on a dipole material layer, and the dipole material layer distinct from the high-k dielectric layer. A gate electrode has a workfunction layer on the high-k dielectric layer, the workfunction layer including a metal. A first source or drain structure is at a first side of the gate electrode. A second source or drain structure is at a second side of the gate electrode opposite the first side.
US11984505B2
A semiconductor device includes a substrate, a gate oxide layer, a gate electrode and an injection region. The substrate includes a trench, a source region, a drain region and a channel region. The trench includes trench sidewalls and a trench bottom wall. The gate oxide layer is disposed in the trench. The gate oxide layer includes a groove. The gate electrode is disposed in the groove. The injection region is located on at least a side of the trench bottom wall, and at least a part of the injection region is closer to the drain region than the source region so that a threshold voltage at a portion of the channel region close to the injection region is less than a threshold voltage at a portion of the channel region far from the injection region.
US11984501B2
A semiconductor device includes a semiconductor layer that has a first main surface at one side and a second main surface at another side, a plurality of gate electrodes that are arranged at intervals on the first main surface of the semiconductor layer, an interlayer insulating film that is formed on the first main surface of the semiconductor layer such as to cover the gate electrodes, an electrode film that is formed on the interlayer insulating film, and a plurality of tungsten plugs that, between a pair of the gate electrodes that are mutually adjacent, are respectively embedded in a plurality of contact openings formed in the interlayer insulating film at intervals in a direction in which the pair of mutually adjacent gate electrodes face each other and each have a bottom portion contacting the semiconductor layer and a top portion contacting the electrode film.
US11984496B2
A semiconductor device and a method for manufacturing the same are provided in this disclosure. The semiconductor device includes a semiconductor heterostructure layer. The semiconductor heterostructure layer includes alternating first semiconductor material layers and second semiconductor material layers. Two-dimensional electron gas (2DEG) may be generated between each first semiconductor material layer and adjacent second semiconductor material layer. A conductive structure, including a plurality of conductive fingers extends from a surface of the semiconductor heterostructure layer into the semiconductor heterostructure layer. The plurality of conductive fingers are arranged in a direction substantially parallel to the surface. The lengths of the plurality of conductive fingers progressively increase in that direction so that an end portion of each conductive finger is respectively positioned in a different first semiconductor material layer and is in contact with the 2DEG.
US11984491B2
Disclosed is a method of fabricating a contact in a semiconductor device. The method includes: receiving a semiconductor structure having an opening into which the contact is to be formed; forming a metal layer in the opening; forming a bottom anti-reflective coating (BARC) layer in the opening; performing implanting operations with a dopant on the BARC layer and the metal layer, the performing implanting operations including controlling an implant energy level and controlling an implant dosage level to form a crust layer with a desired minimum depth on top of the BARC layer; removing unwanted metal layer sections using wet etching operations, wherein the crust layer and BARC layer protect remaining metal layer sections under the BARC layer from metal loss during the wet etching operations; removing the crust layer and the BARC layer; and forming the contact in the opening over the remaining metal layer sections.
US11984486B2
A method including forming a III-V compound layer on a substrate and implanting a main dopant in the III-V compound layer to form source and drain regions. The method further includes implanting a group V species into the source and drain regions. A semiconductor device including a substrate and a III-V compound layer over the substrate. The semiconductor device further includes source and drain regions in the III-V layer, wherein the source and drain regions comprises a first dopants and a second dopant, and the second dopant comprises a group V material.
US11984478B2
A method includes forming a first portion of a spacer layer over a first fin and a second portion of the spacer layer over a second fin, performing a first etching process to recess the first portion of the spacer layer with respect to the second portion of the spacer layer to form first spacers on sidewalls of the first fin, subsequently performing a second etching process to recess the second portion of the spacer layer with respect to the first spacers to form second spacers on sidewalls of the second fin, where the second spacers are formed to a height greater than that of the first spacers, and forming a first epitaxial source/drain feature and a second epitaxial source/drain feature between the first spacers and the second spacers, respectively, where the first epitaxial source/drain feature is larger than that of the second epitaxial source/drain feature.
US11984476B2
The structure of a semiconductor device with isolation structures between FET devices and a method of fabricating the semiconductor device are disclosed. A method of fabricating the semiconductor device includes forming a fin structure on a substrate and forming polysilicon gate structures with a first threshold voltage on first fin portions of the fin structure. The method further includes forming doped fin regions with dopants of a first type conductivity on second fin portions of the fin structure, doping at least one of the polysilicon gate structures with dopants of a second type conductivity to adjust the first threshold voltage to a greater second threshold voltage, and replacing at least two of the polysilicon gate structures adjacent to the at least one of the polysilicon gate structures with metal gate structures having a third threshold voltage less than the first and second threshold voltages.
US11984470B2
A light-emitting diode includes a first semiconductor region having a first conductive type; a second semiconductor region having a second conductive type; and an active layer disposed between the first semiconductor region and the second semiconductor region and including phosphorus (P). The light-emitting diode has a rod shape, the second semiconductor region includes a first semiconductor layer, a second semiconductor layer, and a third semiconductor layer, which are sequentially stacked, the first semiconductor layer is disposed between the active layer and the second semiconductor layer, and the second semiconductor layer includes a compound represented by AlGaInP and satisfying Equation 1.
US11984457B2
A thin-film transistor (TFT) array substrate, a preparation method thereof, and a display device are provided. The TFT array substrate includes a source, a drain, and a first gate; wherein a protrusive structure is defined between the source and the drain, and the first gate is disposed inside the protrusive structure; and in a plane where a surface of the first gate is disposed, a sum of an overlapped area of a projection of the source and a projection of the first gate and an overlapped area of a projection of the drain and the projection of the first gate is less than an area threshold.
US11984455B2
A display device including: a substrate including a display area for displaying an image and a non-display area positioned at a periphery of the display area; a plurality of pixels positioned at the display area; a plurality of data lines connected with the plurality of pixels; and a crack detecting line positioned at the non-display area, wherein the crack detecting line includes: a plurality of unit connectors extending in a first direction, wherein the first direction is parallel to an extending direction of a side of the substrate nearest to the unit connectors; and a plurality of wiring portion units connected to each other through the plurality of unit connectors, wherein the number of wiring portion units is an even number.
US11984454B2
The display device has a first substrate having a display area including pixels and a peripheral area surrounding the display area and including a peripheral circuit, a second substrate arranged facing the first substrate, a liquid crystal layer arranged between the first substrate and the second substrate, and a plurality of gate wirings spaced apart in a first direction in the peripheral circuit of the first substrate, and a plurality of signal lines spaced apart in a second direction intersecting the first direction, wherein the second substrate has a black matrix with a lattice area at a position facing the display area and the peripheral circuit, and the lattice area of the black matrix is arranged to overlap the plurality of gate wirings and the plurality of signal lines of the peripheral circuit.
US11984443B2
An integrated circuit includes a first pair of power rails and a second pair of power rails that are disposed in a first layer, conductive lines disposed in a second layer above the first layer, and a first active area disposed in a third layer above the second layer. The first active area is arranged to overlap the first pair of power rails. The first active area is coupled to the first pair of power rails through a first line of the conductive lines and a first group of vias, and the first active area is coupled to the second pair of power rails through at least one second line of the conductive lines and a second group of vias different from the first group of vias.
US11984442B2
A layout includes a first and a second standard cells abutting along a boundary line. The first cell includes first fins. An edge of the first fins closest to and away from the boundary line by a distance D1. A first gate line over-crossing the first fins protrudes from the edge by a length L1. The second cell includes second fins. An edge of the second fins closest to and away from the boundary line by a distance D2. A second gate line over-crossing the second fins protrudes from the edge by a length L2. Two first dummy gate lines at two sides of the first fins and two second dummy lines at two sides of the second fins are respectively away from the boundary line by a distance S. The lengths L1 and L2, the distances S, D1 and D2 have the relationships: L1≤D1−S, L2≤D2−S, and D1≠D2.
US11984437B2
A light-emitting device includes first and second light-emitting elements, first and second support members bonded to the first and second light-emitting elements, respectively, first and second protective elements, and a plurality of wirings including: a first wiring with one end being bonded to the first light-emitting element or the first support member; a second wiring with one end being bonded to the first light-emitting element or the first support member and the other end being bonded to the second light-emitting element or the second support member; a third wiring with one end being bonded to the first protective element or a support member equipped with the first protective element; and a fourth wiring with one end being bonded to the second protective element or a support member equipped with the second protective element.
US11984435B2
A multi-pixel display device with an integrated circuit, a plurality of light-emitting semiconductor chips disposed on the integrated circuit, a display area having a plurality of pixels, each of the light-emitting semiconductor chips being associated with one of the pixels, a light-directing element disposed between the plurality of light-emitting semiconductor chips and the display area and adapted to direct the light of each light-emitting semiconductor chip from the plurality of light-emitting semiconductor chips to its associated pixel.
US11984429B2
Leadless power amplifier (PA) packages having topside termination interposer (TTI) arrangements, and associated fabrication methods, are disclosed. Embodiments of the leadless PA package include a base flange, a first set of interposer mount pads, a first RF power die, a package body. The first RF power die is attached to a die mount surface of the base flange and electrically interconnected with the first set of interposer mount pads. The TTI arrangement is electrically coupled to the first set of interposer mount pads and projects therefrom in the package height direction. The package body encloses the first RF power die and having a package topside surface opposite the lower flange surface. Topside input/output terminals of the PA package are accessible from the package topside surface and are electrically interconnected with the first RF power die through the TTI arrangement and the first set of interposer mount pads.
US11984416B2
A device for controlling trapped ions includes a first semiconductor substrate. A second semiconductor substrate is disposed over the first semiconductor substrate. At least one ion trap is configured to trap ions in a space between the first semiconductor substrate and the second semiconductor substrate. A spacer is disposed between the first semiconductor substrate and the second semiconductor substrate, the spacer including an electrical interconnect which electrically connects a first metal layer structure of the first semiconductor substrate to a second metal layer structure of the second semiconductor substrate.
US11984407B2
Embodiments of this application disclose a package structure and a communications device to which the package structure is applied. The package structure includes a substrate, a die, and a bonding layer configured to bond the die to the substrate. Charged particles are disposed in the bonding layer. An electrode is disposed on a surface of the die away from the bonding layer. A potential of the electrode is opposite to that of the charged particle. The package structure further includes a first shielding structure. A potential of the substrate is zero. The first shielding structure is located on an outer surface of the die and is located between the bonding layer and the electrode, to prevent the charged particles from migrating to the electrode.
US11984406B2
The examples of the present application disclose a semiconductor structure and a method for manufacturing the same. The semiconductor structure includes: a functional structure and a first mark structure located on a substrate, in which the functional structure and the first mark structure have the same feature size; and a first dielectric layer located at the functional structure and the first mark structure, in which a thickness of the first dielectric layer at the functional structure is different from a thickness of the first dielectric layer at the first mark structure. The examples of the present application can improve the alignment accuracy of the manufacturing process and improve the product yield and production efficiency at the same time.
US11984403B2
An integrated substrate structure includes a redistribution film, a circuit substrate, and a plurality of conductive features. The redistribution film includes a fine redistribution circuitry, a circuit substrate is disposed over the redistribution film and includes a core layer and a coarse redistribution circuitry disposed in and on the core layer. The circuit substrate is thicker and more rigid than the redistribution film, and a layout density of the fine redistribution circuitry is denser than that of the coarse redistribution circuitry. The conductive features are interposed between the circuit substrate and the redistribution film to be connected to the fine redistribution circuitry and the coarse redistribution circuitry. A redistribution structure and manufacturing methods are also provided.
US11984396B2
Embodiments of a system and methods for localized high density substrate routing are generally described herein. In one or more embodiments an apparatus includes a medium, first and second circuitry elements, an interconnect element, and a dielectric layer. The medium can include low density routing therein. The interconnect element can be embedded in the medium, and can include a plurality of electrically conductive members therein, the electrically conductive member can be electrically coupled to the first circuitry element and the second circuitry element. The interconnect element can include high density routing therein. The dielectric layer can be over the interconnect die, the dielectric layer including the first and second circuitry elements passing therethrough.
US11984389B2
An integrated circuit package structure includes a circuit board, an integrated circuit die and a conductive stair structure. The circuit has an upper surface. The integrated circuit die is located on the upper surface of the circuit board. The conductive stair structure is located on the upper surface of the circuit board. The conductive stair structure includes steps along a first direction substantially perpendicular to the upper surface of the circuit board. The steps have different heights relative to the upper surface of the circuit board.
US11984387B2
A first chip includes a first surface, a second surface, a first semiconductor layer including a nitride semiconductor layer, a first electrode pad located at the first surface, a second electrode pad located at the first surface, a first gate pad located at the first surface, and a third electrode pad located at the first surface. A second chip is located on the first surface of the first chip. The second chip includes a third surface facing the first surface of the first chip, a fourth surface, a second semiconductor layer including a channel of a second conductivity type, a fourth electrode pad located at the fourth surface, a fifth electrode pad located at the third surface and bonded to the second electrode pad of the first chip, and a second gate pad located at the third surface and bonded to the third electrode pad of the first chip.
US11984384B2
Embodiments relate to an electronic circuit implemented using a first integrated circuit die, a second integrated circuit die, and an interposer connecting the first integrated circuit die to the second integrated circuit die. The first integrated circuit die implements a first electronic circuit. The first integrated circuit die includes a first set of contacts on a bottom surface, a buried power rail (BPR), and a plurality of through-silicon vias (TSV) for connecting the BPR to the first set of contacts. The interposer includes a second set of contacts and a power delivery network (PDN). Each contact of the second set of contact corresponds to a contact of the first set of contacts of the first integrated circuit die. The PDN is configured to route a power supply voltage to the second set of contacts.
US11984383B2
The plurality of first active elements, the plurality of second active elements, and the passive element are disposed in a first range, a second range, and a third range in the first direction, respectively. The third range is between the first range and the second range. Pin fins are accommodated in an opening of a cooling jacket. The opening has a first outlet and a second outlet at a downstream end in a second direction. The first outlet and the second outlet are disposed in the first range and the second range, respectively. The cooling jacket has a flow dividing wall at a downstream end in the second direction. The flow dividing wall is disposed in the third range. The cooling jacket has a refrigerant introduction groove on a bottom surface.
US11984374B2
A method includes placing a package component over a carrier. The package component includes a device die. A core frame is placed over the carrier. The core frame forms a ring encircling the package component. The method further includes encapsulating the core frame and the package component in an encapsulant, forming redistribution lines over the core frame and the package component, and forming electrical connectors over and electrically coupling to the package component through the redistribution lines.
US11984365B2
A high atomic number material is applied to one or more surfaces of a semiconductor structure of a wafer. The one or more surfaces are at a depth different from a depth of a surface of the wafer. An electron beam is scanned over the semiconductor structure to cause a backscattered electron signal to be collected at a collector. A profile scan of the semiconductor structure is generated based on an intensity of the backscattered electron signal, at the collector, resulting from the high atomic number material. The high atomic number material increases the intensity of the backscattered electron signal for the one or more surfaces of the semiconductor structure such that contrast in the profile scan is increased. The increased contrast of the profile scan enables accurate critical dimension measurements of the semiconductor structure.
US11984358B2
Exemplary methods of producing a semiconductor substrate may include plating a metal within a plurality of vias on the semiconductor substrate. A target average fill thickness of the metal within the plurality of vias may be between about a thickness equal to an average via radius of the plurality of vias and a thickness twice the average via radius of the plurality of vias. At least one via of the plurality of vias may be filled to a height below the target average fill thickness of the metal. The methods may include heating the metal to cause reflow of the metal within each via of the plurality of vias. The reflow may adjust the metal within the at least one via to increase in height towards the target average fill thickness.
US11984357B2
The present application discloses a semiconductor structure. The semiconductor structure includes: a substrate, the substrate being provided with a conductive structure; a first lower electrode and a second lower electrode sequentially stacked, the first lower electrode being located between the second lower electrode and the substrate, and the first lower electrode being electrically connected to the conductive structure; a first dielectric layer and a first upper electrode, the first dielectric layer covering a sidewall surface of the first lower electrode, and the first upper electrode being located on one side of the first dielectric layer away from the first lower electrode; and a second dielectric layer and a second upper electrode, the second dielectric layer covering an inner wall and a bottom surface of the second lower electrode, and the second upper electrode filling the recess of the second lower electrode.
US11984356B2
A semiconductor device with liner-free contact structures and a method of fabricating the same are disclosed. The method includes forming first and second source/drain (S/D) regions on first and second fin structures, forming a first dielectric layer between the first and second S/D regions, forming first and second gate-all-around (GAA) structures on the first and second fin structures, forming a second dielectric layer on the first and second GAA structures and the first dielectric layer, forming a tapered trench opening in the second dielectric layer and on the first and second GAA structures and the first dielectric layer, selectively forming a seed layer on top surfaces of the first and second GAA structures and the first dielectric layer that are exposed in the tapered trench opening, and selectively depositing a conductive layer on the seed layer to fill the tapered trench opening.
US11984350B2
A method includes forming a transistor over a substrate; forming a front-side interconnection structure over the transistor; after forming the front-side interconnection structure, removing the substrate; after removing the substrate, forming a backside via to be electrically connected to the transistor; depositing a dielectric layer to cover the backside via; forming an opening in the dielectric layer to expose the backside via; forming a spacer structure on a sidewall of the opening; after forming a spacer structure, forming a conductive feature in the opening to be electrically connected to the backside via; and after forming the conductive feature, forming an air gap in the spacer structure.
US11984346B2
Provided is a susceptor which makes it possible to increase the circumferential flatness uniformity of an epitaxial layer of an epitaxial silicon wafer. A susceptor 100 is provided with a concave counterbore portion on which a silicon wafer W is placed, and the radial distance L between the center of the susceptor and an opening edge of the counterbore portion varies at 90° periods in the circumferential direction. Meanwhile, when the angle at which the radial distance L is minimum is 0°, the radial distance L is a minimum value L1 at 90°, 180°, and 270°; and the radial distance L is a maximum value L2 at 45°, 135°, 225°, and 315°. Accordingly, the pocket width Lp also varies in conformance with the variations of the radial distance L. The opening edge 110C describes four elliptical arcs being convex radially outward when the susceptor 100 is viewed from above.
US11984345B2
The present disclosure is related to a substrate processing apparatus. The substrate processing apparatus may include a chuck including a plurality of pin holes and a plurality of lift pins positioned to rise and fall through the plurality of pin holes. The substrate processing apparatus may include a lift plate configured to raise and lower the lift pins. The plurality of lift pins may include a lift pin having a rod shape configured to move up and down in a pin hole of the plurality of pin holes, a flexure coupled to a lower portion of the lift pin, a weight body positioned underneath the lift plate, and a weight string connecting the flexure and the weight body. The lift plate may include a string hole through which the weight string passes through.
US11984340B2
A teaching method for a transfer mechanism is provided. The teaching method includes (a) placing a first substrate or an edge ring on a fork of the transfer mechanism, transferring the first substrate or the edge ring to a target position, and placing the first substrate or the edge ring onto the target position; (b) placing a second substrate having a position detection sensor on the fork, and transferring the second substrate to a position directly above or below the target position; (c) detecting an amount of deviation between the first substrate or the edge ring and the target position using the position detection sensor of the second substrate; and (d) correcting transfer position data of the transfer mechanism for the first substrate or the edge ring to be transferred next, based on the detected amount of deviation.
US11984336B2
Proposed is a wafer storage container for accommodating wafers in a storage chamber and, more particularly, a wafer storage container that can effectively block contaminated outside air flowing into the wafer storage container from an external chamber.
US11984320B2
Provided is a method that is for polishing a silicon wafer by a polishing device using a carrier holding the silicon wafer, and that can reduce wear on the carrier. In this polishing method, a polishing liquid used in the polishing device contains 0.1-5 mass %, in terms of the concentration of silica, silica particles comprising: silica particles (A) having an average primary particle size of 4-30 nm as measured by BET, and having an (X2/X1) ratio of 1.2-1.8, where X2 (nm) represents an average particle size along the major axis thereof as calculated from a perspective projection image obtained using an electron beam, and X1 (nm) represents the average primary particle size as measured by BET; and silica particles (B) having an average primary particle size of more than 30 nm but not more than 50 nm as measured by BET, and having a (X2/X1) ratio of 1.2-1.8, where X2 (nm) represents an average particle size along the major axis thereof as calculated from a perspective projection image obtained using an electron beam, and X1 (nm) represents the average primary particle size as measured by BET, wherein the mass ratio of the silica particles (A) to the silica particles (B) is 100:0 to 85:15.
US11984318B2
A method for patterning structures including providing a layer stack having a plurality of device layers and a hardmask layer disposed in a stacked arrangement, the layer stack having a plurality of trenches formed therein, the trenches extending through the hardmask layer and into at least one of the device layers, the trenches having lateral sidewalls with a first slope relative to a plane perpendicular to upper surfaces of the device layers, and performing a sputter etching process wherein ion beams are directed toward the hardmask layer to etch the hardmask layer and cause etched material from the hardmask layer to be redistributed along the lateral sidewalls of the trenches to provide the lateral sidewalls with a second slope relative to the plane perpendicular to the upper surfaces of the device layers, the second slope less than the first slope.
US11984316B2
A device includes a substrate; a first layer over the substrate, the first layer containing a plurality of fin features and a trench between two adjacent fin features. The device also includes a porous material layer having a first portion and a second portion. The first portion is disposed in the trench. The second portion is disposed on a top surface of the first layer. The first and the second portions contain substantially same percentage of Si, substantially same percentage of O, and substantially same percentage of C.
US11984314B2
A particle removal method for removing particles on the backside of a reticle is provided. The method includes disposing the reticle on a reticle holder. In addition, the method includes moving a baffle defining an enclosed area that encompasses a particle to be removed on a backside of the reticle. The method further includes spraying, by a solution spraying module of a particle removal device, a solution onto the particle. The method further includes sucking, by a sucking module of the particle removal device, the solution on the reticle with the particle. The method further includes emitting, by the particle removal device, a gas onto the backside of the reticle for drying the backside.
US11984309B1
A non-radioactive homogenous plasma ion source that is power efficient with greater electrode life longevity and performance (homogenous low temperature plasma for ion formation, stability, robustness) than alternative non-radioactive ion sources for generating analyte ions of either positive or negative charge. Its compact design minimizes the spacing between electrodes, reducing the power requirements needed to ignite and maintain plasma levels. The non-radioactive plasma ion source generally comprises a housing for retaining a uniquely designed ion source that generates a uniform distribution of plasma to maximize the generation of ions at a lower plasma temperature to minimize undesirable nitrogen oxide and ozone gasses, at least one planar electrode in one embodiment, a mounting head with a gas exhaust, and a chamber with a counterflow gas inlet, and an analyte gas inlet. The non-radioactive plasma source improves ion source reliability over existing non-radioactive sources that are less efficient with reduced electrode life longevity.
US11984308B2
A method for measuring the concentration of fluorine gas (F2) contained in a halogen fluoride-containing gas using an analysis apparatus having a halogen fluoride-containing gas supply source, a fluorine-containing gas supply source, a tube, a capillary, and a mass spectrometer, the method including, before measuring the concentration of fluorine gas, performing passivation treatment on the tube and the capillary using a passivation gas containing a fluorine-containing gas supplied from the fluorine-containing gas supply source.
US11984306B2
Embodiments provided herein generally include plasma processing systems configured to preferentially clean desired surfaces of a substrate support assembly by manipulating one or more characteristics of an in-situ plasma and related methods. In one embodiment, a plasma processing method includes generating a plasma in a processing region defined by a chamber lid and a substrate support assembly, exposing an edge ring and a substrate supporting surface to the plasma, and establishing a pulsed voltage (PV) waveform at the edge control electrode.
US11984303B2
A first electrostatic chuck of a substrate support of the disclosed plasma processing apparatus has first and second electrodes and holds an edge ring. A second electrostatic chuck of the substrate support holds a substrate. The first electrode extends closer to the second electrostatic chuck than the second electrode. During plasma processing, a first voltage having a positive polarity is applied to the first and second electrodes. In a first period after the plasma processing, a second voltage having a negative polarity is applied to the first and second electrodes. In a second period after the first period, a third voltage having a positive polarity is applied to the first electrode, and a fourth voltage having a negative polarity is applied to the second electrode. The absolute value of the third voltage is smaller than the absolute value of the first voltage and the absolute value of the second voltage.
US11984302B2
A plasma chamber includes a chamber body having a processing region therewithin, a liner disposed on the chamber body, the liner surrounding the processing region, a substrate support disposed within the liner, a magnet assembly comprising a plurality of magnets disposed around the liner, and a magnetic-material shield disposed around the liner, the magnetic-material shield encapsulating the processing region near the substrate support.
US11984299B2
A deposition device includes a chamber, a support member, a ground member, and a first fixing member. The chamber includes a lower portion and a side wall. The support member is located in a space defined by the lower portion and the side wall of the chamber, and includes a side surface. The ground member is disposed between the support member and the lower portion of the chamber. The first fixing member includes a first body and a first blocking part. The first body is located under a first end portion of the ground member, and includes a side surface. The first blocking part is located on the side surface of the first body and the side surface of the support member, and extends along the side surface of the support member. The first blocking part shields the first end portion of the ground member from view.
US11984297B2
A plasma control device includes a matching circuit, a resonance circuit, and a controller. The matching circuit is connected to a first electrode of a plasma chamber including the first electrode and a second electrode, and matches impedance of a radio frequency (RF) power by an RF driving signal with an impedance of the first electrode. The RF driving signal is based on a first RF signal having a first frequency. The resonance circuit is connected between the second electrode and a ground voltage, and controls plasma distribution within the plasma chamber by providing resonance with respect to harmonics associated with the first frequency and by adjusting a ground impedance between the second electrode and the ground voltage. The controller provides the resonance circuit with a capacitance control signal associated with the resonance and switch control signals associated with the ground impedance.
US11984296B2
A substrate support for supporting a substrate in a substrate processing system includes a baseplate and a ceramic layer arranged above the baseplate. An outer perimeter of the ceramic layer is surrounded by an edge ring. An outer radius of the ceramic layer is greater than an inner radius of the edge ring such that an outer edge of the ceramic layer extends below the edge ring.
US11984290B2
A hybrid circuit breaker for interrupting a current in an electrical circuit line, the hybrid circuit breaker includes an input terminal for connection to a power line and an output terminal for connection to a DC system, a first solid state switching device connected to the input terminal, and a mechanical isolator relay arranged in series with the first solid state switching device and connected to the output terminal. The hybrid circuit breaker further includes a crowbar circuit electrically connected between the output terminal and ground or mid-pole, and a controller for controlling the first solid state switching device, the mechanical isolator relay and the crowbar circuit.
US11984283B2
A relay includes an electromagnetic drive unit with a rotatable armature and a yoke. The rotatable armature includes a first magnetic contact region and the yoke includes a second magnetic contact region. The first magnetic contact region is in touch with the second magnetic contact region in a first state of the relay. The relay further includes at least one immovable first electric contact and a moveable contact arm with at least one second electric contact. The first electric contact contacts the second electric contact in the first state. The rotatable armature and the moveable contact arm are positioned together on a shaft and the shaft is embodied as a torsional element.
US11984282B2
A circuit breaker, in particular of a power breaker, having a busbar which is mounted so as to be movable between a closed position and an open position. The busbar, a trip device and a hand lever are coupled by means of the mechanism in such a way that, when the hand lever is moved from the first position into the second position, the busbar is moved from the open position into the closed position. Upon tripping of the trip device, the busbar is moved from the closed position into the open position, and the hand lever is moved from the second position into the first position if it is not blocked. When the hand lever is moved from the second position into the first position, the busbar is moved from the closed position into the open position regardless of whether the busbar is blocked in the closed position.
US11984277B2
A push switch contains a case including a housing space having an upper-opening and including fixed-contacts disposed on a bottom of the housing space, a movable contact member disposed in the housing space configured to deform in response to receiving pressure applied from above, and contacting the fixed-contacts upon defoming in response to the received pressure, and a pushing member disposed on the movable contact member and configured to transmit the received pressure to the movable contact member. The movable contact member includes a pair of first-linear edges, wherein the pushing member includes a plurality of projecting-pressing portions disposed on a bottom surface of the pushing member facing the movable contact member, and wherein the plurality of pressing portions is disposed on the bottom surface at positions not overlapping a straight-line that passes through a center of the movable contact member and intersecting each of the pair of first-linear edges.
US11984275B2
An electrical mains plug having a body formed of an electrically insulating material is described. Two contact pins are arranged parallel to one another and which project out of the body at a first side thereof, and inside the body are connected or can be connected in each case to an electrical conductor which leads out or can be led out of the body at a second side thereof. The thermal bimetallic element is provided as a temperature sensor, said thermal bimetallic element being a constituent part of the thermal bimetallic switch which is associated with at least one of two contact pins. An electrical connection cable suitable therefor and an electrical device connected thereto are also described.
US11984270B2
A mold includes a pair of first mold parts, a pair of second mold parts, and a pair of third mold parts that define six surfaces of a molded body substantially having a rectangular parallelepiped shape. At least one of the pair of third mold parts includes an upper mold part and a lower mold part. The upper mold part defines an upper space of a molding space, and the lower mold part defines a lower space of the molding space. The upper mold part and the lower mold part are individually slidable. The lower mold part protrudes toward the molding space with respect to the upper mold part so that a step portion is formed. The upper mold part is slidable in cooperation with the lower mold part in a state in which the step portion is formed or absent.
US11984261B2
Integration scheme for breakdown voltage enhancement of a piezoelectric metal-insulator-metal device
Various embodiments of the present disclosure are directed towards an integrated chip including a dielectric structure sandwiched between a first electrode and a bottom electrode. A passivation layer overlies the second electrode and the dielectric structure. The passivation layer comprises a horizontal surface vertically below a top surface of the passivation layer. The horizontal surface is disposed above a top surface of the dielectric structure.
US11984260B2
An electronic device includes a chip component, a conductive terminal, a case, and a fixation part. The chip component includes a terminal electrode on an end surface of the chip component. The conductive terminal is connected to the terminal electrode. The case includes an accommodation recess for accommodating the chip component. The fixation part fixes the case to an installation portion.
US11984242B2
A flame-retardant electric cable having a core comprising at least one electric conductor, an electrically insulating coating and an outermost layer made from a flame-retardant polymer composition comprising: a) polyvinylchloride (PVC) as base polymer; b) 25-45% (70-110 phr) by weight of at least one metal hydroxide; c) 0.4-3% (about 1-8 phr) by weight of an optionally surface-treated montmorillonite having average particle dimensions of from 5 to 20 μm; d) 1.2-3% (about 3-8 phr) by weight of antimony trioxide; wherein the sum of the amount of montmorillonite and antimony trioxide is at least 5.5 phr and wherein the antimony trioxide and montmorillonite are in a ratio of from 1:0.1 to 1:2.5.
US11984234B2
A condensation system for recuperating energy discharge of a nuclear power plant comprises a nuclear power unit, a compressor, a condenser, a water chamber equipped with a sprinkler, an electrical current generator, a pure water pump station, a cooling water pump station, a secondary condensate pool and a turboexpander. The compressor is connected to the condenser, which is connected to the turboexpander, which is supplied with the electric current generator and is connected to the water chamber, which is connected to the secondary condensate pool, which is connected to the pure water pump station, the condenser being connected to the cooling water pump station, wherein the compressor is connected by a pressure air duct to a wastewater channel, which is connected to the nuclear power unit and is equipped with a sealing cover.
US11984233B2
A method for decommissioning a heavy water reactor facility includes: removing the plurality of guide tubes from a plurality of through-holes; installing a plurality of shielding stoppers in the plurality of through-holes; removing the shielding stopper installed in one through-hole of the plurality of through-holes, and inserting a cutting device into a lower portion of the reactivity mechanism deck through the one through-hole to cut a connection portion between the reactivity mechanism deck and the calandria vault by using the cutting device; and separating the reactivity mechanism deck from the calandria vault.
US11984222B2
Disclosed are systems and methods for sharing health information. For example, the system includes a sensor unit adjacent a building entrance, a first computing device of a visitor to the building entrance, and a second computing device associated with an occupant of the building. The system can include device connected to a smart-home network. One method includes detecting the first computing device adjacent the entrance, requesting health data from the first computing device, the first computing device checking for authorization to share the health data with a user associated of the second computing device; the first computing device sending health data to the second computing device, a second computing device receiving the health data pertaining to the user of the first computing device, and the second computing device notifying the user of the second computing device based on the received health data.
US11984220B2
A virtual consultation method and an electronic device are provided. The method includes: receiving physiological information obtained through sensing a user by a sensing device; analyzing the physiological information to obtain an analysis result; adjusting weights of a plurality of questions according to the analysis result and determining a first question applicable to the user and an order of the first question according to the weights; and outputting the first question according to the order to simulate a question asked by a doctor for the user during consultation.
US11984214B2
A ventilator system is capable of displaying complex information patterns in a GUI, thereby allowing a clinician to get subtract complex information from multiple parameters inputs.
US11984207B2
Provided are a medical document creation support apparatus, a method, and a non-transitory computer readable recording medium storing a program capable of efficiently correcting medical documents such as interpretation reports. A first display control unit displays a medical document including at least one of a plurality of findings indicating features related to abnormal shadows included in a medical image in a first display region on a display screen. A second display control unit displays a list of the plurality of findings in a second display region on the display screen so that each finding is correctable. A correction unit corrects the medical document according to a correction instruction for a designated finding in the list of the plurality of findings.
US11984204B2
An apparatus for measuring liquid volume in a container includes a plurality of light sources for emitting electromagnetic radiation (EMR) toward the container, a plurality of sensors optically coupleable to the plurality of light sources, each sensor of the plurality of sensors for detecting the EMR emitted by at least a portion of the plurality of light sources, a temperature sensor for measuring at least one temperature associated with a liquid in the container, and at least one processor for receiving data representative of the portion of the detected EMR from each of the plurality of sensors, comparing the at least one measured temperature to a temperature guideline to identify any temperature events associated with the received data; normalizing the received data based on any temperature events associated with the received data; and converting the normalized data into a signature representative of the EMR detected by the plurality of sensors.
US11984200B2
Various methods, systems, computer readable media, and graphical user interfaces (GUIs) are presented and described that enable a subject, doctor, or user to characterize or classify various types of cancer precisely. Additionally, described herein are methods, systems, computer readable media, and GUIs that enable more effective specification of treatment and improved outcomes for patients with identified types of cancer. Some embodiments of the methods, systems, computer readable media, and GUIs described herein comprise obtaining RNA expression data and/or whole exome sequencing (WES) data for a biological sample from a plurality of subjects, determining a respective plurality of molecular-functional (MF) profiles for the plurality of subjects, and storing the plurality of MF profiles in association with information identifying the particular cancer type.
US11984194B2
A layout of a delay circuit unit, a layout of a delay circuit, and a semiconductor memory are provided. The layout of the delay circuit unit includes multiple layout units arranged in an array and each forming a NOT-AND (NAND) gate circuit; here several layout units conforming to a first layout pattern are sequentially arranged in a first row of the array; and several layout units conforming to a second layout pattern are sequentially arranged in a second row of the array; here the first layout pattern is different from the second layout pattern, and the first layout pattern and the second layout pattern are such that the first row and the second row form a center-symmetrical structure.
US11984193B2
The present disclosure provides page buffer circuits of 3D NAND devices. In some embodiments, the page buffer circuit comprises a first bit line segment sensing branch connected to a first bit line segment of a bit line, and a second bit line segment sensing branch connected to a second bit line segment of the bit line. The first bit line segment sensing branch and the second bit line segment sensing branch are parallel connected to a sensing node of the page buffer circuit. In some embodiments, the first bit line segment sensing branch comprises a first sense latch and a first bit line pre-charge path, and the second bit line segment sensing branch comprises a second sense latch and a second bit line pre-charge path.
US11984182B2
A repair system and a repair method for a semiconductor structure, a storage medium, and an electronic device are provided. The semiconductor structure includes a main memory area and a redundant memory area. The repair system of the present disclosure includes a test circuit, a control circuit, and a repair circuit. The test circuit is configured to perform defect detection on the main memory area to determine a failed cell of the main memory area and position information of the failed cell. The control circuit is connected to the test circuit, and is configured to store the position information of the failed cell and generate a repair signal according to the position information. The repair circuit is connected to the control circuit, and is configured to receive the repair signal and perform a repair operation on the failed cell through the redundant memory area.
US11984168B2
An interface circuit that can operate in toggle mode at data high transfer rates while reducing the self-induced noise is presented. The high speed toggle mode interface supplies a data signal to a data line or other transfer line by a driver circuit. The driver circuit includes a pair of series connected transistors connected between a high supply level and a low supply level, where the data line is supplied from a node between the two transistors. A resistor is connected between one or both of the transistors and one of the supply levels, with a capacitor connected between the low supply level and a node between the resistor and the transistor. The resistor helps to isolate the transistor from the supply level while the capacitor can act as current reservoir to boost the current to the transistor during data transition, reducing the noise seen by the voltage supply.
US11984167B2
According to one embodiment, a memory system includes a nonvolatile semiconductor memory device, a voltage generation unit and a control unit. The nonvolatile semiconductor memory device includes a memory cell array having a plurality of blocks each including a plurality of memory cells, and a voltage generation unit configured to change a read level of the memory cell. The control unit controls write, read, and erase of the nonvolatile semiconductor memory device. The control unit changes the read level between a start of use of the nonvolatile semiconductor memory device and a timing after an elapse of a time.
US11984165B2
A memory device includes a plurality of word lines (WLs). The memory device includes a plurality of drivers that are each configured to control a corresponding one of the plurality of WLs and each comprise a first transistor having a first conductive type and a second transistor having a second conductive type. The first transistor of a first one of the drivers is formed in a first well of a substrate, and the second transistor of the first driver is formed in a second well of the substrate. The first well is spaced apart from the second well.
US11984163B2
A memory cell includes a first resistive memory element, a second resistive memory element electrically coupled with the first resistive memory element at a common node, and a switching element comprising an input terminal electrically coupled with the common node, the switching element comprising a driver configured to float during one or more operations.
US11984161B2
Systems, methods, and apparatus related to spike current suppression in a memory array. In one approach, a memory device includes a memory array having a cross-point memory architecture. The memory array has access lines (e.g., word lines and/or bit lines) configured to access memory cells of the memory array. Each access line has left and right portions. Spike current suppression is implemented by charge screening structures. The charge screening structures are formed by laterally integrating insulating layers into selected interior regions of the left and/or right portions of the access line. The insulating layers vertically separate the access line into top and bottom conductive portions above and below the insulating layers. For memory cells located overlying or underlying the insulating layers, the resistance to each memory cell is increased because the cell is accessed using only the higher resistance path of the top or bottom conductive portion. During a spike discharge, charge is choked by this higher resistance path. This suppresses spike current that occurs when the memory cell is selected.
US11984158B2
An non-volatile static random access memory (nvSRAM) is provided in the present invention, including a first pass gate transistor, a second pass gate transistor, a first pull-up transistor, a second pull-up transistor, a first pull-down transistor and a second pull-down transistor, which construct collectively two cross-coupled inverters with two storage nodes, wherein resistive random-access memories (RRAM) are set between the first storage node, the first pull-up transistor and the first pull-down transistor and between the second storage node, the second pull-up transistor and the second pull-down transistor.
US11984156B2
A non-volatile memory device is provided. The non-volatile memory device may include a memory cell array, a first pumping circuit configured to output a first pumping voltage, a second pumping circuit configured to pump the first pumping voltage of the first pumping circuit to output a second pumping voltage, and a pumping circuit control unit which is connected to the first pumping circuit and the second pumping circuit and configured to output at least one of the first pumping voltage and the second pumping voltage to the memory cell array. The first pumping circuit may be enabled in a first mode and a second mode different from the first mode, and the second pumping circuit may be disabled or not enabled in the first mode and enabled in the second mode.
US11984152B2
A memory device having long data retention time and high reliability is provided. The memory device includes a driver circuit and a plurality of memory cells, the memory cell includes a transistor and a capacitor, and the transistor includes a metal oxide in a channel formation region. The transistor includes a first gate and a second gate, and in a period during which the memory cell retains data, negative potentials are applied to the first gate and the second gate of the transistor.
US11984151B2
A circuit includes a memory array with SRAM cells connected in rows by word lines and in columns by bit lines. A row controller circuit simultaneously actuates, through a word line driver circuit for each row, word lines in parallel for an in-memory compute operation. A column processing circuit processes analog voltages developed on the bit lines in response to the simultaneous actuation to generate a decision output for the in-memory compute operation. A bit line precharge circuit generates a precharge voltage for application to each pair of bit lines. The precharge voltage has a first voltage level (not greater than a positive supply voltage for the SRAM cells) when the memory array is operating in a data read/write mode. The precharge voltage has a second voltage level (greater than the first voltage level) in advance of the simultaneous actuation of the word lines for the in-memory compute operation.
US11984150B2
Methods, systems, and devices for word line drivers for multiple-die memory devices are described. A memory device may include a first semiconductor die associated with at least memory cells and corresponding access lines of the memory device, and a second semiconductor die associated with at least access line driver circuitry of the memory device. The second semiconductor die may be located in contact with or otherwise adjacent to the first semiconductor die, and electrical contacts may be formed to couple the access line driver circuitry of the second semiconductor die with the access line conductors of the first semiconductor die. For example, cavities may be formed through the second semiconductor die and at least a portion of the first semiconductor die, and the electrical contacts may be formed between the semiconductor dies at least in part from forming a conductive material in the cavities.
US11984149B2
This document discloses a solution for controlling refreshing of memory resources of a dynamic random access memory. According to an aspect, there is disclosed an apparatus for a radio device, comprising: a dynamic random access memory circuit; a memory allocator configured to allocate memory resources from the dynamic random access memory circuit and to determine unallocated memory resources; a radio modem configured to communicate with the memory allocator in order to gain memory resources from the dynamic random access memory circuit; a memory refresh circuit configured to refresh the memory resources of the dynamic random access memory circuit; and a controller configured to determine, on the basis of a state change signal received from a radio modem of the radio device, that the radio modem is in an idle state and, in response to said determining, to control the memory refresh circuit to disable said refresh of the unallocated memory resources.
US11984148B2
The address of victim rows may be determined based on rows that are accessed in a memory. The victim addresses may be stored and associated with a count for every time a victim row is “victimized.” When the count for a victim row reaches a threshold, the victim row may be refreshed to preserve data stored in the row. After the victim row has been refreshed, the count may be reset. When a victim row is accessed, the count may also be reset. The counts may be adjusted for closer victim rows (e.g., +/−1) at a faster rate than counts for more distant victim rows (e.g., +/−2). This may cause closer victim rows to be refreshed at a higher rate than more distant victim rows.
US11984144B2
According to one embodiment, a disk device includes a magnetic head, a piezoelectric element and a flexure. The piezoelectric element includes two electrodes. The flexure includes a first part and a second part that swings. The first part has a first surface to which a first electrode is joined. The second part has a second surface to which the magnetic head is joined. The magnetic head has a third surface facing the first surface and the second surface. The first electrode is spaced apart from a second electrode in a first direction. The first surface and an end of the third surface face each other. The second surface and another end of the third surface face each other. A distance between the first surface and the one end of the third surface is longer than a distance between the second surface and the other end of the third surface.
US11984143B2
According to one embodiment, among a plurality of magnetic heads, the larger the magnetic pole width of the magnetic pole of the magnetic head in the width direction of a recording track formed in a recording layer or the larger an area width of the magnetic head capable of reading the magnetic characteristics of an area of the recording layer on which magnetic recording has been carried out by means of the magnetic head, the farther is the magnetic head arranged outwardly from the vicinity of the center in the parallel arrangement direction of the magnetic disks.
US11984133B2
Disclosed is an operation device including an interaction member, a microphone, a control circuit, and an audio signal processing circuit. The interaction member is used for interacting with a user. The control circuit periodically acquires scan data indicating the acting status of the interaction member. The audio signal processing circuit executes a noise removal process of removing noise from a collected audio signal collected by the microphone. The control circuit periodically transmits previously acquired scan data to the audio signal processing circuit. The audio signal processing circuit executes the noise removal process by using the scan data transmitted from the control circuit.
US11984126B2
A device for recognizing a speech input and an operating method thereof are provided. The device may be configured to: obtain one or more text candidates comprising a character string in which it is predicted that the speech input is to be converted by recognizing a speech input using an automatic speech recognition (ASR) model; extract text history information corresponding to the speech input from a database by comparing the speech input with a plurality of speech signals previously stored in the database; and perform training to adjust a weight of each of the one or more text candidates using the extracted text history information. Also, a method in which the device recognizes a speech input using an AI model may be performed.
US11984108B2
A method and system for noise cancellation is disclosed. In one embodiment, the method may include receiving, from a first sensor, a first signal indicative of a noise generated by an equipment. The first sensor may be configured to generate the first signal indicative of the noise generated by the equipment. The first sensor may be positioned in proximity to the equipment. The method may further include generating a noise cancellation signal based on the first signal and triggering a speaker to generate a sound corresponding to the noise cancellation signal, wherein the speaker is positioned in proximity to the equipment.
US11984103B2
A displacement amount detecting apparatus is provided and includes: transmission member, transmitting a displacement on one end side thereof to a displacement on the other end side thereof; a sensor, disposed to face the other end side of the transmission member, and configured to output a value according to a distance between the sensor and the other end side of the transmission member; a calculation device, calculating a value for indicating the distance based on the value output by the sensor and a reference value; and a correction device, correcting the reference value. When the one end side is displaced in a first direction, the other end side is displaced in a second direction opposite to the first direction and away from the sensor. The correction device is configured to correct the reference value based on the value for indicating the distance calculated by the calculation device.
US11984099B2
A drum head and an attachment method of a cushion are provided. A drum head includes: a diaphragm; an outer cushion that is joined to the diaphragm and has a predetermined cushioning property; an inner cushion that is interposed between the outer cushion and the diaphragm and has a predetermined cushioning property; and at least one joint that joins the outer cushion to the diaphragm in a state in which the inner cushion is pressed against the diaphragm by the outer cushion.
US11984097B2
A display apparatus and a display method for a multi-layer superimposition are provided. When a display presents a user interface, a touch trajectory from a user can be detected via a touch component, and a touch trajectory pattern is present in a first layer; upon obtaining the touch trajectory pattern, an interpolation operation can also be performed on the touch trajectory pattern in the first layer according to a background pattern in a second layer; finally, a converted pattern obtained after the interpolation operation and the background pattern are superimposed and presented on the display.
US11984095B1
An information handling system display has a foldable display panel that incrementally transitions between a flat and fully curved configuration with an amount of curve set based on one or more of plural conditions, such as a distance to a view, an application selected to present visual information, a location and size of visual information presented in a window or other partial area of the display panel, a type of input device or other factors. An end user may configure the display to adjust display panel curve radius as desired by personal preference, and the display panel tracks manual curvature selections by an end user to adapt automatically to the end user's preferences.
US11984091B2
Systems, methods, and devices are provided to selectively perform a frame replay at various stages of an image processing pipeline for an electronic display. Image processing circuitry may include first compensation circuitry that compensates for a first compensation factor relating to a first physical parameter of an electronic display and second compensation circuitry that compensates for a second compensation factor relating to a second physical parameter of the electronic display. A first tap point that enables the image frame to be stored and reused may be located between the first compensation circuitry and the second compensation circuitry, while a second tap point may be located after the second compensation circuitry.
US11984090B2
The present invention provides four-particle electrophoretic displays with improved driving methods to achieve better color separation between adjacent pixel electrodes. The driving methods improve the color state performance when a first pixel is displaying a mixed state of a first highly-charged particle and a second lower-charged particle of the opposite polarity, while a neighboring pixel is displaying a state of a second highly-charged particle having the opposite polarity to the first highly-charged particle. The particles can be, for example, all reflective or one type of particle can be partially light transmissive.
US11984085B2
A shift register unit, a gate driving circuit, a display device, and a driving method are disclosed. The shift register unit includes a first sub-circuit, a second sub-circuit, a leakage prevention circuit and a blanking input sub-circuit, wherein the first sub-circuit comprises a first input circuit and a first output circuit; the second sub-circuit comprises a second input circuit and a second output circuit; the leakage prevention circuit is configured to control a level of a leakage prevention node under control of the level of the first node, so as to turn off a circuit connected between the first node and the leakage prevention node; and the blanking input sub-circuit is connected to the first node and the second node, and is configured to receive a selection control signal and a first clock signal, and control the level of the first node and the level of the second node.
US11984079B2
Provided is a display panel. The display panel includes: a substrate, at least one row of light-emitting elements disposed on the substrate, a plurality of pixel drive circuits, a plurality of connection lines, and a plurality of compensation portions. A length of a first connection line electrically connected to a first pixel drive circuit is less than a length of a second connection line electrically connected to a second pixel drive circuit. A capacitance of the first connection line is compensated by electrically connecting the compensation portion to the first connection line, and thus a difference between the capacitance of the first connection line and a capacitance of the second connection line is reduced.
US11984078B2
A system including a plurality of image display apparatuses including at least a first image display apparatus and a second image display apparatus, and a control device controlling the first image display apparatus and the second image display apparatus. The control device controls the first image display apparatus to display a first image, controls the second image display apparatus to display a second image, controls the first image display apparatus to perform an afterimage compensation for pixels included in a first display panel in the first image display apparatus, receives data results of the afterimage compensation for pixels included in the first display panel from the first image display apparatus, and controls the second image display apparatus to perform an afterimage compensation for pixels included in a second display panel in the second image display apparatus, based on the received data results of the afterimage compensation performed for the pixels included in the first display panel in the first image display apparatus.
US11984076B2
What is disclosed are methods of non-uniformity compensation for active matrix light emitting diode device (AMOLED) and other emissive displays. For each pixel, greyscale level offsets for a number of predetermined greyscale drive levels which produce a uniform flat field are determined and used to generate a correction function for the pixel.
US11984063B2
A pixel includes: a first transistor including a gate coupled to a first node, a first terminal, and a second terminal coupled to a second node; a first capacitor coupled between the first and second nodes; a second transistor including a gate receiving a first signal, a first terminal coupled to a data line, and a second terminal coupled to the first node; a third transistor including a gate receiving a second signal, a first terminal receiving a reference voltage, and a second terminal coupled to the first node; a fourth transistor including a gate receiving a third signal, a first terminal coupled to the second node, and a second terminal receiving an initialization voltage; a light emitting element including an anode; and a fifth transistor including a gate receiving a fourth signal, a first terminal coupled to the second node, and a second terminal coupled to the anode.
US11984060B2
A display control device includes: a photodetection sensor configured to detect light from pixels of display screens with both a first display device and a second display device with a pixel size different from that of the first display device in a display system in which a video signal is displayed on a plurality of display devices adjacent to each other as detection targets; and a display adjustor configured to determine a degree of enlargement or reduction of video signals displayed on the display devices on the basis of a difference between the pixel size of the first display device and the pixel size of the second display device based on a result of detection from the photodetection sensor.
US11984054B2
In an embodiment according to the present disclosure, disclosed is an electronic device including a display, a first housing, a second housing at least partially overlapping and being movable with respect to the first housing, a first conductive region formed or disposed inside the first housing, and a second conductive region formed or disposed inside the second housing so as to at least partially overlap with the first conductive region when the first housing is moved with respect to the first housing, a display in which at least the first region is exposed to the outside of an electronic device through a front surface of the electronic device, and at least one processor in which, when the electronic device is switched from the first state to the second state, a second region extending from the first region of the display is withdrawn from the inside of the first housing and exposed to the outside of the electronic device along with the first region and, when the electronic device is switched from the second state to the first state, is introduced into the inside of the first housing and operatively connected to the display. The at least one processor identifies a capacitance value, based on an overlapped region of the first conductive region and the second conductive region, and determines an externally exposed region of the display, based on the identified capacitance value, and controls the region determined to be exposed outside, to an activated state, and controls the remaining region except the region determined to be exposed outside, to an inactivated state. In addition to this, various embodiments identified through the specification are possible.
US11984051B2
A display device includes a display panel, a mid frame disposed below the display panel and having a plurality of openings, a back plate disposed between the display panel and the mid frame and having a plurality of first patterns protruding toward the mid frame and corresponding to the plurality of openings, and a first adhesive unit disposed between the mid frame and the back plate. In one example, the first adhesive unit includes a plurality of first areas overlapping the plurality of openings, and a second area enclosing the plurality of first areas and being malleable than the first areas.
US11984039B1
The focused reading cylinder has an outer cylinder and an inner cylinder selectively rotatable within the outer cylinder. The outer cylinder has an elongated main reading slot defined therein dimensioned and configured to expose a single line of text of a document retained between the two cylinders for reading. The top and bottom edges or borders of the main reading slot may have rows of light emitting diodes (LEDs) mounted thereon to illuminate the text, either in conventional white light or more relaxing colors. A document feeder slot is defined in the outer cylinder and extends parallel to the main reading slot. The inner cylinder is made from or coated with rubber to grip the document between the two cylinders, and has a hand crank or knob for selectively advancing the inner cylinder and document.
US11984037B2
A method for providing a flight route to an unmanned aerial vehicle, includes: receiving, by first access network equipment, a radio resource control (RRC) connection resumption request sent by the UAV in an inactive state; and sending, by the first access network equipment, flight path information of the UAV to the UAV.
US11984034B2
Various methods and devices for positioning autonomous agents including verifying a reported agent location using physical attributes of the received signal; improving agent formation for iterative localization; selecting agents for distributed task sharing; intelligent beacon-placement for group localization; relative heading and orientation determination utilizing time of flight; and secure Instrument Landing System (ILS) implementation for unmanned agents.
US11984026B2
A system and method is provided for detecting the approach of official and emergency vehicles and alerting drivers. The system is comprised of a vehicle device, a client device, a local device and a dongle. The local device includes a set of acoustic sensors and a set of light wave sensors. The local device is connected to the dongle. The dongle is connected to the local device, the vehicle device and the client device. In use, the sensors record analog light wave and acoustic signals. The signals are processed through a series of rolling frequency and amplitude summary tables to determine the type of emergency vehicle and whether or not it is approaching. If so, an alert is generated and sent to the vehicle device and the client device where it is displayed.
US11984023B2
An example system learns from traffic disturbances or perturbations to improve overall traffic flow. The perturbations may be related to specific times such as morning rush hour, or for all times of day. The improvement to overall traffic flow may be measured by time lost in traffic delays, or by time of travel, or by risk of accidents.
US11984022B2
A set top box receives from a remote control device one or more of a codeset identifier, data indicative of a brand and model for a consumer electronic device, and remote control diagnostic information. The set top box then causes information representative of the received codeset identifier, data indicative of a brand and model for a consumer electronic device, and remote control diagnostic information to be displayed in a display device associated with the set top box.
US11984018B2
This bodily vibration generation device can be mounted to a bodily sensation presentation apparatus and generates, with a simple configuration, suitable vibration corresponding to a sound so that a user bodily senses the vibration. This device has: an electromagnetic actuator that causes, by an inputted drive signal, a movable body being supported so as to be elastically vibratable with respect to a fixed body, to vibrate by driving same in one direction of the vibration directions thereof; an AC signal input unit for inputting an AC signal; and a rectification unit that performs half-wave rectification of the AC signal and outputs the AC signal to the electromagnetic actuator as the drive signal.
US11984013B2
Devices, systems, and methods for event detection using distributed event devices are described herein. In some examples, one or more embodiments include a first event device and a second event device, where the first event device is configured to detect an event in an area and wirelessly transmit a notification of the detected event and location information associated with the first event device to the second event device, and where the second event device is configured to receive the notification of the detected event and the location information from the first event device, determine whether the location information matches a location included in a database in response to receiving the detected event, and perform an activation action responsive to determining the location information matches a location included in the database.
US11984010B2
A wearable medical device (e.g., wearable drug delivery pump) sends a request to another device for generation of an audible or vibratory notification at the other device, which is helpful when the wearable medical device is obscured by a user's clothing or the user is vision or hearing impaired. The other device receiving the request to generate a notification can be a remote controller or smartphone paired with the wearable medical device, or a smart watch or a Bluetooth (BT)-enabled headset or other device paired with the remote controller. The wearable medical device is configured with a BT stack that allows the device to pair with its controller in a secure bonded relationship, but to send signals requiring less security (e.g., requests for generation of notifications) to other devices (e.g., a BT-enabled headset or smart watch) using a more ubiquitous wireless protocol such as a standard BT protocol with broadcast mode.
US11984008B2
One aspect of the present technology relates to a safety cable vibration monitoring system. The system includes a vibration sensor configured to be coupled to a safety cable. A vibration monitoring computing device is coupled to the vibration sensor. The vibration monitoring computing device includes a processor and a memory coupled to the processor which is configured to execute one or more programmed instructions comprising and stored in the memory to receive data from the vibration sensor. An occurrence of a fall event related to use of the safety cable is determined based on the received data from the vibration sensor. A method of monitoring a safety cable and a safety cable monitoring network are also disclosed.
US11983991B2
A casino system in a casino that uses a gaming chip with an RFID tag that stores identification information is installed in the casino and has an activation reader/writer that reads the identification information from the RFID tag of the gaming chip, and a registration device that determines the authenticity of the gaming chip and registers the gaming chip that is determined to be authentic as usable supplies. The registration device determines the authenticity of the gaming chip based on whether or not the identification information given by a manufacturer of the gaming chip matches the identification information read from the RFID tag of the gaming chip by the activation reader/writer. The identification information of the gaming chip that is determined to be genuine is registered as the identification information of the gaming chip that can be used.
US11983989B2
In one embodiment, zone-based gaming activity within a gaming establishment can be configured. The method can, for example, include: setting a location within the gaming establishment for the zone-based gaming activity, the location being at least one defined region within the gaming establishment; configuring a virtual gaming zone for the location within the gaming establishment for the zone-based gaming activity; identifying one or more gaming devices that are within the virtual gaming zone; and permitting the identified one or more gaming devices that are within the virtual gaming zone to participate in the zone-based gaming activity.
US11983984B2
A feature for electronic games installed in stand-alone electronic gaming machines, game playing devices, mobile devices and personal electronic devices or on a networked system of gaming machines, game playing devices mobile devices and personal electronic devices where prior to starting the game, the player can choose from a variety of game modes with different numbers of balls to be drawn and the number and layout of cards to be played. The player is offered via the machine hard buttons or touch screen to choose the number balls and number and layout of cards. This invention may be applied to bingo and various types of games with balls, numbers or symbols in various types and patterns.
US11983979B2
Provided is a dispensing mechanism for an article vending machine, which can facilitate coupling of a drive section to a dispensing unit. A dispensing mechanism 55 for an article vending machine includes a drive section 60 that is disposed in a rear part of an article storing shelf and configured to cause a motion based on a vending command, and a belt conveyor unit 57 that is disposed in front of the drive section 60 and carries articles arranged in a front-rear direction, the belt conveyor unit being driven by the drive section 60 to sequentially dispense the articles forward, a gear shaft 63 that is an output shaft of the drive section 60 is removably coupled to a first gear shaft that is an input shaft of the belt conveyor unit 57, and the belt conveyor unit 57 is configured to be replaceable relative to the drive section 60, the belt conveyor unit 57 includes a belt conveyor 71 that moves the articles forward, a spur gear 76b that transmits, to the belt conveyor 71, driving force transmitted to the input shaft, and a cover 77 that covers a gear such as the spur gear 76b, and a part of the spur gear 76b is exposed to outside the cover 77.
US11983974B2
Systems, computer program products, and methods are described herein for secure location and device access utilizing an ultra-wideband signal of a user device and a system device. The invention generally comprises determining that a user has entered a secure environment, wherein the secure environment comprises a safe-deposit box associated with the user, automatically generating a digital authentication key in response determining that the user has entered the secure environment, verifying the digital authentication key as being linked to the user, and transmitting instructions to a safe-deposit box to unlock and provide access during the scheduled session.
US11983971B2
A system for battery management for a vehicle that includes at least a battery coupled to the vehicle, at least a sensor coupled to the battery, the sensor configured to detect an internal state datum of the battery, and transmit the internal state datum to a computing device, a computing device, the computing device configured to receive the internal state datum from the at least a sensor, generate an alert datum as a function of the internal state datum and an alert threshold, transmit the alert datum to a remote device, and a remote device communicatively connected to the vehicle, the remote device is configured to, receive the alert datum from the computing device, and display the alert datum.
US11983970B2
A vehicle-mounted sensor apparatus for determining the state of at least one mechanical vehicle component is described that has at least one sensor element capturing a mechanical variable, wherein sensor data captured by the at least one sensor element are continuously capturable in any operating state of the vehicle, a communication element by means of which captured sensor data are transmittable to an external computer for further processing, and a computing unit for reducing the volume of data of the sensor data to be transmitted to the external computer.
US11983966B2
The application discloses a method and system of implementing a vehicle automatically passing through a barrier, a vehicle controller and a road barrier controller, so as to implement the automatic passing through of the road barrier of the unmanned vehicle. The method includes: controlling, by a vehicle controller, the vehicle to drive automatically and stop at a place of the road barrier; interacting, by the vehicle controller, with a road barrier controller corresponding to the place of the road barrier to accomplish the automatic passing through of the road barrier.
US11983964B2
Biometrics are increasingly used to provide authentication and/or verification of a user in many security and financial applications for example. However, “spoof attacks” through presentation of biometric artefacts that are “false” allow attackers to fool these biometric verification systems. Accordingly, it would be beneficial to further differentiate the acquired biometric characteristics into feature spaces relating to live and non-living biometrics to prevent non-living biometric credentials triggering biometric verification. The inventors have established a variety of “liveness” detection methodologies which can block either low complexity spoofs or more advanced spoofs. Such techniques may provide for monitoring of responses to challenges discretely or in combination with additional aspects such as the timing of user's responses, depth detection within acquired images, comparison of other images from other cameras with database data etc.
US11983960B2
A device occupation method includes a first device that obtains information related to the first device or information related to a second device, where the second device occupies a first to-be-occupied device, and the first device prepares to occupy the first to-be-occupied device, and occupying, by the first device, the first to-be-occupied device when the information matches.
US11983958B2
Systems and methods for automated makeup application allow a user to select and apply desired makeup styles to the user's face. The systems and methods include a computer application with a graphical user interface which allows selection of a look from a plurality of preconfigured looks. A camera coupled with a robotic arm records a face map and color coding and sends that data to be stored on a virtual server database. The application calculates formula quantity and a pump extracts desired formula amounts from appropriate formula cartridges which it releases into reservoirs on the robotic arm's head. An airbrush compressor mixes the formula and plug triggers release one of several airbrush nozzles to start spraying the user's face with formula. A cleaning mechanism is provided between makeup applications and after the final application.
US11983952B2
According to the present invention, a physique determination apparatus includes an image acquisition unit configured to acquire an image of an occupant, a facial feature point estimation unit configured to estimate facial feature points of the occupant based on the image, a head position estimation unit configured to estimate a relative position of a head of the occupant with respect to the camera based on the facial feature points, a body part estimation unit configured to estimate sizes of a plurality of parts of the occupant in the image, a skeleton estimation unit configured to estimate a skeleton size indicating an actual size of each part of the occupant based on the relative position and a size of each of the parts, and a physical determination unit configured to determine a physique of the occupant based on the skeleton size of each part of the occupant.
US11983942B2
A method for detecting a specific object based on a specific model includes: capturing a set of images, wherein objects in each image include a desired object; transmitting the set of images to a cloud server; in response to found objects being obtained from the set of images based on at least one object detection algorithm in the cloud server, displaying the found objects fora user to confirm which object is desired; in response to the desired object being confirmed from the found objects that are displayed, loading the specific model of the desired object from the cloud server, wherein the specific model of the desired object is trained on the cloud server based on at least the set of images and related CNN algorithm; and performing the specific model to detect the specific object on a captured image.
US11983934B2
A control system of a farming machine is configured to identify obstruction in a field from image data of the field. The control system accesses an obstruction model configured to identify obstructions in a field from image data of the field. The obstruction model is generated by accessing image data of obstructions in a training field, each obstruction corresponding to a prescribed action occurring at a prescribed time, labelling the image data of the obstructions, and training the obstruction model based on the labelled image data. The control system captures image data of the field including an obstruction and inputs the image data into the obstruction model. Responsive to identifying the obstruction in the field, the control system modifies treatment instructions of the farming machine such that the farming machine performs a implements a farming objective while avoiding the obstruction in the field.
US11983928B1
Apparatuses, systems, and techniques for managing lost objects in an intelligent video analytics system. A first set of application modules is executed for an object tracking application configured to track, based on images depicting an environment, a state of objects included in the environment. The first set of application modules is associated with a first object tracker type. A request is received to configure the object tracking application to execute a second set of application modules associated with a second object tracker type. The second set of application modules includes one or more application modules that are different from application modules of the first set of application modules. The object tracking application is configured to execute the second set of application modules in accordance with the request. The second set of application modules is executed for the object tracking application to track, based on the images depicting the environment, the state of the objects included in the environment.
US11983925B2
An example method includes calculating a plurality of scores for a test media clip using a plurality of authenticity algorithms, where the test media clip depicts a person, and wherein each authenticity algorithm of the plurality of authenticity algorithms generates a respective score of the plurality of scores which indicates a likelihood that the test media clip is authentic, testing each authenticity algorithm of the plurality of authenticity algorithms against a plurality of historical media clips, in order to determine, for the each authenticity algorithm, a reliability of the each algorithm in terms of being able to estimate authenticity, deriving a plurality of weights based on the testing, wherein each weight of the plurality of weights is associated with one algorithm of the plurality of authenticity algorithms, and computing a cumulative authenticity score for the test media clip, by aggregating the plurality of scores weighted by the plurality of weights.
US11983924B2
Systems and methods of associating a replay with an event in an input video comprise: identifying, by a processor, an event captured in the input video and at least one replay included in the input video; assigning, by the processor, a first probability value to the event indicating a probability that at least one replay of the event is included in the input video; assigning, by the processor, a second probability value to each of a plurality of replay segments of the input video indicating a probability that the respective replay segment is related to the event; for each of the plurality of replay segments, calculating, by the processor, a matching value based on the first and second probability values; and associating, by the processor, the event with each of the plurality of replay segments for which the matching value is within a predefined threshold range.
US11983920B2
A method including: receiving, as input, an image; providing a neural network structure including a plurality of multilayer multi-scale neural networks, wherein the plurality of multilayer multi-scale neural networks are arranged sequentially, by laterally connecting corresponding scale-level layers between each two adjoining multilayer multi-scale neural networks in the sequence; and at a training stage, training the neural network structure on a training dataset, to obtain a trained machine learning model configured to perform a computer vision task which includes outputting at least one of: (i) a classification of the image into one class of a set of two or more classes, (ii) a segmentation of a least one object in the image, and (iii) a detection of at least one object in the image.
US11983917B2
A machine-learning classification system includes a first machine-learning classifier that classifies each element of a plurality of data items to generate a plurality of classified data items. A second machine-learning classifier identifies misclassified elements of the plurality of classified data items and reclassifies each of the identified misclassified elements to generate a plurality of reclassified data items. A second machine-learning classifier identifies unclassified elements of the plurality of classified data items and classifies each of the identified unclassified elements to generate a plurality of reclassified data items. An ensemble classifier adjusts the classifications of the elements of the plurality of classified data items in response to the plurality of reclassified data items and the plurality of newly-classified elements.
US11983913B2
A method for estimating a number of people currently in a region of interest include analyzing a video stream to detect each of a plurality of people within the region of interest as One or more neighbor pairs are identified from among a plurality of possible pairs of the plurality of people within the region of interest. The detected plurality of people may be clustered into one or more clusters based at least in part on the identified one or more neighboring pairs. An estimated number of people in each of the one or more clusters is determined and a representation of the estimated number of people in each of one or more of the clusters is displayed on a display.
US11983910B2
A first decoder obtains a region including an object targeted for recognition based on a feature map obtained by performing convolutional processing on a processing target image. Next, the first decoder obtains, from the feature map, a partial feature map of a portion corresponding to the obtained region including the object targeted for recognition. Then, a second decoder obtains pixels corresponding to the object targeted for recognition based on the partial feature map. This reduces the amount of calculation required for decoder units included in a neural network.
US11983909B2
A method includes receiving, with a computing device, a first client request from a first client that identifies a machine learning model and a sensor. The method includes sending, with the computing device, a call to a server to apply the identified machine learning model to a set of data from the identified sensor, in response to the first client request. The method includes receiving, with the computing device, a second client request from a second client that identifies a same machine learning model and sensor as the first client request. The method includes sending, with the computing device, response data from the identified machine learning model to both the first client and the second client without sending an additional call to the server in response to the second client request.
US11983902B1
A method of classifying terrain, terrain activity and materials through panchromatic imagery a module programmed to provide such classification and aerospace vehicles comprising such module is provided. Panchromatic images of known materials terrains and terrain activities are taken and processed to form a multiband texture cube, that due it amount of data, is stored as a computer data base. New panchromatic images of unclassified materials, terrains and/or terrain activities are processed and compared via computer with such database that allows for inexpensive, quick and efficient classification of such new images.
US11983899B2
A long-baseline and long depth-range stereo vision system is provided that is suitable for use in non-rigid assemblies where relative motion between two or more cameras of the system does not degrade estimates of a depth map. The stereo vision system may include a processor that tracks camera parameters as a function of time to rectify images from the cameras even during fast and slow perturbations to camera positions. Factory calibration of the system is not needed, and manual calibration during regular operation is not needed, thus simplifying manufacturing of the system.
US11983898B2
The application provides a monitoring method, electronic device and storage medium. The method includes determining a target area to be monitored from an acquired image of a monitored scene; determining a target capture posture and a target capture focal length according to the target area; and controlling a Pan Tilt Zoom (PTZ) camera to capture according to the target capture posture and the target capture focal length. The application can monitor any object within the monitored scene using the PTZ camera with a good capture effect.
US11983883B2
A computer vision method and computer vision system can be used to process a time-based series of images. For a subject image of the time-based series, a light intensity value is identified for each pixel of a set of pixels of the subject image. A light intensity threshold is defined for the subject image based on a size of a bounding region for an object detected within a previous image of the time-based series captured before the subject image. A modified image is generated for the subject image by one or both of: reducing the light intensity value of each pixel of a lower intensity subset of pixels of the subject image that is less than the light intensity threshold, and increasing the light intensity value of each pixel of a higher intensity subset of pixels of the subject image that is greater than the light intensity threshold.
US11983878B2
An announce apparatus comprises an analysis part that obtains a capture image capturing at least any one of an area including a boarding position at a station or inside of a vehicle so as to determine, based on the capture image, whether a person who needs support (termed hereinafter as “support-needing user”) will board on/off the vehicle; and an announce part that announces boarding on/off support information relating to the support-needing user when the analysis part determines that the support-needing user will board on/off the vehicle.
US11983876B2
In a method for determining a type of characteristic eye movement of the eyes of a patient, the patient is provided with an optokinetic stimulus for the characteristic eye movement, a medical image of the brain of a patient also including the eyes of the patient is generated. An amount of a displacement of an optic nerve of the patient may be determined based on the medical image and a type of a characteristic eye movement may be determined based on the velocity of eye movement for the determined amount of displacement of the optic nerve. In a method for training an artificial intelligence based algorithm for determining an amount of a displacement of an optic nerve of a patient, the algorithm may be trained based on at least one medical image.
US11983874B1
An imaging device for image generation of a specimen is disclosed. Layers of images may be captured by an optical system and then compiled to create an integrated image. Each layer may include a different focal point. A consolidated image may then be created by combining one or more integrated images.
US11983873B2
The present disclosure provides a computer-implemented method for correlating at least one infrared 2D-image to a 3D-representation of at least a part of a tooth displayed in a graphical user-interface, of a hand-held scanning device, on a screen, comprising the steps of: obtaining a first set of 2D-images of the at least part of the tooth; forming a 3D-representation of the at least a part of the tooth from the first set of 2D-images; displaying, in the graphical user-interface, the 3D-representation; obtaining a second set of 2D-images, wherein the second set of 2D images are infrared 2D-images acquired within the at least part of the tooth; displaying, in the user-interface, at least one of the 2D-images from the second set of 2D-images; displaying, in the user-interface, a manipulator configured to change between 2D-images in the second set of 2D-images.
US11983869B2
Systems and methods are disclosed for performing operations comprising: receiving a plurality of training images representing different phases of a periodic motion of a target region in a patient; applying a model to the plurality of training images to generate a lower-dimensional feature space representation of the plurality of training images; clustering the lower-dimensional feature space representation of the plurality of training images into a plurality of groups corresponding to the different phases of the periodic motion; and classifying a motion phase associated with a new image of the target region in the patient based on the plurality of groups of the clustered lower-dimensional feature space representation of the plurality of training images.
US11983865B2
Methods and systems for deep learning alignment for semiconductor applications are provided. One method includes transforming first actual information for an alignment target on a specimen from either design data to a specimen image or a specimen image to design data by inputting the first actual information into a deep generative model such as a GAN. The method also includes aligning the transformed first actual information to second actual information for the alignment target, which has the same information type as the transformed first actual information. The method further includes determining an offset between the transformed first actual information and the second actual information based on results of the aligning and storing the determined offset as an align-to-design offset for use in a process performed on the specimen.
US11983861B2
A system (1) for examining an object (2) for errors comprises a monitoring device (3), a processing module (5), a capturing device (4) and a recognition module (6). The monitoring device (3) is designed to monitor at least one parameter. A specified range of the parameter defines a context within which a result of a recognition of at least parts of the object (2) is expected. The processing module (5) is designed to prove whether the monitored parameter is within the specified range and in this case to trigger the capturing device (4) which is designed to capture input data associated with the object (2). The recognition module (6) is pre-trained for recognizing the object (2) and to perform the recognition based on the input data. The recognition module (6) is designed to detect an error if a result of the recognition is not corresponding to the expected result.
US11983859B2
A method for inspecting cargo with is disclosed. The method includes scanning the cargo with a matrix including at least two rows of detectors, wherein each zone of the cargo irradiated by a first X ray pulse is irradiated by at least one second X ray pulse, and a radiation corresponding to the first X ray pulse is detected by a first row of the matrix, and a radiation corresponding to the at least one second pulse is detected by at least one second row of the matrix, generating a first image of the cargo and at least one second image of the cargo, determining, for each zone of the cargo irradiated, a local mutual parasitic displacement between the cargo and the matrix, determining a total mutual parasitic displacement, and generating a corrected image of the cargo without the mutual parasitic displacement.
US11983856B2
An image display system includes a body, a first correction unit, and a second correction unit. The body houses a display unit to display an image and projects a virtual image, corresponding to the image, onto a target space using outgoing light of the display unit. The first correction unit corrects for distortion of the image. The second correction unit corrects a display location of the image on the display unit in accordance with an orientation signal representing a change in orientation of the body. Each of divisional areas of a display screen of the display unit is assigned with a distortion correction parameter for correcting for the distortion of the virtual image. The first correction unit applies distortion correction to each of the image regions of the image on the display screen based on a distortion correction parameter assigned to a divisional area where the image region is displayed.
US11983853B1
Systems and methods for generating training data using synthesized input images for training a machine learning model for image enhancement in accordance with embodiments of the invention are described. The system may access a target image (e.g., captured by an imaging device), and generate an input image that corresponds to the target image. The input image and target image may then be used (e.g., as part of a training data set) to train the machine learning model. For example, a generated input image corresponding to a target image may represent a version of the target image as if it were captured in low light. The target image may be a target illuminated output to be generated by enhancing the input image. The input image and target image may be used to train a machine learning model to enhance images such as those captured in low light.
US11983850B2
This application discloses an image processing method, device, and apparatus, and a storage medium. The method is performed by a computing device, the method including: receiving an input image; determining a context feature of the input image; determining a first feature set and a second feature set according to the context feature and based on a size of a target image and a location of the input image in the target image; adjusting the second feature set according to a first feature statistic of the first feature set, to obtain an adjusted second feature set; and generating the target image based on the adjusted second feature set and the first feature set.
US11983844B2
The present disclosure discloses a panoramic stitching method, an apparatus, and a storage medium. A transformation matrix obtaining method includes: obtaining motion data detected by sensors, wherein the sensors are disposed on a probe used to collect images, and the motion data is used to represent a moving trend of the probe during image collection; inputting the motion data into a pre-trained neural network, to calculate matrix parameters by using the neural network; calculating a transformation matrix by using the matrix parameters, wherein the transformation matrix is used to stitch images collected by the probe, to obtain a panoramic image. In the present disclosure, the transformation matrix can be calculated and the images can be stitched without using characteristics of the images, and factors such as brightness and the characteristics of the images do not impose an impact, thereby improving transformation matrix calculation accuracy, and improving an image stitching effect.
US11983843B2
The present application relates to a method for synthesizing image and an image synthesizing apparatus using the same. The image synthesizing method of the present application and the image synthesizing apparatus using the same can reduce the time required for learning by reducing the distortion phenomenon of the algorithm and reducing the amount of calculation required for image synthesis. In addition, the image synthesizing method of the present application and the image synthesizing apparatus using the same can be utilized in various fields such as national defense, IT, and entertainment based on characteristics such as excellent performance and learning time reduction of deep learning algorithms, and can be utilized in psychological warfare or induction of command system confusion.
US11983836B2
Methods, systems, and apparatus, including computer programs encoded on a computer storage medium, for annotation of 3D models with signs of use that are visible in 2D images. In one aspect, methods are performed by data processing apparatus. The methods can include projecting signs of use in a relatively larger field of view image of an instance of an object onto a 3D model of the object based on a pose of the instance in the relatively larger field of view image, and estimating a relative pose of the instance of the object in a relatively smaller field of view image based on matches between the signs of use in the relatively larger field of view image and the same signs of use in the relatively smaller field of view image.
US11983828B2
Insertion of supplemental content into a virtual environment is automated using a machine learning model. The machine learning model is trained to calculate a confidence value that a candidate virtual object fits into a virtual environment based on an input that includes a candidate virtual object, a list of persistent virtual objects, and a list of temporary virtual objects. The machine learning model is trained using the persistent and temporary objects displayed in the current virtual environment until it predicts that a selected virtual object fits into the current virtual environment. The trained machine learning model is then used to select a virtual object comprising supplemental content to be inserted as a new virtual object in the virtual environment.
US11983825B2
Systems and methods are provided that allow developers to quickly and easily develop augmented reality (AR) applications that enrich the real-world with data from the cloud. Given that the development of an AR application is a complex and time-consuming process, the systems and methods described herein allow software developers to concisely describe their needs in a succinct program, written in the QWL domain-specific language. The systems and methods take this program and automatically generate an AR application.
US11983824B2
A method includes: receiving synchronization and navigation data from a navigation system; generating a physical frame of reference with respect to a registered physical model based on the synchronization and navigation data; registering an augmented reality head mounted display with the navigation system using the synchronization and navigation data; receiving data representative of a virtual model; anchoring the virtual model to the physical frame of reference; receiving tracking data indicative of the position and angle of view of the augmented reality head mounted display with respect to the physical frame of reference; and responsive to determining that the physical model is within a field of view of the augmented reality head mounted display: rendering a virtual image from the virtual model in real time based on the received tracking data; and streaming the virtual image to the augmented reality head mounted display, thereby generating a synchronized and augmented realty view.
US11983811B2
Intersection testing is performed for a ray with respect to a plurality of convex polygons, each of which is defined by an ordered set of vertices, wherein a shared vertex is used to define at least two of the convex polygons. The vertices of the convex polygons are projected onto a pair of axes orthogonal to the ray direction. A vertex ordering scheme defines an ordering of the projected vertices which is independent of the ordering of the vertices in the ordered sets. For each of the convex polygons, for each edge of the convex polygon defined by two of the projected vertices, a parameter indicative of which side of the edge the ray passes on is determined, wherein if the ray is determined to intersect a point on the edge then the parameter is determined based upon whether the ordering of the projected vertices defining the edge matches the ordering of the vertices in the ordered set of vertices defining the convex polygon. Whether the ray intersects the convex polygon is determined based on the parameters determined for the edges of the convex polygon.
US11983808B2
A system for producing conversation-driven character animation includes a computing platform having processing hardware and a system memory storing software code, the software code including multiple trained machine learning (ML) models. The processing hardware executes the software code to obtain a conversation understanding feature set describing a present state of a conversation between a digital character and a system user, and to generate an inference, using at least a first trained ML model of the multiple trained ML models and the conversation understanding feature set, the inference including labels describing a predicted next state of a scene within the conversation. The processing hardware further executes the software code to produce, using at least a second trained ML model of the multiple trained ML models and the labels, an animation stream of the digital character participating in the predicted next state of the scene within the conversation.
US11983786B1
A computer-based system for facilitating the execution of law enforcement duties is disclosed. More particularly, according to one aspect of the invention, an electronic system is configured to facilitate the performance of law enforcement duties by quasi-instantaneously providing actionable intelligence to its users, such as front-line law enforcement officers, in response to a real-time query. According to another aspect of the invention, a system implements a set of automated status classifications for subjects with suspected or confirmed involvement in criminal activities. The status classifications specifically and concisely establish the subject's involvement in criminal activities. According to yet another aspect of the invention, a system executes a streamlined electronic process for handling and processing seized items so as to ensure that criminal assets are efficiently and effectively seized, and that asset forfeiture actions are effectively initiated against the seized items.
US11983785B2
A method for controlling a serving robot is provided. The method includes the steps of: determining a first time to request payment from a customer on the basis of identification information on the customer and information on an order of the customer acquired with respect to the customer; acquiring information on eating status of the customer at a second time associated with the first time; and adjusting at least one of the first time and the second time on the basis of at least one of the information on the eating status of the customer and information on an additional order of the customer additionally acquired with respect to the customer.
US11983779B2
An impact-resistant, photovoltaic (IRPV) window system is provided. The system may include an IRPV window coupled to a structure, a controller, and an insurance computing device. The IRPV window may include an impact resistant (IR) layer, a photovoltaic (PV) material that may generate an electrical output, and an electrode coupled to the PV material that may receive the electrical output. The IRPV window may permit a portion of visible light to pass through the IRPV window. The controller may monitor the electrical output and generate a solar profile of the structure based upon the electrical output. The insurance computing device may receive the solar profile and determine if an insurance policy associated with the structure is eligible for a policy adjustment and/or an insurance reward or discount offer.
US11983778B2
Embodiments may monitor utilization of a machine. A risk relationship data store may contain electronic records that represent a plurality of risk relationships with an enterprise. A device located proximate to the machine includes a plurality of sensors, each sensor configured to monitor at least one parameter (e.g., acceleration, speed, mileage, run-time and location sensors, etc.). A back-end application computer server may calculate an operator behavior score and a machine operation score based on sensor signals. The computer server may also determine a machine characteristics score and an amount of utilization associated with the machine. A risk relationship identifier associated with the machine is identified, and the computer server may automatically and dynamically update a resource amount associated with the risk relationship identifier based on the operator behavior score, the machine operation score, the machine characteristics score, and the amount of utilization associated with the machine.
US11983777B1
An underwriting estimator predictive machine learning model receives as inputs a limited number of details about an applicant, and outputs an immediate underwriting estimate of risk class. A preliminary pre-screening review redirects applicants with one or more screening impairments to a human-in-the-loop quick quote process. Model inputs include estimator inputs data that are pre-selected from the dataset of impairments data after excluding the screening impairments from the dataset of impairments. The underwriting estimator model may incorporate alternative pathways that output individualized underwriting estimates for some applicants and cohort-level marginal distributions for other applicants. Model outputs also include explanation files providing interpretability of underwriting estimates. The explanation files may include additive feature attribution data and rule based natural language explanations. The underwriting estimator predictive model may apply random forest models with smoker and non-smoker components to model inputs.
US11983770B1
A system for generating rate and payment information for a customer receives an inquiry type from a customer relating to a loan or mortgage. The system also receives a value specific to the potential loan or mortgage. In combination with a product and policy database and a pricing/fee database, relevant financial products are determined and provided to the customer. The inquiry type can include buying a property, refinancing a mortgage, improving a property, and/or using funds from a property.
US11983750B1
Disclosed are systems and methods that determine a likelihood that an item page represents a risky item. For example, a machine learning model may be trained to determine a probability score that an item page corresponds to a topic of a plurality of topics based on item textual descriptions determined from the item page and search queries corresponding to the item page. Still further, one or more of a topic risk score, item risk score, cumulative item risk score, and/or a total item risk score may be determined. Each of the risk scores may be indicative of a likelihood that the item page represents a risky item.
US11983747B2
A method including preprocessing natural language text by cleaning and vectorizing the natural language text. A first machine learning model (MLM) extracts negative reviews. A first input to the first MLM is the natural language text and a first output of the first MLM is first probabilities that the negative reviews have negative sentiments. The method also includes categorizing the negative reviews by executing a second MLM. A second input to the second MLM is the negative reviews. A second output of the second MLM is second probabilities that the negative reviews are assigned to categories. The method also includes identifying, using a name recognition controller and based on categorizing, a name of a software application in the negative reviews and sorting the negative reviews into a subset of negative reviews relating to the name. The software application is adjusted based on the subset of negative reviews.
US11983737B2
A favorable merging or grouping of simply connected regions into which the array of information samples is sub-divided, is coded with a reduced amount of data. To this end, a predetermined relative locational relationship is defined enabling an identifying, for a predetermined simply connected region, of simply connected regions within the plurality of simply connected regions which have the predetermined relative locational relationship to the predetermined simply connected region. Namely, if the number is zero, a merge indicator for the predetermined simply connected region may be absent within the data stream. In other embodiments, spatial sub-division is performed depending on a first subset of syntax elements, followed by combining spatially neighboring simply connected regions depending on a second subset of syntax elements, to obtain an intermediate sub-division.
US11983735B1
Described are systems and methods for generating recommendation campaigns that optimize for both a desired short-term user behavior and a desired long-term user behavior. In comparison to existing techniques that focus on targeting advertisements or recommendations to specific individuals with a single goal of receiving an interaction with the advertisement from that individual (i.e., a desired short-term behavior), the disclosed implementations consider the long-term user behavior, such as increased visits to a website during a long-term rage, and generate a recommendation campaign that also optimizes for that desired long-term user behavior.
US11983729B1
A system evaluates residential satisfaction of residents living in a building, based on personal tendencies of the residents and sensing data collected through sensors in the building. The system may include a server that evaluates the residential satisfaction of the residents by analyzing a correlation between the sensing data and residential satisfaction information obtained from the survey conducted through a communication manner including the user terminals. The server may control an air conditioning system in the building of a control target by predicting a feature-based preferred section of the users through random forest model learning.
US11983724B1
Membership services are provided to each of a plurality of users of a plurality of user computing devices, including via software that configures the plurality of user computing devices to operate within the membership services. An encrypted data payload including information representing at least one of carbon removal and/or carbon sequestering is received by a configured user computing device, and the information is validated. As a function of machine learning and artificial intelligence, at least one of carbon removal and/or carbon sequestering associated with validated information is determined. A respective mandate is accessed and, as a function of the validated information and the respective mandate, a determination is made whether the respective user is compliant with the respective mandate. At least one operating feature of the configured user computing device is disabled or enabled, as a function of the user's compliance.
US11983723B2
Techniques described herein relate to tracking and analyzing digital credential usage in sensor-monitored environments. A digital credential platform server may receive data identifying credential receivers, and then retrieve the digital credentials generated and issued to the credential receivers. The digital credential platform server may then determine sets of physical activities associated with the digital credentials issued to a credential receiver, and may use sensor-based monitoring systems to detect the user actions of the credential receiver and compare those actions to the physical activities associated with the credentials. Comparisons between the user actions detected for the credential receiver, and the physical activities associated with the receiver's credentials, may be used to determine re-credentialing time periods, credential expiration times, and the like.
US11983721B2
The present disclosure pertains to an improved computing architecture allowing for better utilization of CPU, memory, network bandwidth, and other computing resources, particularly within the context of a decision service system that handles client requests. These methods and systems may be directed to the evaluation and use of a partial response from a decision service system when the generation of a full response by the decision service system is predicted to take longer than what is expected.
US11983715B1
Systems and methods are disclosed for authenticating electronic payment transactions associated with a merchant. The systems and methods include collecting and storing user validation credentials associated with a consumer and a payment vehicle. When completing a payment transaction, a fraud detection engine compares payment transaction data against the stored user validation credentials for payment authorization.
US11983712B2
Location modeling may be generated for candidate locations based on validated location data. The location models for candidate locations may be based on validated location data associated with wireless access points that is validated using transaction data. Such validation may include comparing an identifier associated with candidate location data received from a client device to an identifier for a transaction account associated with a transaction from transaction data at a candidate location. Matching transaction data and candidate location data may generate validated location data to be used in generating location models for candidate locations.
US11983711B1
A computer-implemented method comprising receiving a transaction request from a first node within the plurality of nodes, the transaction request corresponding to a pending transaction between the first node and a second node; identifying a distributed ledger associated with the pending transaction, the distributed ledger including a first record having a hierarchy file indicating a hierarchy among the first node, the second node, and the third node; identifying a second record having an executable file to approve the transaction request received from the first node; executing the executable file, wherein the executable file is configured to retrieve data from a data source associated with the third node and analyze data to approve or deny the transaction request; and appending a third record comprising the set of transaction attributes to the distributed ledger.
US11983699B2
The present disclosure provides a system constructed by connecting a mobile terminal and a service providing device, and a service providing method, wherein the service providing device and the mobile terminal are directly connected via an interface of the mobile terminal; the service providing device provides a service independently or through collaboration between the service providing device and various parties such as the mobile terminal and/or the background server based on the service information parsed and extracted the code information, identification information of any one or more parties among the user, the first mobile terminal, and the service providing device, and/or information bound to the identification information. Through active code scanning or passive code scanning or a combination of the two, the present disclosure may conveniently and quickly implement sensing access and effectively enhance security for operations such as mobile payment, etc.
US11983697B2
Techniques described herein are directed to application(s), or parts thereof, that are embedded into a buyer application. In an example, engagement with a buyer application on a computing device of a buyer can be detected. A particular, discrete functionality of a merchant application of the merchant can be triggered to be initialized in response to the engagement and the particular, discrete functionality associated with the merchant application can be accessed. In an example, an indication of a transaction between the merchant and the buyer can be received and the indication of the transaction can be associated with stored activity data of one or more transactions of the buyer, wherein the one or more transactions are associated with the buyer application.
US11983692B2
An electronic communication module broadcasts a first stream of alternating packets by alternating between a plurality of first packets and a plurality of second packets from a transceiver. Each of the first and second packets is associated with a first and second service, respectively, and includes a header with information identifying a first and second device, respectively as its source of transmission. The electronic communication module receives from a first mobile device a request for the first device to perform an operation associated with the first service, and concurrently establishing a connection with the first mobile device and transmitting first packets associated with a response to the first request, while continuing to broadcast second packets indicating presence of the second device, where the first and second packets are transmitted in an alternating pattern.
US11983690B2
A server computer system, comprises a processor; a communications module coupled to the processor; and a memory coupled to the processor, the memory storing instructions that, when executed, configure the processor to receive, via a user interface displayed on a client device, a signal including a request to transfer data; identify, based on the request to transfer data, a particular data record for receiving the data; determine, based on the particular data record, that a real-time transfer protocol is available to complete the transfer; and in response to determining that the real-time transfer protocol is available to complete the transfer, send, to the client device, a signal enabling a selectable option on the user interface to complete the transfer using the real-time transfer protocol.
US11983685B2
A method of encoding a transaction flow is described. The method comprises: receiving information from a user about a transaction type to be executed; creating a transaction flow comprising a sequence of states, where at least some states include text to be displayed and inputs to be enabled for that state; and encoding the transaction flow into a machine-readable code.
US11983681B2
Systems and methods of monitoring a characteristic of a waste container operation via a sensor node co-located with a waste container are provided. In one exemplary embodiment, a method performed by a first network node comprises receiving, by the first network node, from the sensor node, an image representing a perspective view of an interior of the container, the first network node being operable to estimate an available capacity of the container to hold waste based on that image so that a second network node is operable to schedule a task associated with the available capacity of the container, with the image being obtained by an optical sensor operationally coupled to the sensor node, with the sensor being disposed on a side or corner of the container and having a viewing angle towards an opposite side or corner of the container.
US11983672B2
There are provided methods and systems for managing inventory of inventory items in a storage area, and for automatically carrying out an action in response to a change in at least one inventory item in the storage area.
US11983670B2
The present disclosure relates to an inventory system, wherein the inventory system includes at least one Internet of Things (IOT) inventory device having at least one pressure sensor and a radio field antenna, wherein a weighing surface is located on a top side of the at least IOT inventory device, and wherein the radio field antenna is positioned beneath the weighing surface.
US11983659B2
The present invention realizes a medical material transport system that is low-cost, stable, and safe, the medical material transport system being such that even if a failure occurs in an individual specimen transport device, the failure does not extend to the system as a whole. Collection of a specimen is requested from a specimen collection request terminal 107, and a management unit (108) issues a reception command 110 for the specimen. A drone 101 that has received the reception command 110 for the specimen departs from a standby dock 105 on the basis of the received information and flies to a specimen recovery location 106, and a specimen tray for placing the specimen is taken out from a specimen holder 102. A specimen container is contained in the specimen tray, and the specimen tray is returned to the specimen holder 102 and locked using a lock mechanism. The drone 101 flies to an arrival station 104, and after arriving, uses an unlocking key, and the specimen tray is disengaged from the specimen holder 102. After the specimen container in the specimen tray is collected, the specimen tray is placed in the specimen holder 102, and the drone 101 returns to the standby dock 105.
US11983656B2
Systems and methods for informed mobility platform for an item processing supervisor within a distribution facility are disclosed. In one embodiment, a supervisor mobile terminal for electronically managing item processing activities associated with a distribution facility is provided. The terminal may include a transceiver circuit configured to wirelessly communicate with a server computer a plurality of sets of data relating to the item processing activities. The terminal may further include a user interface configured to display the plurality of sets of data and a controller in data communication with the transceiver circuit and the user interface. The controller may be configured to control the user interface to modify the at least one set of data and control the transceiver circuit to wirelessly communicate the modified data with the server computer such that the at least one set of data stored in the server computer is updated with the modified data.
US11983652B2
Technologies are described for identifying features that can be used to predict missing attribute values. For example, a set of structured data can be received comprising a plurality of features and one or more labels. The set of structured data can be pre-processed, comprise applying one or more cleaning policies to produce a set of pre-processed features. The set of pre-processed features can be filtered using correlation-based filtering that uses one or more correlation estimation techniques to remove at least some highly correlated features. The correlation-based filtering can produce a set of filtered features. Feature subset selection can be performed comprising applying machine learning algorithms to the set of filtered features to determine relative importance among the set of filtered features. Based on the relative importance, a subset of the set of filtered features can be determined. The subset of the set of filtered features can be output.
US11983639B2
The present disclosure relates to identifying process flows from log sources (e.g., log files), and generating visual representations (e.g., flow diagrams, Sankey diagrams, etc.) of the identified process flows. In addition, the present disclosure relates to clustering of tree structures based on the shape of the tree structure using one or more hashing algorithms. The present disclosure also relates to a user interface that presents a query builder for efficiently querying a log analytics system for tree structures that satisfy a user-defined range.
US11983637B2
Techniques related to electronic meeting intelligence are disclosed. An apparatus receives audio/video data including first meeting content data for an electronic meeting that includes multiple participants. The apparatus extracts the first meeting content data from the audio/video data. The apparatus generates meeting content metadata based on analyzing the first meeting content data. The apparatus includes the meeting content metadata in a report of the electronic meeting. If the apparatus determines that the audio/video data includes a cue for the apparatus to intervene in the electronic meeting, the apparatus generates intervention data including second meeting content data that is different from the first meeting content data. During the electronic meeting, the apparatus sends the intervention data to one or more nodes associated with at least one participant of the multiple participants.
US11983634B2
A method is proposed for training a multitask computer system, such as a multitask neural network system. The system comprises a set of trainable workers and a shared module. The trainable workers and shared module are trained on a plurality of different tasks, such that each worker learns to perform a corresponding one of the tasks according to a respective task policy, and said shared policy network learns a multitask policy which represents common behavior for the tasks. The coordinated training is performed by optimizing an objective function comprising, for each task: a reward term indicative of an expected reward earned by a worker in performing the corresponding task according to the task policy; and at least one entropy term which regularizes the distribution of the task policy towards the distribution of the multitask policy.
US11983630B2
A neural network architecture is used that reduces the processing load of implementing the neural network. This network architecture may thus be used for reduced-bit processing devices. The architecture may limit the number of bits used for processing and reduce processing to prevent data overflow at individual calculations of the neural network. To implement this architecture, the number of bits used to represent inputs at levels of the network and the related filter masks may also be modified to ensure the number of bits of the output does not overflow the resulting capacity of the reduced-bit processor. To additionally reduce the load for such a network, the network may implement a “starconv” structure that permits the incorporation of nearby nodes in a layer to balance processing requirements and permit the network to learn from context of other nodes.
US11983627B2
A joint training network including a multi-heard module comprising a network input, a feature network coupled to the network input and including a feature detector decoder outputting interest points and a descriptor generator decoder outputting descriptors, the feature detector decoder and the descriptor generator decoder coupled in parallel, a depth network including a monocular depth prediction decoder and outputting a depth map, a flow network including an image segmentation decoder and outputting a segmented image, a segmentation network including a warping module outputting a rotation and translation and an input warp signal to a segmentation decoder outputting a residual flow and a pose network including a fully connected pose estimator coupled to an adder that receives input from the pose estimator and the residual flow from the segmentation decoder, the adder outputting an optical flow.
US11983626B2
A method and apparatus for improving the quality of an attention-based sequence-to-sequence model. The method includes determining an output sequence corresponding to an input sequence based on an attention-based sequence-to-sequence model, selecting at least one target attention head from among a plurality of attention heads, detecting at least one error output token among output tokens constituting the output sequence based on the target attention head, and correcting the output sequence based on the error output token.
US11983624B2
Systems, apparatuses, and methods for implementing an auto generation and tuning tool for convolution kernels are disclosed. A processor executes multiple tuning runs of a given layer of a neural network while using a different set of operating parameter values for each tuning run. The operating parameters can include one or more of input dataset fetch group size, output channel group size, and other parameters. The processor captures performance data for each tuning run and then after all tuning runs have finished, the processor determines which set of operating parameter values resulted in a better performance for the given neural network layer. The processor uses these operating parameter values for subsequent iterations of the given layer. The processor also performs the same techniques for other layers to determine which set of operating parameter values to use for each layer so as to maximize performance of the neural network.
US11983620B2
The simplification of neural network models is described. For example, a method for simplifying a neural network model includes providing the neural network model to be simplified, defining a first temporal filter for the conveyance of input from a neuron to an other spatially-extended neuron along the arborized projection, defining a second temporal filter for the conveyance of input from yet another neuron to the spatially-extended neuron along the arborized projection, replacing, in the neural network model, the first, spatially-extended neuron with a first, spatially-constrained neuron and the arborized projection with a first connection extending between the first, spatially-constrained neuron and the second neuron, wherein the first connection filters input from the second neuron in accordance with the first temporal filter and a second connection extending between the first spatially-constrained neuron and the third neuron.
US11983616B2
Artificial intelligence is an increasingly important sector of the computer industry. However, artificial intelligence is very computationally intensive field. Fortunately, many of the required calculations can be performed in parallel such that specialized processors can greatly increase computation performance. In particular, Graphics Processor Units (GPUs) are often used in artificial intelligence. Although GPUs have helped, they are not ideal for artificial intelligence. Specifically, GPUs are used to compute matrix operations in one direction with a pipelined architecture. However, artificial intelligence is a field that uses both forward propagation computations and back propagation calculations. To efficiently perform artificial intelligence calculations, a symmetric matrix processing element is introduced. The symmetric matrix processing element can perform forward propagation and backward propagation calculations just as easily. Furthermore, both of these calculations can be performed without reloading weight matrix values.
US11983613B2
The present disclosure provides systems and methods for on-device machine learning. In particular, the present disclosure is directed to an on-device machine learning platform and associated techniques that enable on-device prediction, training, example collection, and/or other machine learning tasks or functionality. The on-device machine learning platform can include a mode controller that allows a user to provide data input indicating whether to operate one or more applications on the device in a first collection mode (e.g., permission mode) for storing training examples or a second collection mode for (e.g., incognito mode) for not storing training examples. The training examples can be generated based on user interaction with the one or more applications and used to personalize one or more machine-learned models used by the application(s) by retraining the models using the user-specific training examples.
US11983605B2
Systems and techniques that facilitate partitioned template matching and/or symbolic peephole optimization are provided. In various embodiments, a system can comprise a template component, which can perform template matching on a Clifford circuit associated with a set of qubits. In various aspects, the system can comprise a partition component, which can partition, prior to the template matching, the Clifford circuit into a computation stage, a Pauli stage, and a SWAP stage. In various instances, the template matching can be performed on the computation stage. In various embodiments, the system can comprise a symbolic component, which can select a subset of qubits from the set of qubits, rewrite at least one entangling gate in the computation stage such that a target of the at least one entangling gate is in the subset of qubits, and replace the at least one rewired entangling gate with a symbolic Pauli gate. In various cases, the symbolic Pauli gate can be a Pauli gate that is controlled by a symbolic variable. In various aspects, the system can comprise a peephole component, which can perform peephole optimization on the subset of qubits with the symbolic Pauli gate by implementing a dynamic programming algorithm.
US11983603B2
A quantum device includes a quantum chip and a holder. The holder includes a pedestal, a recess portion formed in a main surface of the pedestal so as to be opposed to the quantum chip, and a suction tube provided such that in the recess portion, a suction opening is positioned in a bottom surface of the quantum chip.
US11983598B2
Methods and apparatus for scanning swiped barcodes are disclosed. An example method includes in response to detecting an object, capturing first images while focused at a swipe focus distance representing a pre-determined expected swipe distance range within which a scan target is expected to be swiped across a FOV. In response to a barcode decoded based upon the first images, exiting the swipe decode phase. In response to no barcode decoded during a time period representing an expected amount of time during which a scan target is expected to be swiped across the FOV, exiting the swipe decode phase and initiating a re-presentation decode phase including sequentially focusing the imaging scanner at a plurality of pre-determined, re-presentation focus distances, capturing one or more second images at each of the plurality of pre-determined, re-presentation focus distances, and, attempting to decode a barcode in one or more of the second images.
US11983592B2
A method is provided for testing a card body with a metallic core layer for a contactless or dual-interface chip card, and a method is provided for manufacturing a contactless or dual-interface chip card. The method involves testing the functionality of the card body before the chip module employed for testing, or a corresponding chip module, is fixed into the cavity of the card body. A card body having impurities, a partial closure or full closure in the slot of its metallic core layer fails the test and is not used at all for fixing the chip module and for the subsequent manufacturing steps.
US11983590B2
A laminated transaction card may comprise post-consumer polyethylene with a thickness of at least 30% of a thickness of the laminated transaction card. A first polymer-based layer comprising polyvinyl chloride is coupled to a first surface of the core layer by a first adhesive layer. A second polymer-based layer comprising polyvinyl chloride is coupled to a second surface of the core layer by a second adhesive layer. The first adhesive layer and the second adhesive layer comprise an adhesive formulated to bond the post-consumer polyethylene and the polymer-based layers.
US11983582B2
In a wireless communication network, a wireless network controller authenticates a wireless receiver and transfers receiver instructions and Application Programming Interfaces (APIs) for wireless network slices to the wireless receiver. An item wirelessly transmits a network identifier (ID) and a product ID. The wireless receiver wirelessly detects the network ID and the product ID from the item at a geographic location. The receiver selects an API for a wireless network slice based on the receiver instructions and the network ID. The receiver transfers an API call to the wireless network slice. The wireless network slice selects a distributed Application (dAPP) based on the network ID, the product ID, and/or the geographic location for the item. The wireless network slice transfers the network ID, the product ID, and the geographic location for the item to selected dAPP.
US11983568B2
In a computing system in which resources are available for performance of computing tasks allocated to them, and tasks are requested by requesting computers, a scheduler is associated with each of the requesting computers, to enable that computer to obtain resource for performance of the tasks. Each scheduler obtains resources, in accordance with a locally formulated preference list of resources, on the basis of scheduling tokens issued by resources indicative of reciprocal prioritisation of tasks by resources.
US11983565B2
Embodiments of systems and methods for platform framework configuration state management are described. A platform framework of an IHS (Information Handling System) generates a resource dependency graph based on registrations of a plurality of platform framework participants, wherein the registrations of the participants specify use of resources accessed via the platform framework. A change in context of operation of the IHS is determined. Based on the context change, a change is determined in the availability of resources accessed via the platform framework. Based on the resource dependency graph, registered participants are identified that are affected by the change in platform framework resource availability. The affected participants are notified of the change in platform framework resource availability. In some embodiments, the registrations of the participants may specify a communication handle for notifying the participant of changes in the resource dependency graph.
US11983562B2
A multidimensional resource scheduling method in a Kubernetes cluster architecture system is provided. For a computing-intensive service, each server node in the cluster is scored according to CPU idleness and memory idleness; for an ordinary service, each server node in the cluster is scored according to resource requirements of a scheduling task, a resource priority of each server node and resource balance of each server node. The pod scheduling task is bound to a server node with a highest score for execution. This scheduling method meets diverse resource requests of various services, thereby enhancing the flexibility and expandability of the system.
US11983558B2
Applications can be migrated between containers during Modern Standby on a computing device. This migration may be performed to prolong the battery life of the computing device or to otherwise enhance performance. When a change in sensor state information is detected, a migration policy can be applied to application information to generate migration instructions. The migration instructions can then be used to migrate applications between containers.
US11983539B2
A method for computing device maintenance, an apparatus, a storage medium and a program product. The method includes: monitoring an operating status of a computing device; and sending a notification message to a maintenance device if the computing device operates abnormally, where the notification message is used to notify that the computing device operates abnormally, and is used to notify to restart the computing device. The cost of human resources can be reduced, and stability and safety of operation of the computing device is improved to some extent.
US11983538B2
Techniques are disclosed relating to a processor load-store unit. In some embodiments, the load-store unit is configured to execute load/store instructions in parallel using first and second pipelines and first and second tag memory arrays. In tag write conflict situations, the load-store unit may arbitrate between the first and second pipelines to ensure the first and second tag memory array contents remain identical. In some embodiments, a data cache tag replay scheme is utilized. In some embodiments, executing load/store instructions in parallel with fills, probes, and store-updates, using separate but identical tag memory arrays, may advantageously improve performance.
US11983536B1
Systems and methods herein address power for one or more processing units, using one of a plurality of power profiles during execution of a group of real-time instructions, the one of the plurality of power profiles determined based in part on a relationship determined between the one of the plurality of power profiles and a power profile of the group of real-time instructions, the relationship limited by a threshold, and the plurality of power profiles are associated with a plurality of groups of reference instructions.
US11983532B2
A method, system and apparatus for providing bound information accesses in buffer protection, including providing one-to-one mapping between a general-purpose register and bound information in a BI (bound information) register, saving loaded bound information in the BI register for future use, providing integrity of the bound information in the BI register that is maintained along program execution, and providing a pro-active load of the bound information with one-bit extra control on load instruction of the BI register.
US11983528B2
A method and/or system for automated simulation of releases in Agile environments is disclosed. The system is an automated simulation engine comprising—release simulation engine to perform simulate at program or release level and sprint simulation engine to perform simulation at sprint level. The system enables user to simulate execution pattern of user stories, identify spillover user stories and risks in the execution pattern simulated by the system and re-run the simulation iteratively by modifying various project related parameters to arrive at an optimal release plan for projects in Agile environment before the actual allocation to project teams, thereby foreseeing the possible risks and mitigating them for efficient project delivery.
US11983522B2
A computing device receives one or more idle state conditions that indicate an idle device state for a class of devices associated with the computing device. The computing device receives an over the air (OTA) update of a firmware of the computing device, where the OTA update is to be applied by the computing device responsive to detecting the idle device state of the computing device. The computing device identifies a device state of the computing device and determines whether the device state satisfies the one or more idle state conditions. Responsive to determining that the first device state of the computing device satisfies the one or more idle state conditions, the computing device applies the OTA update of the firmware to the computing device.
US11983520B2
Various methods, apparatuses/systems, and media for implementing automatic project transformation and migration processes are disclosed. A processor accesses a private cloud to fetch data related to a state of a project and posts migration mapping data to a migration director corresponding to the project based on the fetched data. The processor also sets user interface state according to project migration state; queues the project for processing; transforms the project to a standardized line of business (LOB) configuration; determines that a validation environment is in a clean configuration; migrates, based on determining that the validation environment is in a clean configuration, the transformed project to the validation environment; and receives user input to approve the migrated project.
US11983518B2
A device for reprogramming an electronic control unit (ECU) is configured to store controller area network (CAN) frames in a temporary storage medium, transmit the CAN frames to a main storage medium when the temporary storage medium receives a certain capacity, and minimize the time required for reprogramming. The device for reprogramming the ECU may be linked to an artificial intelligence module, a robot, an augmented reality (AR) device, a virtual reality (VR) device, and a device related to 5G service.
US11983516B2
A method for executing a script code of an application, the method being implemented via an electronic device, called a calling resource, within which the application is executable. The method includes: obtaining the script code having a set of projectable objects, a projectable object having at least one function executable at a destination execution resource; preparing a transmission data structure of at least one projectable object obtained beforehand, the transmission data structure associating at least one indexing data to each projectable object of the script code; transmitting, to the destination execution resource, the transmission data structure; and subsequently to execution, by the destination execution resource, of at least one function of the at least one projectable object of the transmission data structure: receiving a data structure of execution results of the at least one function; and integrating execution results of the execution results data structure within the calling resource.
US11983500B2
At a terminal equipment side, sentence information received by the terminal equipment is acquired. A part-of-speech label sequence of text data in the sentence information for which part-of-speech labelling is to be performed is extracted. A detection result is acquired by detecting legitimacy of the part-of-speech label sequence. When the detection result indicates that the part-of-speech label sequence is illegitimate, the part-of-speech label sequence is corrected. A corrected part-of-speech label sequence is output as a result of performing part-of-speech labelling on the text data. Semantics corresponding to the sentence information is determined according to output sentence information with part-of-speech labels.
US11983498B2
A system and method for natural language processing for document sequences comprises a computing device configured to train a neural network as a function of a corpus of documents, wherein training comprises receiving the corpus of documents, identifying significant terms, and tuning, as a function of the corpus of documents, the neural network to generate a plurality of vectors for each significant term of the plurality of significant terms, a vector in a vector space representing semantic relationships between the significant terms and semantic units in the corpus of documents, receive a current document sequence including a plurality of documents in a sequential order, map a plurality of mapped terms of the plurality of significant terms to the plurality of documents as a function of the neural network and the plurality of vectors, and generate a plurality of timelines as a function of the sequential order and the mapped terms.
US11983496B2
A method including transcribing, automatically, an ongoing stream of voice data into text phrases. The method also includes receiving an indication of a selected text phrase in the text phrases. The method also includes converting the selected text phrase to a selected phrase vector. The method also includes generating a subsequent text phrase, after the selected text phrase, from the ongoing stream of voice data, and adding the subsequent text phrase to the text phrases. The method also includes converting the subsequent text phrase to a subsequent phrase vector. The method also includes generating a similarity confidence score from the selected phrase vector and the subsequent phrase vector, using a machine learning model. The method also includes highlighting, responsive to the similarity confidence score exceeding a threshold value, the subsequent text phrase in the text phrases.
US11983493B2
A data processing method includes: obtaining a to-be-detected text, and determining a context word set and a candidate substitute word set corresponding to a to-be-detected word in the to-be-detected text to be inputted into a pronoun resolution neural network for feature extraction; performing positive-example iteration processing and negative-example iteration processing on the features corresponding to the context word set and the candidate substitute word set, to obtain a positive-example feature vector length and a negative-example feature vector length, and calculating a substitute probability corresponding to each candidate substitute word in the candidate substitute word set according to the positive-example feature vector length and the negative-example feature vector length; determining a target substitute word according to the substitute probability corresponding to the each candidate substitute word; and inserting the target substitute word into the to-be-detected text according to a position corresponding to the to-be-detected word, to obtain a target text.
US11983490B1
A computer-implemented method includes: allowing a user of a spreadsheet program to select a transaction from a list of transactions for a transaction management platform; creating a mapping sheet in a workbook of the spreadsheet program, the mapping sheet listing, in a first column, data fields associated with the selected transaction; receiving, in a second column of mapping sheet, references to cells of the workbook that correspond to the data fields in the first column; and using the mapping sheet to automatically update the data fields associated with the selected transaction with data values from the corresponding cells of the workbook in response to a user command.
US11983486B1
Described herein are techniques for automatically updating (e.g., augmenting) the content of documents with additional content. Such documents may be generated automatically using a natural language generation (NLG) engine. In some embodiments, the techniques developed by the inventors are configured to update a document with text explaining what caused a certain event or set of events described in the document. The techniques developed by the inventors involve multiple acts. For example, the techniques may identify content of relevance to a document, may identify whether the content includes a text segments having a causal structure, and may separate the cause sub-segment from the cause-segment. The cause sub-segment, and optionally the effect sub-segment, may be used to update the document.
US11983481B2
The present disclosure relates to software-defined methods and apparatuses for designing a wafer-level switching system, including: determining wafer-level switching system layout constraints; constructing a target wafer-level switching system and determining parameters, and designing a logical topology of a switching network; designing a layout of the switching chiplets on the wafer substrate; respectively designing interface structures of external chiplets and internal chiplets; configuring a switching mode and an enable state of each port of the switching chiplets; ending the process when the target logical topology can be achieved by the wafer-level switching system; otherwise, reconstructing a logical topology of a switching network and mapping it to the substrate.
US11983480B2
Embodiments of the application disclose a check tool and a check method for a Design Rule Check (DRC) rule deck of an integrated circuit layout. The check tool (100) for the DRC rule deck of the integrated circuit layout includes: an intelligent database creation engine (110), configured to generate a test case database; an intelligent arrangement engine (120), configured to generate a standard integrated circuit layout (150) according to the test case database; and an intelligent detection and analysis engine (130), configured to detect and analyze a target DRC rule deck (140) of the integrated circuit layout according to the standard integrated circuit layout (150).
US11983476B2
One or more line ends of a putative integrated circuit design are modelled using a constraint graph. A longest path algorithm is applied on subgraphs of the constraint graph. An extent minimization algorithm is carried out on the subgraphs of the constraint graph and routing on the putative integrated circuit design is carried out based on results of the longest path algorithm and the extent minimization algorithm.
US11983472B2
Disclosed is a method for identifying fragile lines in power grid based on electrical betweenness, which comprises the following steps: constructing the power grid into a network diagram, sequentially removing lines in the network diagram, and sorting the electrical betweenness of each line from large to small; constructing a nonlinear model of complex network cascade failure considering overload and weighted edges, and respectively performing two ways of removing lines for sorted electrical betweenness, namely sequentially removing preset proportion lines and sequentially removing all lines until no new lines are removed in the network diagram; obtaining a change of generator-load power before and after each line removal, and evaluating a severity of power grid failure based on the change of generator-load power, thus completing an identification of power grid fragile lines.
US11983470B2
Systems and methods for synchronizing programs for simulation of a technical system. The programs including a first simulation program and a second simulation program. The first simulation program simulates the kinematics of the technical system and the second simulation program simulates a control of the operation of the technical system. The first simulation program outputs values of a first variable at first-time points between first-time intervals according to a first frequency in virtual simulated time and the second simulation program outputs values of a second variable at second time points between second time intervals according to a second frequency in virtual simulated time, the first frequency being lower than the second frequency. Values of the first variable at second time points between two successive first-time points are determined based on an approximation, where the second simulation program uses the approximated values in order to determine values of the second variable at second time points between the two successive first-time points. An error is determined based on the absolute value of the difference between a first integral value as seen from the first simulation program and a second integral value as seen from the second simulation program. A warning is output by a user interface in case that the error exceeds a predetermined threshold.
US11983469B2
A computer-implemented method of modelling a hydraulic network comprising pipes and pressure monitoring points, the method comprising: creating a model comprising a plurality of nodes and a plurality of edges connecting the nodes; wherein each node represents a pressure monitoring point within the hydraulic network, and each edge connects two nodes and represents an amalgamation of the pipes of the network that span between the pressure monitoring points represented by the two nodes.
US11983459B1
A mobile device has a memory storing a name of a user of the mobile device, an audio output interface for outputting an audio signal to earphones worn by the user of the mobile device and a microphone configured to receive a sound signal external to the earphones. A processor is communicatively connected to the microphone to process the sound signal to recognize speech in response to the processor detecting that the audio output interface is outputting the audio signal to the earphones. The processor is configured to determine if the speech includes the name of the user stored in the memory of the mobile device. The processor is configured to generate and provide a volume control signal to the audio output interface to lower a volume of the earphones in response to determining that the speech includes the name of the user.
US11983449B2
A cartridge providing system includes a printer ejecting, onto a printing medium, a liquid (recording material) supplied from a cartridge, and a server managing provision of the cartridge to a plurality of users that use the printer. The server determines whether an unused stock, which is a stock that remains unused for a first period or longer, is present in a stock of cartridges held by each of the plurality of users. In a case in which it is determined that an unused stock is present in the stock held by a first user of the plurality of users, when a period until a usage expiry date of the unused stock is less than a first threshold value, the server specifies a second user, of the plurality of users, to be provided with the unused stock, based on user stock data in which the stock of cartridges held by the user is registered, and on usage amount data indicating a usage amount of the cartridge.
US11983447B2
A control method of an information processing apparatus identifies remaining page data, among a plurality of page data to be printed, being not printed due to suspension of print processing, and displays a preview image of the identified remaining page data as a print target without a user selecting the remaining page data.
US11983441B2
An integrated circuit includes a front-end interface, a back-end interface, a controller, and arbiter circuitry. The front-end interface communicates with a remote host over a front-end fabric. The back-end interface communicates with nonvolatile memory (NVM) subsystems over a back-end fabric. The controller is coupled between the front-end interface and the back-end interface. The controller receives commands from the remote host for the NVM subsystems, and stores the commands in queue pairs associated with the NVM subsystems. The arbiter circuitry receives data for the queue pairs, and selects a command from a first queue pair of the queue pairs based on a comparison of the data to one or more thresholds. The selected command is outputted to one or more of the NVM subsystems.
US11983431B2
A read-disturb-based read temperature time-based attenuation system includes a storage device that is coupled to a global read temperature identification subsystem. The storage device determines current read disturb information for data stored in a block in the storage device during a current time period, processes the current read disturb information and previous read disturb information that was determined during at least one previous time period that was prior to the current time period in order to generate a read temperature for the data stored in the block, generates a local logical storage element read temperature map that includes the read temperature, and provides the local logical storage element map to the global read temperature identification subsystem.
US11983420B2
A method for protecting data in an external memory based on an isolated execution environment is provided. The method is used in a processor in the isolated execution environment of a system-on-a-chip. The method includes: accessing an output command of a main system processor in a main system of the system-on-a-chip; reading first data from a shared memory in the main system according to the output command; encrypting the first data with a private key and generating encrypted first data; and outputting the encrypted first data to the external memory.
US11983412B2
According to one embodiment, a controller of a memory system calculates an amount of transferred data per unit time in response to completion of processing of a first I/O command. While the calculated amount of transferred data per unit time exceeds a first threshold, the controller does not transmit, to a host, a completion response indicating completion of the first I/O command. When the calculated amount of transferred data per unit time is equal to or less than the first threshold, the controller transmits, to the host, the completion response indicating the completion of the first I/O command.
US11983409B1
An autonomous compute storage device system includes a computing device and a storage device that is coupled to the computing device. The storage device receives a read instruction from a host processing system in the computing device that identifies data stored in a storage subsystem included in the storage device and, in response, performs a read operation to copy the data from the storage subsystem to a memory subsystem accessible to the storage device and provide the data to the host processing system. If the storage device determines that an autonomous compute signature matches the data that was copied to the memory subsystem during the performance of the read operation, it executes an autonomous compute application to perform compute operations that are associated with the data that was copied to the memory subsystem during the performance of the read operation and generate compute operation result(s).
US11983404B2
Method for active data storage management to optimize use of an electronic memory. The method includes providing signal injections for data storage. The signal injections can include various types of data and sizes of data files. Response signals corresponding with the signal injections are received, and a utility of those signals is measured. Based upon the utility of the response signals, parameters relating to storage of the data is modified to optimize use of long-term high latency passive data storage and short-term low latency active data storage.
US11983403B2
The present disclosure includes apparatuses, methods, and systems for data relocation in memory. An embodiment includes a controller, and a memory having a plurality of physical units of memory cells. Each of the physical units has a different sequential physical address associated therewith, a first number of the physical units have data stored therein, a second number of the physical units do not have data stored therein, and the physical address associated with each respective one of the second number of physical units is a different consecutive physical address in the sequence. The controller can relocate the data stored in the physical unit of the first number of physical units, whose physical address in the sequence is immediately before the first of the consecutive physical addresses associated with the second number of physical units, to the last of the consecutive physical addresses associated with the second number of physical units.
US11983393B2
An image processing method includes displaying a first screen on a display surface, the first screen including at least a part of a drawing area in which at least one object image drawn by a user is arranged, excluding an area in which at least a part of an object image included in the first screen is arranged from the drawing area when an operation of erasing the at least a part of the object is received, and displaying a reduced screen on the display surface when an operation is received, the reduced screen being obtained by reducing a whole of the drawing area into a size of the display surface.
US11983388B2
A non-transitory computer readable medium stores a program causing a computer to execute: viewably displaying, on the basis of an operation performed by a user, any of a plurality of partial content items constituting content; storing view history of the content; determining, on the basis of the view history, a type of view state of the content if at least one of the partial content items constituting the content has been viewed; determining, on the basis of the type of view state, whether or not the content satisfies a display condition set for each type of view state, the display condition including a condition that the content has a partial content item that has not been viewed; and displaying, in a predetermined display area, an image indicating the content if the content satisfies the display condition.
US11983382B2
Disclosed is a system and associated methods for controlling computer operation through three-dimensional (“3D”) menus, 3D toolbars, and other 3D elements that provide an efficient and dynamic organization of application functionality and icons across three dimensions. The system generates a first 3D element with a first number of regions with each region of the first number of regions providing access to different functionality from a first set of functionality, and a second 3D element with a second number of regions with each region of the second number of regions providing access to different functionality from a second set of functionality. The system connects the first 3D element to the second 3D element, and rotates one or more of the first element and the second 3D element to change the functionality that is accessible from the one or more of the first element and the second element.
US11983373B1
A device may include a first set of electrodes, a second set of electrodes that is transverse the first set, and at least one connection between an electrode in the first set to an electrode in the second set by a high pass filter. The connected electrode(s) in the first set and the connected electrode(s) in the second set may form an antenna. The device may include a processor and memory. The memory may store programmed instructions which cause the processor, when executed, to transmit a wireless signal using the connected electrodes during a first time, and measure a capacitance signal using electrodes in the first set and electrodes in the second set during a second time.
US11983361B2
Embodiments of the present disclosure are related to a touch display device, in a structure that a touch electrode line is disposed to be divided on a plurality of sub-areas included in an active area, by synchronizing a driving of the touch electrode line adjacent to a boundary of the sub-area, or by performing a differential sensing processing by sharing a touch sensing signal detected from the touch electrode line, thus an accuracy of a touch sensing for an area adjacent to the boundary of the sub-area can be improved.
US11983359B2
A display device can include a substrate including a display area and a non-display area. The display device can further include a plurality of light-emitting elements disposed on the substrate, and a sealing layer disposed on the plurality of light-emitting elements. The display device also can include a touch detection part disposed on the sealing layer in the display area, and a plurality of touch routing lines connected to the touch detection part in the non-display area. Further, the display device can include a shield part disposed to surround two opposite sides and a lower side of one or more touch routing lines among the plurality of touch routing lines.
US11983351B1
A touch data transmission method of present disclosure includes: generating a header information by a first controller according to a detected touch event; generating a first checksum information by the first controller according to the header information; storing the header information and the first checksum information to a memory by the first controller; and, storing a plurality of position information of the detected touch event to the memory by the first controller.
US11983349B2
According to an aspect, a display device with a sensor includes: a substrate including a display region and a peripheral region on a periphery of the display region; detection electrodes arranged in a row-column configuration in the display region; and detection lines coupled to the respective detection electrodes. A shape of the substrate in a plan view includes a curve of a curved portion. The detection electrodes include a first electrode and a second electrode having a shape different from that of the first electrode in a plan view. The second electrode is juxtaposed with the curved portion. The detection lines each include a first line coupled to the first electrode and a second line coupled to the second electrode. The second line passes from the display region across the peripheral region and extends to a position overlapping with the second electrode in a plan view.
US11983348B1
A display for an information handling system includes a top bezel, a printed circuit board, and a bottom bezel. The top bezel has a first width. The printed circuit board is in physical communication with the top bezel, and includes a touch circuit. The touch circuit performs one or more operations based on different touch operations. The bottom bezel has a second width, and multiple touch electrodes. Each of the touch electrodes communicates with the touch circuit.
US11983347B2
The present embodiments may provide a touch display device including: a display panel in which a plurality of data lines, a plurality of gate lines, and a plurality of touch electrodes are disposed; a gate-driving circuit configured to drive the plurality of gate lines; a data-driving circuit configured to drive the plurality of data lines; and a touch-driving circuit configured to drive the plurality of touch electrodes while the plurality of data lines and the plurality of gate lines are driven. In this touch display device, while a touch-driving signal swings with a predetermined amplitude, a data signal and a gate signal may also swing with the predetermined amplitude. According to the present embodiments, it is possible to enable high-speed image display and high-speed touch sensing, to perform a display operation and a touch operation simultaneously, and to display an image normally without any image change.
US11983344B2
A touch screen display includes a display, a video graphics processing module, electrodes integrated into at least a portion of the display, and drive-sense circuits coupled to the electrodes. The drive-sense circuits, when enabled and concurrent with the display rendering frames of data into the visible images, detect changes in electrical characteristics of electrodes. At least some drive-sense circuits monitor sensor signals on at least some electrodes. A sensor signal includes a drive signal component and a receive signal component. The at least some drive-sense circuits generate the drive signal components of the sensor signals. The receive signal component is a representation of a change in an electrical characteristic of an electrode of the at least some electrodes when a corresponding drive signal component is applied to the electrode. The change in the electrical characteristic of the electrode is indicative of a proximal touch to the touch screen display.
US11983339B2
The present disclosure provides a touch display device for minimizing viewing-angle-dependent variation in color coordinates. The touch display device includes a light-emitting element disposed in each of a plurality of subpixels including emission areas having different sizes, a plurality of touch electrodes disposed on the light-emitting element, and at least one opening formed in each of the plurality of touch electrodes. The width of the opening is formed differently in each of the plurality of subpixels including the emission areas having different sizes, thereby minimizing viewing-angle-dependent variation in color coordinates.
US11983338B1
A system for using a transparent conductive material layer for a knob interface is provided. The system comprises: the knob interface comprising a fixed base and one or more knob interface electrodes; the transparent conductive material layer configured to electrically couple the subset of the plurality of grid electrodes to the one or more knob interface electrodes; and a processing system. The processing system is configured to: drive the plurality of grid electrodes with one or more signals; receive one or more resulting signals based on driving the plurality of grid electrodes with the one or more signals; and perform one or more actions based on the one or more resulting signals.
US11983333B2
An optical sensor system that uses focused (not collimated) light optics and produces effective tracking on a variety of surfaces while having looser manufacturing and/or operational tolerances than prior focused optics systems. Embodiments provide an optical sensor system for a mouse moveable on a surface. An LED and a light sensor are coupled to a substrate. An illumination lens directs light at a first angle to the surface, with the light focused on a focal point below the surface. An imaging lens focuses light reflected at an angle generally equal to the first angle on the light sensor. The focal point is sufficiently below the surface so that that the diameter of a produced spot of light on the surface is more than 40% larger than a field of view (FOV) of the light sensor, and less than 400% larger than the FOV of the light sensor.
US11983331B2
The present disclosure relates to a pressure measuring device using a textile sensor. In one embodiment the pressure measuring device includes: a textile sensor which exhibits conductivity; a power unit which supplies power to the pressure measuring device; and a control unit which is electrically connected to a textile sensor layer and the power unit, checks a resistance change value detected by the textile sensor by a force applied to the textile sensor, and determines the pressure value of the force applied to the textile sensor on the basis of the checked resistance change value, wherein the control unit checks a control command corresponding to the pressure value measured on the basis of the force applied to the textile sensor, and may transmit the control command to a pre-designated peripheral device. A function corresponding to the checked control command may be executed on the pre-designated peripheral device.
US11983330B1
An electronic device, method, and computer program product for managing a content creation application are disclosed. A first device housing is pivotable relative to a second device housing between a closed position and an axially displaced open position. A first display panel and user interface are exposed when the first device housing and the second device housing are in the axially displaced open position. A second display panel is exposed both when the first device housing and the second device housing are in the closed position and when the first device housing and the second device housing are in the axially displaced open position. The first display panel displays a content creation application, which is mirrored onto the second display panel. A portion of the user interface is overlaid onto the content creation application on second display panel and receives user input to manage the content creation application.
US11983329B1
In one embodiment, a method includes presenting a suggestion to a user of a head-mounted device by the head-mounted device via an assistant xbot during a dialog session between the user and the assistant xbot, wherein the suggestion is associated with a plurality of actions to be performed by an assistant system associated with the assistant xbot, accessing signals from inertial measurement unit (IMU) sensors of the head-mounted device by the head-mounted device during the dialog session, determining a head gesture performed by the user during the dialog session by an on-device head-gesture detection model and based only on the signals from the IMU sensors, and executing a first action from multiple actions by the assistant system executing on the head-mounted device, wherein the first action is selected based on the determined head gesture during the dialog session.
US11983327B2
A method for identifying a gesture from one of a plurality of dynamic gestures, each dynamic gesture comprising a distinct movement made by a user over a period of time within a field of view of an image acquisition device comprises iteratively: acquiring a current image from said image acquisition device at a given time; and passing at least a portion of the current image through a bidirectionally recurrent multi-layer classifier. A final layer of the multi-layer classifier comprises an output indicating a probability that a gesture from the plurality of dynamic gestures is being made by a user during the time of acquiring the image.
US11983309B2
A processing device includes a memory configured to store executable instructions, and processing circuitry configured to execute the executable instructions stored in the memory to thereby realize: a first acquisition unit configured to acquire timing of blink motion performed by a dialogue device, a second acquisition unit configured to acquire blink timing by user performing a dialogue with the dialogue device, and a processing unit configured to perform processing according to difference between the timing of blink motion performed by the dialogue device and the blink timing by the user.
US11983306B2
A system configured to track the location of one or more peripherals operated by a user, the system comprising a tracking unit configured to determine a location of the one or more peripherals in dependence upon images captured by a camera associated with an HMD worn by the user, a generation unit configured to generate, in response to a determination by the tracking unit that one or more of the peripherals is not visible in the images, an array of home points behind the user, the home points being locations defined in dependence upon constraints upon the user's motion, an estimation unit configured to estimate the respective locations of non-visible peripherals in dependence upon the output of one or more inertial measurement units associated with each peripheral, and a selection unit configured to select a home point, from amongst the array of home points, for each of the non-visible peripherals, wherein the tracking unit is configured to generate a location for each non-visible peripheral such that the location converges towards the selected home point.
US11983305B2
A content presentation system, a content presentation device, and a content presentation method that reduce a burden on a user and present suitable contents to the user with high accuracy are provided. The present technology provides a content presentation system including a computer device that holds content information associated with emotion information indicating an emotion of a user, in which the computer device at least includes a machine learning model that, on the basis of a plurality of pieces of content information presented to the user corresponding to desired emotion information indicating emotion information desired by the user and content information selected by the user from the plurality of pieces of content information, performs machine learning so as to present the content information suitable for the emotion information.
US11983302B2
System and method are provided for assigning a service identifier for use by an IHS (Information Handling System), where a new service identifier may be assigned to the IHS due to replacement of hardware of the IHS. The IHS is provisioned with an inventory certificate that identifies hardware components of the IHS, including a service identifier for the IHS. Support provided for the IHS is tracked based on this service identifier. A hardware component of the IHS is removed, where the service identifier is assigned to this removed hardware component. A replacement hardware component is installed in the IHS. An updated inventory certificate is generated that assigns a new service identifier to the replacement hardware component installed in the IHS. The IHS is provisioned with the updated inventory certificate that specifies the new service identifier. Support provided for the IHS is now tracked based on the new service identifier.
US11983300B2
An embodiment of the present invention is directed to a market data hub. The innovative system comprises a processing engine that manages contributed content and allows for custom analytics, alerting, reporting, machine learning interfaces, etc., while preserving entitlements controls specific to participants. Moreover, the system disseminates market data to downstream consumers and syndicated entities that are entitled to view the market data.
US11983296B2
Method, system and product for performing private and non-private tasks in Augmented Reality (AR) systems. A privacy policy of a user using an AR device is obtained. A frame sensor is utilized to obtain frames for processing. An overlay display for the frame is generated. The overlay display is generated based on an execution of a non-private task on a non-trusted device and based on an execution of a private task on a trusted device. The private task and the non-private task are determined based on the privacy policy. The overlay display is displayed by an AR device.
US11983290B2
A method for supporting identity management of travelers in an airport using a distributed ledger system includes receiving, by a global identity blockchain, a registration request from a traveler via a traveler device. The registration request includes a commitment for identity data that is uploaded by the traveler in a secure cloud storage. The method further includes recording the commitment in the global identity blockchain, receiving, by the global identity blockchain, a result of an identity verification with respect to the traveler from a verifier entity, recording the result in the global identity blockchain, and receiving, by a security blockchain, a ticket registration transaction issued by an airline entity. The ticket registration transaction comprises a unique traveler ID of the traveler. The method further includes issuing, by the security blockchain, an access control list update upon reception of consent by the traveler.
US11983282B2
Provided is a data protection method which includes: receiving transaction data which includes a first hash value obtained from history information of a home; obtaining, from a data server, a second hash value computed by the data server performing computation processing on encrypted history information without decrypting the encrypted history information, the encrypted history information being history information of the home encrypted using a secure computation method which enables computation without decrypting the encrypted history information, the encrypted history information being obtained from the home; verifying the transaction data, and determining whether the first hash value and the second hash value match; and when a validity of the transaction data is verified and the first hash value and the second hash value match, recording the transaction data in a distributed ledger.
US11983279B2
A content delivery system (100) comprises a trusted holder of profile data (200) arranged to store information concerning a conscious entity, a content delivery requirement entity (210), a content intermediary entity (226); and a source of content (232). The trusted holder of profile data (200) is arranged to issue (230) profile reference data to the content delivery requirement entity in response to a request (222) therefrom, and to communicate (224) the profile reference data and at least part of the stored information concerning the conscious entity to the content intermediary entity (226), the request for content provision (222) being capable of identifying the conscious entity to the trusted holder of profile data. The content intermediary entity (226) is arranged to source, when in use, relevant content from the source of content (232) using the at least part of the stored information concerning the conscious entity.
US11983275B2
An apparatus comprises a processing device configured to determine, utilizing a firmware-based agent running in firmware, a boot flag status during a boot process of the processing device. The processing device is also configured to execute, responsive to the boot flag status being a first value, a system update handler of the firmware-based agent configured for provisioning of a secured runtime operating system on the processing device, wherein the provisioning comprises digitally signing an image of the secured runtime operating system utilizing a hardware-based root of trust key. The processing device is further configured to execute, responsive to the boot flag status being a second value, a secured operating system boot handler of the firmware-based agent configured for validating and loading secured runtime operating system, wherein the validation comprises performing attestation of a signature of the image of the secured runtime operating system utilizing the hardware-based root of trust key.
US11983274B1
Provided are a processing device and a method for secure booting thereof, in which the processing device includes a security core that operates a Root of Trust and sequentially performs an integrity check on first firmware and second firmware through the Root of Trust, a main core that sequentially operates the first firmware and the second firmware, a non-volatile memory storing the first firmware and the second firmware, and a first volatile memory that loads the first firmware and the second firmware from a main core domain of the main core and operates the loaded firmware with the main core.
US11983265B2
Systems and methods of cyber hardening software by modifying one or more assembly source files. In some embodiments, the SME tool transparently and seamlessly integrates into the build process of the assembly source files being modified. For example, upon integration of the disclosed SME tool into the application's development environment, the modifications in the final executable are transparent to the developer and can support other cyber hardening techniques. In some embodiments, the integration of the SME tool into a build can be automated. Simplifying integration, through automated means, can be beneficial for widespread adoption of SME tools in cyberhardening software applications. Automated SME build integrations, e.g., removing manual methods and techniques, can help eliminate human errors and result in faster SME integrations, in comparison to manual integrations of a SME tool.
US11983264B2
Embodiments herein describe offloading encryption activities to a network interface controller/card (NIC) (e.g., a SmartNIC) which frees up server compute resources to focus on executing customer applications. In one embodiment, the smart NIC includes a system on a chip (SoC) implemented on an integrated circuit (IC) that includes an embedded processor. Instead of executing a transport layer security (TLS) stack entirely in the embedded processor, the embodiments herein offload certain TLS tasks to a Public Key Infrastructure (PKI) accelerator such as generating public-private key pairs.
US11983262B2
According to an aspect of the invention, there is provided a device for generating a unique response to a challenge, the device comprising: a plurality of structures, each structure being able to change from a first distinct state, to a second distinct state, in response to an appropriate input challenge; the device being arranged to facilitate a challenge of the plurality of structures in combination, by changing an input to the plurality of structures in combination, to cause each structure of the plurality of structures to change from the first distinct state, to the second distinct state; as part of the challenge, the device being arranged to facilitate a measurement of an output of the plurality of structures in combination, in response to the input; wherein the unique response is at least indicative of a sequence in which the change in state takes place for each of the plurality of structures, in response to the input.
US11983260B2
A computer platform is disclosed. The computer platform comprises a central processing unit (CPU) including at least one socket having a plurality of tiles and control circuitry to partition the socket into a plurality of sub-sockets and assign a unique identity to each of the plurality of sub-sockets for security verification, wherein each sub-socket comprises at least one of the plurality of tiles to operate as a cluster of resources.
US11983257B2
Systems and methods for voice authentication are disclosed. In an embodiment, a computer system may determine that a user is eligible for establishing a voice authentication capability for a user account during a real-time audio communication between a user device corresponding to the user and a communication system associated with an electronic service provider. The computer system may enhance a recording quality of a portion of the real-time audio communication and record a voice sample for the portion of the real-time audio communication at the enhanced recording quality. The computer system may generate a voiceprint based on the voice sample and enable the voice authentication capability such that the user can be authenticated by voice in future audio communications with the communication system in a minimally intrusive fashion where normal conversation can be used to capture voice samples which can be compared to the voiceprint to authenticate the user.
US11983254B2
Systems, computer program products, and methods are described herein for secure access control using dynamic resource replication. The present invention is configured to electronically receive, from a computing device of a user, a request to generate a resource access path to access a resource; determine one or more resource requirements associated with the resource; determine an authentication level associated with the user; initiate a resource replication engine on the one or more resource requirements and the authentication level associated with the user; determine, using the resource replication engine, that the one or more requirements and the authentication level associated with the user meets one or more conditions for a replication process; and generate, using the resource replication engine, the resource access path and a plurality of replicate resource access paths.
US11983249B2
An error determination device includes a class estimation process observation unit configured to acquire data in a process of being estimated, from a class estimation unit that estimates a class of data to be classified and generate an estimation process feature vector based on the acquired data; and an error determination unit configured to accept input of the estimation process feature vector generated by the class estimation process observation unit and a classification result output from the class estimation unit and determine whether the classification result is correct or incorrect based on the estimation process feature vector and the classification result, wherein the error determination unit is a functional part generated by machine learning based on an estimation process feature vector list created by adding a pseudo feature vector to an estimation process feature vector list generated by the class estimation process observation unit and on a learning error-correction list indicating that a class corresponding to the pseudo feature vector is incorrect.
US11983232B1
Systems and methods for using parameters with shortened resource locators to access a resource are provided. A short resource locator is associated with a full resource locator template in a resource locator association datastore. Parameters provided with the short resource locator are used to replace two or more parameter identifiers within a full resource locator template to generate a full resource locator. The full resource locator is used to access a resource.
US11983229B2
Systems and methods are described herein for controlling mobile devices with user equipment devices. A user equipment device may detect a mobile device is within a predetermined proximity to the user equipment device by establishing a bi-directional communication. The user equipment device may determine an input/output option of the mobile device. The input/output option may be a microphone, a cellular Internet connection, a camera, or any other sensor and/or actuator of the mobile device. The user equipment device may generate for display an icon corresponding to the input/output option of the mobile device.
US11983227B2
A computer system receives a goal for an environment, wherein the environment corresponds to at least one webpage. The computer system receives one or more classifiers corresponding to the environment, wherein the one or more classifiers provide information corresponding to a current webpage and information corresponding to one or more previous actions taken by a web crawler. The computer system identifies a recommended next action based on the one or more classifiers. The computer system transmits the recommended next action to the web crawler to cause the web crawler to perform the recommended next action.
US11983225B1
A system that applies real-time electronic matching of a plurality of users in a live event, to enable the formation of anonymous connections amongst groups of users who can then interact through social activities. An event features a plurality of rounds, and in each round, users are matched into groups based on user selected interests. The matching system employs a user-enabled confidential selection of interests, through the use of, but not limited to, a personal device, such as a mobile phone or computer. The present invention is not limited in application to social networking environments, such as in a singles' event. It can also be applied in other environments where anonymous interactions are of importance, such as in the matching of potential buyers or sellers of products and services; or in the matching of recruiters and employment candidates.
US11983224B2
Provided are a data presentation system, method and device, and a computer-readable storage medium. The data presentation system includes: a data collection device configured to collect multiple service system data each from a respective data source and store the service system data in a database; a data parsing device configured to obtain the multiple service system data from the database, and parse each service system data through a respective data model to obtain a data block corresponding to the respective data source; a request responding device configured to: in response to a data request sent by a client, obtain the data block matching the data request as a demanded data block; and a data sending device configured to send the demanded data block to the client to enable a display interface of the client to display the demanded data block.
US11983221B2
Methods, apparatus and computer program product for generating tiered search index fields based on a divided group-based communication data corpus in a group-based communication platform are described herein. In some embodiments, the system provides for receiving a group-based communication data corpus, generating a retrieval score, and assigning each group-based communication data object associated with a retrieval score. Each group-based communication data object may meet or exceed a retrieval score threshold of a high retrieval probability corpus. Each group-based communication data object associated with a retrieval score below the retrieval score threshold may be assigned to a low retrieval probability corpus. High and a low retrieval probability search index fields may be generated and associated with the high and low retrieval probability corpus.
US11983214B2
A method and apparatus for determining that a media asset appears in at least two or more scenes in scenes associated with an immersive media presentation, sending a request to a client querying whether the client has access to the media asset appearing in at least two or more scenes in a local cache, receiving a reply indicating whether the client has access, signaling, in response to the reply indicating that the client has access to the media asset appearing in at least two or more scenes in the local cache, the client to use the media asset in a subsequent scene, and distributing the media asset to the client in response to the reply indicating that the client has no access to the media asset appearing in at least two or more scenes in the local cache.
US11983205B2
Systems and methods for similarity search are described. Embodiments identify a document and a query corresponding to a matching phrase in the document, encode the query and a candidate phrase, score the candidate phrase using at least one learning-based score and at least one surface form score, wherein the at least one learning based score is based on the encoding, and the at least one surface form score is based on a surface form of the query and a surface form of the candidate phrase, and select the matching phrase based on the scoring.
US11983195B2
Systems, methods, and computer readable media are disclosed for generating one or more improved NFTs are described. For example, a software application embedded with a mobile device may enable a user to search a public and/or private database of videos, select a video from the database, record a selfie-video, audio, or other narration of the video to create a narration file, and create and publish an NFT based on the narration file without leaving the application embedded with the mobile device (e.g., without navigating to a separate token creation platform).
US11983194B2
Systems and methods for preparing and analyzing data related to geo-spatial properties. A system generates from a first data source, based on an ontology, a geographic dataset including first data objects representative of first data from the first data source and at least one geo-spatial reference based on respective location information from the first data source that corresponds to the first data. The system can also generate a vector map data tile layer based on the ontology using the geographic dataset and including vector map data tiles, having map geometry data linked to the first data objects by a geo-spatial reference, and corresponding to a portion of a geographic area represented by the vector map data tile layer. In response to requests from the front-end system application for first data related to a geo-spatial feature, tiles can be provided and first data corresponding to selected geo-spatial references can be displayed.
