US11743308B1
The method for storing streaming media includes receiving, from a user device, a request to navigate to a requested time of a media stream. The method also includes determining whether a block of media segments that have a time interval that overlaps with the requested time is stored at the server. The method also includes retrieving the block of media segments from long-term memory in accordance with a determination that the block of media segments is not stored at the server. The method also includes traversing the block of media segments that have a time interval that overlaps with the requested time of the media stream to seek and identify a media segment corresponding to the requested time of the media stream. The method also includes streaming a media stream to the user device that begins at the media segment corresponding to the requested time of the media stream.
US11743303B2
Remote control to facilitate the management, configuration, or maintenance of information technology infrastructure is provided. The system activates a real-time communication session and a code for the real-time communication session. The system generates a link with an indication of the code for the real-time communication session. The system transmits the link to a mobile telecommunications device that launches a web browser to request content. The system receives the request for content, and obtains access to data from a sensor of the mobile telecommunications device. The system identifies the real-time communication session corresponding to the code. The system establishes, via a web socket over a network protocol, the real-time communication session with a data feed from the sensor. The system provides, based on at least a portion of the data feed, a command to control the mobile telecommunications device.
US11743297B2
A system may include a traffic interception module configured to intercept network traffic of a host device. A traffic virtualization module may be configured to generate a virtual file on the host device containing the intercepted network traffic. A security system interface module may be configured to provide the virtual file to a secure digital security system over a virtualized file interface coupling the host device to the secure digital security system, and to receive instructions to allow or to deny the network traffic from the secure digital security system over the virtualized file interface. A traffic access management module may be configured to allow or to deny the network traffic based on the instructions.
US11743295B2
Methods, apparatus, systems and articles of manufacture to provide resource security are disclosed. Example methods and apparatus manage a benchmark specific to a resource, the benchmark created during development of the resource and including a collection of rules to constrain behavior of the resource, enable a rule of the benchmark that corresponds with a type of the resource, disable a rule of the benchmark that does not correspond with the type of the resource, test the enabled rule of the benchmark against the resource, identify an insufficiency of the resource based on the enabled rule of the benchmark, and remediate the insufficiency of the resource to comply with the enabled rule of the benchmark.
US11743294B2
Conventional email filtering services are not suitable for recognizing sophisticated malicious emails, and therefore may allow sophisticated malicious emails to reach inboxes by mistake. Introduced here are threat detection platforms designed to take an integrative approach to detecting security threats. For example, after receiving input indicative of an approval from an individual to access past email received by employees of an enterprise, a threat detection platform can download past emails to build a machine learning (ML) model that understands the norms of communication with internal contacts (e.g., other employees) and/or external contacts (e.g., vendors). By applying the ML model to incoming email, the threat detection platform can identify security threats in real time in a targeted manner.
US11743293B2
A method for remote attestation includes establishing, using a cryptographic protocol, a communication session between a first computing device and a second computing device. The communication session includes communications encrypted by an ephemeral session key. The method includes receiving, at the first communication device via the communication session, from the second computing device, an attestation request requesting the first computing device to provide an attestation report. The method includes generating, by the first computing device, the attestation report based on the ephemeral session key and sending, using the communication session, the attestation report to the second computing device.
US11743290B2
A system and method for detecting phishing cyberattacks. The method involves parsing a code segment retrieved using a suspect uniform resource locator (URL) to identify any links included in the code segment. From these links, additional code segments may be recovered in accordance with a code segment recovery scheme. Thereafter, analytics are performed on the retrieved and possibly recovered code segments. The analytics include determining whether any of the code segments is correlated with a code segment associated with a known prior phishing cyberattack. Upon completing the analytics, an alert message including meta-information associated with results from the analytics is generated to identify that the URL is associated with a known prior phishing cyberattack when one or perhaps a combination of code segments associated with the URL are correlated to any code segment associated with a known prior phishing cyberattack.
US11743281B1
Presented herein are system and methods for detecting anomalies in microservices. A server may receive a first plurality of metrics from a microservice of a plurality of microservices. Each of the microservices may provide a respective function for an application independently from other microservices. The server may apply the first plurality of metrics to an ensemble of anomaly detection models to generate classifications. Each of the classifications may indicate the first plurality of metrics as one of anomalous or normal from a respective model of the ensemble. The ensemble may be trained using a second plurality of metrics from the microservice. The server may identify a majority of the plurality of classifications as indicating the first plurality of metrics as anomalous. The server may determine that at least one of the first plurality of metrics satisfies a threshold. The server may generate an alert to indicate an anomaly event.
US11743280B1
A method identifying clusters with anomaly detection. The method includes aggregating a set of events, of a user, to generate a user vector in response to identifying an event of the set of events. The method further includes aggregating a set of user vectors to a periodic vector for a time period. The method further includes processing a set of periodic vectors to generate a periodic distance. The method further includes selecting the time period, corresponding to the periodic vector, using the periodic distance and a threshold. The method further includes processing the set of user vectors to generate clusters of user vectors, wherein the set of user vectors includes the event during the time period. The method further includes processing the clusters of user vectors to identify a selected cluster and performing an action to a set of user accounts corresponding to the selected cluster.
US11743278B2
Systems and methods are disclosed for computing network operations. For example, methods may include receiving, at a computing device located within a private network, a message sent from a server located outside of the private network, the message including an observable; invoking, within the private network, a search of data associated with the private network to obtain a search result that includes data matching the observable; aggregating, within the private network, data from the search result that matches the observable to obtain a report that includes an indication of the observable, a count of occurrences of the observable, and identification of one or more components associated with the observable; and transmitting the report to the server.
US11743276B2
Methods, apparatus, systems and articles of manufacture for producing generic Internet Protocol (IP) reputation through cross-protocol analysis are disclosed. An example apparatus includes a data collector to gather a first data set representing IP telemetry data for a first protocol, the data collector to gather a second data set representing IP telemetry data for a second protocol different from the first protocol. A label generator is to generate a training data set based on records in the first data set and the second data set having matching IP addresses, the training data set to include combined label indicating whether each of the respective matching IP addresses is malicious. A model trainer is to train a machine learning model using the training data set. A model executor is to, responsive to a request from a client device, execute the machine learning model to determine whether a requested IP address is malicious.
US11743275B2
The technology relates to machine responses to anomalies detected using machine learning based anomaly detection. In particular, to receiving evaluations of production events, prepared using activity models constructed on per-tenant and per-user basis using an online streaming machine learner that transforms an unsupervised learning problem into a supervised learning problem by fixing a target label and learning a regressor without a constant or intercept. Further, to responding to detected anomalies in near real-time streams of security-related events of tenants, the anomalies detected by transforming the events in categorized features and requiring a loss function analyzer to correlate, essentially through an origin, the categorized features with a target feature artificially labeled as a constant. An anomaly score received for a production event is determined based on calculated likelihood coefficients of categorized feature-value pairs and a prevalencist probability value of the production event comprising the coded features-value pairs.
US11743272B2
A method comprises analyzing, by a machine-learning model, a first network communication with a first set of inputs. The method also comprises inferring, by the machine-learning model and based on the analyzing, that a first device that is a party to the first network communication exhibits a device property. The method also comprises extracting, from the machine-learning model, a first set of significant inputs that had a significant impact on the determining. The method also comprises creating, using the first set of inputs, a rule for identifying the device property. The rule establishes a condition that, when present in a network communication, implies that a party to the network communication exhibits the device property.
US11743267B2
Disclosed herein are system, method, and device embodiments for implementing location identification in multi-factor authentication (MFA). In an example embodiment, a user service may present a geographic map based on a MFA process, and receive an authentication attempt including a geographic indicator and interaction information. Further, the system may determine whether the authentication attempt was made by a human based at least in part on the interaction information, determine whether the geographic indicator matches an expected response, and send, to an electronic device, an authentication result indicating whether geographic information was determined to be selected by a human and the geographic indicator was determined to match the expected response.
US11743261B2
A method of preventing a subject communication device 1021 . . . N from accessing a resource when it is determined to be counterfeit. The method involves delivering the web page component to a subject communication device 1021 . . . N in response to a request. The web page component is adapted to retrieve actual values of a plurality of attributes from the subject communication device 1021 . . . N. Reference values of the plurality of attributes are retrieved from a device property store 110 and the method determines that the subject communication device 1021 . . . N is counterfeit when at least one of the actual values of the plurality of attributes is different to the reference value of that attribute.
US11743246B2
Systems, methods and computer program products for controlling access to data owned by an application subscriber using two-factor access control and user partitioning are disclosed. In one embodiment, applications are executed on a multi-tenant application platform in which user partitions designate associated users and authentication services for those users. Tenants may subscribe to the applications and may allow access to the subscriptions through designated entry points. Users that are authenticated according to the corresponding user partition and access the application through the designated entry point are allowed to access the application through the tenant's subscription.
US11743241B2
A computer-implemented method includes receiving, by a transcoder, second encrypted data. The second encrypted data is data that has been encrypted in a first key to create first encrypted data that is then encrypted in a second key to create the second encrypted data. The method includes receiving the second key and decrypting the second encrypted data using the second key to obtain the first encrypted data. The method includes encrypting the first encrypted data using a third key to create third encrypted data, and sending the third encrypted data to a destination node. A computer-implemented method includes receiving, by a transcoder, a second encrypted key. The second encrypted key is a key that has been encrypted in a first key to create a first encrypted key that is then encrypted in a second key to create the second encrypted key.
US11743235B2
One example method of operation may include receiving a data request from a client device to retrieve data from one or more servers, identifying from the data request one or more of a domain name and an IP address associated with the one or more servers, determining whether the data will be routed through a VPN server or through a non-VPN route among the one or more servers based on a comparison of one or more of the domain name and the IP address with one or more lists stored in a VPN client application memory associated with the VPN server, and routing the data through the VPN server or outside the VPN server based on results of the comparison.
US11743232B2
Systems, methods, and computer-readable media are provided for software defined branch single IP orchestration. An example method can include establishing, by a controller, a secure tunnel agent to an orchestrator, generating, by the controller, a single IP address on a virtual router for a virtual branch site, and monitoring, by the controller, reachability of the single IP address on the virtual router.
US11743231B2
Methods, systems, and storage media are described for providing fifth generation-local area network (5G LAN)-type services and 5G LAN communications over 5G Systems. Other embodiments may be described and/or claimed.
US11743227B2
A system and method are disclosed to generate, transmit, and update communications with end user systems. Embodiments comprise an automation platform comprising a processor and memory. Embodiments generate a communication based, at least in part, on input from a rules engine and one or more communication templates. Embodiments modify the content of the generated communication, and transmit, using one or more communication channels, the modified communication to one or more end user systems. Embodiments monitor the one or more end user systems for a response communication to the transmitted communication. In response to the one or more end user systems transmitting one or more response communications using at least one of the one or more communication channels, embodiments generate and transmit an updated communication to the one or more end user systems.
US11743225B2
The present disclosure relates to systems and methods for automatically converting one or more emails to one or more chat conversations and for automatically converting a chat conversation to an email thread.
US11743223B2
Systems, methods, and non-transitory computer-readable media can provide a messaging interface that includes a first option for exchanging ephemeral messages with users of a social networking system and a second option for exchanging non-ephemeral messages with users of the social networking system; determine that a user operating the computing device has selected the first option for sending an ephemeral message; and cause the ephemeral message to be sent through the social networking system.
US11743221B2
A technique for electronic message user interfaces. In particular, the technique displays, on a display, an electronic message user interface and receives user input from a touch-sensitive surface, a rotatable input mechanism, and/or peripherals such as a microphone to access, compose, and manipulate electronic messages.
US11743205B2
A method for communicating in real-time to users of a provider of Internet access service, without requiring any installation or set-up by the user, that utilizes the unique identification information automatically provided by the user during communications for identifying the user to provide a fixed identifier which is then communicated to a redirecting device. Messages may then be selectively transmitted to the user. The system is normally transparent to the user, with no modification of its content along the path. Content then may be modified or replaced along the path to the user. For the purposes of establishing a reliable delivery of bulletin messages from providers to their users, the system forces the delivery of specially-composed World Wide Web browser pages to the user, although it is not limited to that type of data.
US11743197B2
A network and method for connecting devices on a Local Area Network (“LAN”) to the Internet via a Network Address Translation (“NAT”) enabled gateway and server. The gateway includes an Internet address for enabling the gateway to be addressed by the server and the LAN. A plurality of ports on the gateway enables the gateway to receive and transmit data to and from the server and the LAN. A processor divides the ports on the gateway into at least a first range and a second range of port numbers. Classified traffic identified as suitable for a higher level of QoS is assigned to the first range of port numbers, and classified traffic identified as suitable for a lower level of QoS is assigned to the second range. The gateway provides devices on the LAN with a level of QoS depending upon the port numbers to which they are assigned.
US11743191B1
Some embodiments provide a method of forwarding data messages between source and destination host computers that execute source and destination machines. At a source computer on which a source machine for a data message flow executes, the method in some embodiments identifies a source tunnel endpoint group (TEPG) associated with the source machine. For the flow, the method selects one TEP of the TEPG as the source TEP. The method then uses the selected source TEP to forward the flow to the destination computer on which the destination machine executes.
US11743183B2
A network interface of a first computing device is configured to operate according to a bridge table. The bridge table defines a spanning tree protocol for a mesh network and identifies one or more reachable nodes. A communication characteristic between the first computing device and a second computing device of the one or more reachable nodes is determined to exceed a quality threshold. Based on the determination that the communication characteristic exceeds the quality threshold, the spanning tree protocol is overridden and the data is transmitted directly to the second computing device via a direct communication route.
US11743169B2
Systems and methods include, responsive to defining a routing graph that includes vertices for each node of a plurality of nodes in a network and edges for links interconnecting the plurality of nodes, receiving a request for k shortest paths, where k is an integer>0, between a source node and a destination node of the plurality of nodes; and determining the k shortest paths utilizing a k-shortest path algorithm that utilizes two threads in parallel for each shortest path query, wherein the two threads include i) a shortest path query from the source node to the destination node and ii) a shortest path query from the destination node to the source node. The determining further includes, responsive to a first thread in each shortest path query obtaining a result, utilizing the result from the first thread and terminating a second thread.
US11743164B2
To reproduce and measure a network load that occurs suddenly. A quality measurement device 1 includes a load analysis unit 21 which analyzes a load of a measurement target network 2, a reference load acquisition unit 22 which acquires reference load data 14 including a load of a reference network 3, a test condition determination unit 23 which determines, based on a load at a reference point of the reference network 3, a load to be added to a measurement point of the measurement target network 2 corresponding to the reference point, and a test traffic generation unit 24 which gives traffic corresponding to the load that is determined to the measurement point.
US11743162B1
A system, method, and computer program product are provided for offering experience-based subscriptions to services. In use, a service package is created for a network service provider, the service package relating to a service experience specific at least to a subset of content accessible over a communication network via the network service provider. Additionally, a user subscription to the service package is received. Further, access to the subset of the content is provided based on the user subscription.
US11743155B2
Systems, methods, and computer readable media for monitoring distributed computing events are disclosed. The method includes defining parameters for a plurality of monitored assets, receiving status data for each monitored asset during the event, determining if each monitored asset's status is within the defined parameters during the event, providing an indication to a user if a monitored asset's status is outside the defined parameters, receiving instructions from the user for each monitored asset outside of the defined parameters, transmitting the instructions to the monitored asset outside of the defined parameters, executing the instructions on the monitored asset outside of the defined parameters, and providing an assessment of the event after the event concludes.
US11743146B2
Systems and methods of disconnecting a network service provided over a network service path include using a computing device that obtains a service identifier assigned to network service and identifies a port of a network device included in a network service path associated with the service. The computing device transmits a request to the network device for port configuration data of the network device and based on the received port configuration data, determines whether the port is assigned to the network service. If so, the computing devices executes a remediation operation which includes transmitting a reconfiguration command to the network device that is adapted to cause the network device to update the port configuration data to free the port.
US11743144B2
An order is received indicating a network service model. A context of the order is identified. A deployment plan is generated using the network service model, the deployment plan facilitating an instantiation of a contextually-motivated network service instance as a set of normalized lifecycle management (LCM) operations performed against each of a plurality of associated service entities. The deployment plan is deployed, the deploying including binding each of the normalized LCM operations, based on the context of the order, to one or more respective micro-capabilities, each of the respective micro-capabilities having previously been onboarded to the system as one or more corresponding modeled objects capable of being declaratively composed, each of the corresponding modeled objects including a mapping of object properties, object behaviors, and standard LCM operations to one or more existing micro-capabilities of the system. The deploying also including managing execution of the one or more respective micro-capabilities and associated resources, associated storage, and associated network and service allocation and configuration, to instantiate the contextually-motivated network service instance.
US11743133B2
A method includes generating a plurality of vectors representing words in a plurality of documents about an information technology (IT) system and clustering the plurality of vectors to produce a plurality of clusters. The method also includes identifying a cluster of the plurality of clusters that contains a plurality of clustered vectors, generating a feature based on a plurality of words represented by the plurality of clustered vectors, and training a machine learning model to identify an anomaly in the IT system based on the feature.
US11743130B2
Managing network interactions by engaging a networked information broadcast service, receiving information from the networked information broadcast service, filtering the information according to a profile, and sending information according to the filtered information using another network communications connection.
US11743128B2
Aspects described herein relate to determining a multicast broadcast (MB) bandwidth size for receiving an MB service, the MB bandwidth being different than each bandwidth size in the set of multiple configurable bandwidth sizes for receiving unicast services.
US11743116B2
An example apparatus includes memory and a processor to execute instructions to set a scaling status of a first virtual machine included in an application deployed in a computing environment, the first virtual machine to execute a first component of the application, means for identifying an information dependency of a second virtual machine on information from the first virtual machine, the second virtual machine to execute a second component of the application, and update the information dependency based on the scaling status of the first virtual machine, the information dependency in the configuration information to include a reference to the first virtual machine.
US11743111B2
Method and network device for providing redundancy in an industrial network includes a first port group connected to a first network segment of the industrial network, and includes a switch module that has a plurality of southbound ports, wherein at least one southbound port is connected to a corresponding end device, where each port group has a pair of redundant northbound ports connected to a link redundancy entity having two or more interlinked ports connectable to one or more south-bound ports of switch module based on network topology for enabling redundant links between end devices connected to the southbound ports and the first network segment.
US11743106B2
An information handling system includes a network interface device configured to provide indications of faults on the network interface device, a baseboard management controller agent configured to receive the indications, and a baseboard management controller coupled to a management system. The management system mitigates the faults on the network interface device. The network interface device further detects a fault on the network interface device and provides an indication to the baseboard management controller agent in response to detecting the fault. The baseboard management controller agent further receives the indication from the network interface device, receives an identification of the management system from the baseboard management controller, and provides a second indication to the management system based upon the identification.
US11743096B2
A reception device includes: a receiver that receives a multiplexed signal; a first demapper that demaps the multiplexed signal, with a second modulated symbol stream being included in the multiplexed signal as an undetermined signal component, to generate a first bit likelihood stream; a second demapper that demaps the multiplexed signal, with a first modulated symbol stream being included in the multiplexed signal as an undetermined signal component, to generate a second bit likelihood stream; a first decoder that performs error control decoding on the first bit likelihood stream; and a second decoder that performs error control decoding on the second bit likelihood stream. The multiplexed signal is a signal on which the first modulated symbol stream and the second modulated symbol stream are superposed, the second modulated symbol stream being subjected to conversion in accordance with the first modulated symbol stream in only a first direction.
US11743087B2
A transmitter device, a receiver device and a transceiver device for a multicarrier modulation scheme. The transmitter device is configured to obtain a plurality of signature roots based on receiving a feedback message from a receiver device, construct a Lagrange matrix or a Vandermonde matrix from the plurality of signature roots, and generate a multicarrier modulated signal based on the Lagrange matrix or the Vandermonde matrix. The receiver device is configured to determine a plurality of signature roots, construct a Lagrange matrix or a Vandermonde matrix from the plurality of signature roots, and perform a demodulation of a multicarrier modulated signal based on the Lagrange matrix or the Vandermonde matrix. The transceiver device comprises a transmitter device configured to generate a multicarrier modulated signal, and a receiver device configured to perform a demodulation of the multicarrier modulated signal.
US11743081B2
Methods and apparatus are described in which IF content is generated at an RF receiver without off-chip MEMS, a local oscillator, or a phase-locked loop, and using a transmitter that transmits a single RF tone.
US11743070B2
A method, system, computer readable storage medium, or apparatus provides for obtaining first information of a user (e.g., a user profile), wherein the user may be associated with a mobile device; based on the first information of the user, determining whether to communicate with the user via local area communication or wide area communication (e.g., a communication context) during a first period; determining to communicate via wide area communication during the first period; based on the determining to communicate via the wide area communication during the first period, sending an alert to invite the user associated with the mobile device to communicate with a remote domain (e.g., a remote physical location, such as a home, business, park, etc.); and based on acceptance of the invite, assigning a token for the user associated with the mobile device to further communicate with the remote domain.
US11743068B2
A technology is described for a device shadowing service that manages device states. An example method may include receiving a state change message associated with a device that a subcomponent of the device has assumed a first state. In response to the state change message, a subcomponent representation associated with a device representation may be updated to indicate the first state received, where the device representation represents the device and the subcomponent representation represent the subcomponent of the device. Thereafter, a request may be received for the first state of the subcomponent of the device. The first state indicated by the subcomponent representation associated with the device representation may be determined, and the first state may be returned in response to the request.
US11743063B2
A session management function (SMF) comprises one or more processors and memory storing instructions. When executed by the one or more processors, the instructions cause the SMF to send, to a policy control function (PCF), a policy request message. The policy request message comprises a non-public network (NPN) identifier of an NPN through which a wireless device accesses a public land mobile network (PLMN) and a PLMN identifier of the PLMN. When executed by the one or more processors, the instructions cause the SMF to receive, from the PCF, a policy response message comprising a charging control policy.
US11743050B2
A computer system (100) for distributed shared execution of one or more shared processes, comprising: first program code for the one or more shared processes that comprises one or more shared code segments (142, 144, 146) shared between a first authorizing node (102) and a second authorizing node (104), wherein the one or more shared code segments (142, 144, 146) are executable by one or more executing nodes (102, 104, 106); a distributed ledger (152, 154, 156) that provides a record of valid code segments of the program code; and second program code comprising instructions that, when executed by the first and/or second authorizing nodes, validates that an anticipated execution result of the one or more shared code segments (142, 144, 146) satisfies shared authorization conditions and, if satisfied, authorizes the execution of the one or more shared code segments by the one or more executing nodes.
US11743041B2
In an example system for private key recovery performed by a processor of a key recovery computing system, a key recovery computing system is configured to provide an original private key. The original private key is associated with a storage location of a blockchain-based asset. The key recovery computing system is configured to receive supplemental recovery information provided by a user via a user computing device. A recovery seed is derived from at least a subset of the supplemental recovery information, wherein the recovery seed is non-invertible. The original private key and the recovery seed are stored relationally to the supplemental recovery information. In some embodiments, the processor is further configured to cryptographically protect at least one of the original private key and the recovery seed via a universal second-factor authentication (U2F) device.
US11743039B2
A computerized system and method for symmetric encryption and decryption using two machines, the method including obtaining a message and an initialization vector on a first machine, sending the initialization vector to a second machine, where said second machine stores an encryption key for a Key Derivation Function (KDF), generating a derived key on the second machine by applying the KDF receiving as input both the encryption key and the initialization vector, sending the derived key from the second machine to the first machine, and encrypting the message using the derived key on the first machine.
US11743033B2
A system for a vehicle includes a computer, a first electronic control module, and a wired vehicle communications network coupling the computer and the first electronic control module. The computer is programmed to transmit authentication keys to the first electronic control module and a plurality of second electronic control modules via the wired vehicle communications network, encrypt a table of the authentication keys using a first key, store the encrypted table, transmit the encrypted table to the first electronic control module via the wired vehicle communications network, and transmit the encrypted table and the first key to a remote server spaced from the wired vehicle communications network.
US11743029B1
A method for registering and provisioning an electronic device is provided. The method includes a step of inserting a first keypair into a secure element of the electronic device. The first keypair includes a public key and a private key. The method further includes a step of requesting, from a server configured to register and provision connected devices, a provisioning of credentials of the electronic device. The method further includes a step of verifying, by the server, the electronic device credentials. The method further includes a step of registering, by the server, the electronic device. The method further includes a step of transmitting, from the server to the electronic device, a device certificate. The method further includes steps of installing the transmitted device certificate within the secure element of the electronic device, and provisioning the electronic device according to the installed device certificate.
US11743020B2
Methods, apparatus and systems for enabling interference avoidance, for example from self and neighboring interference are disclosed. In one representative method implemented in a Wireless Transmit/Receive Unit (WTRU) using time-frequency (TF) resources in first and second directions, the method includes comprising TF resource muting or symbol muting, by the WTRU, one or more TF resources for communication in the first direction based on information associated with a communication in the second direction or subframe shortening, by the WTRU, by one or more TF resources for communication in the first direction based on information associated with a communication in the second direction.
US11743019B2
Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a base station may determine, for full-duplex mode communication on a first link and a second link, a timing adjustment to at least one of a first timing or a second timing, wherein the timing adjustment is to cause a delay between clutter reflection from a first signal and an occurrence of a second signal to occur during a cyclic prefix of the second signal; cause the timing adjustment to be applied to the at least one of the first timing or the second timing; and communicate in the full-duplex mode with a first node and a second node in accordance with the timing adjustment, wherein communicating includes transmitting the first signal to the first node and receiving the second signal from the second node. Numerous other aspects are provided.
US11743013B2
The present disclosure discloses a method and a device in a User Equipment (UE) and a base station used for wireless communication. In one embodiment, the UE monitors a first-type signaling and a second-type signaling in first time-frequency sub-resources and second time-frequency sub-resources respectively; and transmits a first information group; wherein a first signaling is received in first time-frequency sub-resources, and the first signaling is a first-type signaling; a transmitter of the first-type signaling and a transmitter of the second-type signaling are a same serving cell; the first information group is used for indicating whether scheduling of the first signaling is correctly received; the first signaling comprises a first field. The present disclosure can support the dynamic scheduling from multiple TRPs with non-ideal backhaul to a UE, so as to improve transmission efficiency.
US11743005B2
A method and apparatus for indication of resource ports in a communication system, the method including: receiving at least one measurement resource from a second wireless communication node in a communication system; determining at least one overlapping resource between the at least one measurement resource and a first plurality of resource sets; and determining at least one muting resource set in the first plurality of resource sets, wherein the at least one muting resource set comprises the at least one overlapping resource.
US11743003B2
In one example aspect, a method of transmitting packets wirelessly is provided. The method comprises, for each packet, requesting to transmit the packet, waiting for a respective random or pseudorandom time period before transmitting the packet, and transmitting the packet containing a respective data portion, wherein a position of the respective data portion in the packet is selected such that a time interval between transmission of respective data portions in adjacent packets is a constant time interval.
US11743000B2
Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a transmitter may broadcast a first set of network coding encoded packets for reception by a plurality of receivers, and receive feedback information associated with the first set of network coding encoded packets, the feedback information indicating that one or more receivers of the plurality of receivers did not successfully receive a quantity of network coding encoded packets that satisfies a decoding threshold associated with recovering the plurality of source packets, and a first subset of network coding encoded packets of the first set of network coding encoded packets that were not successfully received by at least one receiver. The transmitter may broadcast a second set of network coding encoded packets. The second set of network coding encoded packets may include at least the first subset of network coding encoded packets. Numerous other aspects are provided.
US11742995B2
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) are provided. The system and method provides for receiving, from a base station, downlink control information (DCI) including information on a hybrid automatic repeat request (HARQ) process number, identifying at least one grant free resource corresponding to the information on the HARQ process number, and releasing the at least one grant free resource based on the information. The disclosure discloses a grant-free based data transmission method in a wireless communication system that 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.
US11742994B2
A UE may identify slots to transmit and/or receive information related to one or more HARQ processes in frame structure that includes both sub-band full duplex slot types and time division duplex slot types. Based on a first slot used for control information, a UE can identify a second slot for PUSCH or PDSCH communication based on an offset between the first slot and the second determined by calculating slot offsets (e.g., based on parameters received from a base station). In some aspects, a UE may exclude certain slot duplex types (e.g., SBFD or TDD) when calculating slot offsets. In some aspects, a UE may calculate slot offsets differently for different HARQ processes corresponding to one frame. In some aspects, slot offset behaviors may be based on priority of information associated with a HARQ process.
US11742980B2
This disclosure provides systems, methods and apparatus, including computer programs encoded on computer storage media, for signaling mechanisms associated with transmission puncturing schemes for rateless coding. In some aspects, a transmitting device may encode a message using a rateless code associated with a cumulative encoding of various portions of the message and may perform transmission puncturing to adapt a bit rate of related signal transmissions. The transmitting device may signal an indication of the transmission puncturing scheme, and potentially one or more modifications to the transmission puncturing scheme, to a receiving device via control signaling. The transmitting device may modify the transmission puncturing scheme in accordance with prioritizing retransmissions for some cumulative portions of the message ahead of other cumulative portions, such as by granting prioritized cumulative portions of the message relatively earlier transmission occasions in the transmission puncturing scheme.
US11742969B2
A disclosure of the present specification provides a method for measuring an interference from a neighboring device. The method may performed by a device and comprise: measuring, by the device, an interference based on a reference signal from a neighboring device, which is served by a neighboring cell; and transmitting, by the device, a measurement report to a serving cell, the measurement report including a measured value of the interference. One or more steps of measuring the interference and transmitting the measurement report may be performed based on configuration information. The configuration information includes one or more of start information, end information, a timer or a threshold.
US11742967B2
Various techniques include detecting noise in a network, identifying the type of noise in the network, localizing noise in the network, determining noise scores for network devices, and/or determining likelihoods that particular devices are causing noise and/or are in proximity of a point of entry of noise into the network.
US11742959B2
Disclosed is a system for reducing or eliminating interference during communication. Disclosed is a system to position an implantable medical device at an orientation or position to reduce or eliminate interference. Therefore, a communication may be maintained with the IMD over a selected period of time.
US11742952B2
Provided is a burst mode optical transmitter capable of preventing an optical signal from being output from a light source during burst mode disable time through an arithmetic circuit configured to remove an idle signal included in a MAC electrical signal by using a MAC electrical signal and a burst mode control signal.
US11742946B1
Processing signals is disclosed. A method includes receiving a signal transmission with a nb/mb encoding scheme that maps n-bit words to m-bit symbols. In this scheme, m>n. The method further includes, for a first payload data word in the transmission, determining that the first payload data word corresponds to a valid payload data word, and as a result, assigning a first reliability metric to bits in the first payload data word. The method further includes for a second payload data word in the transmission, determining that the second payload data word does not correspond to a valid payload data word, and as a result, assigning a second reliability metric to bits in the second payload data word. The method further includes performing signal decoding using the assigned reliability metrics.
US11742945B2
An extinction ratio testing system (10) includes a microcontroller (102), an extinction ratio tester (104), and a thermostat (106). The microcontroller (102) controls the thermostat (106) to maintain an optical transceiver module (20) at a predetermined high temperature, and then the microcontroller (102) controls the extinction ratio tester (104) to test an extinction ratio of the optical transceiver module (20). If the extinction ratio is lower than a standard extinction ratio, the microcontroller (102) controls the optical transceiver module (20) to increase a laser operating current (212) of the optical transceiver module (20) to increase the extinction ratio.
US11742942B2
An Optical Time Domain Reflectometer (OTDR) module obtains Optical Return Loss (ORL) of a fiber plant. Calibration information is obtained of at least internal OTDR reflections associated with the OTDR module. The OTDR module is connected to the fiber plant. An ORL response is measured due to reflections of an ORL signal transmitted from the OTDR module along the fiber plant, and a peak OTDR response is measured in response to reflections of an OTDR signal transmitted from the OTDR module along the fiber plant. A corrected ORL response of the fiber plant is determined by: using the measured peak OTDR response (e.g., peak value or area under the peak) and the calibration information to calculate the calculated ORL due to internal reflections, and then adjusting the measured ORL response by the calculated ORL to represent the corrected ORL of the fiber plant.
US11742936B2
An information processing device calculates a communication available period for communication between a satellite station and an earth station on the basis of orbit information regarding the satellite station and location information regarding the earth station, and performs reservation processing for reserving a communication reservation period for the communication between the satellite station and the earth station, among reservation target periods selected from the communication available period.
US11742929B2
A user equipment includes a transmission unit that transmits, to a base station, information indicating a specific band combination supported by the user equipment for carrier aggregation and combinations of maximum numbers of Multiple-input and multiple-output (MIMO) layers to be applied to respective component carriers of frequency bands included in the specific band combination, the combinations of the maximum numbers of MIMO layers being supported by the user equipment; and a control unit that applies a default value as the maximum numbers of MIMO layers to be applied, by the user equipment, to the respective component carriers of the frequency bands included in the specific band combination, when a signal indicating the maximum numbers of MIMO layers to be applied, by the base station, to the respective component carriers of the frequency bands included in the specific band combination is not received from the base station.
US11742927B2
Aspects described herein relate to communicating a configuration indicating resources for measuring new candidate beam pairs for full-duplex operation to facilitate measuring one or more new candidate beam pairs over the resources to determine measurement results for the one or more new candidate beam pairs, and reporting, based on a measurement result for at least one new candidate beam pair of the one or more new candidate beam pairs, the measurement result or an indication of the at least one new candidate beam pair.
US11742924B2
Described is an apparatus of an Evolved Node-B (eNB). The apparatus comprises a first circuitry, a second circuitry, and a third circuitry. The first circuitry is operable to associate a first Beam Reference Signal (BRS) for a first Transmit (Tx) beam having a first beamwidth with one or more second BRSes for one or more respectively corresponding second Tx beams having a second beamwidth. The second circuitry is operable to generate a first BRS transmission carrying the first BRS, and to generate one or more second BRS transmissions carrying the one or more respectively corresponding second BRSes. The third circuitry is operable to provide information regarding the first BRS and the second BRSes to the second circuitry.
US11742920B2
This disclosure provides systems, methods, and apparatuses for determining whether a channel state information reference signal (CSI-RS) is to be transmitted, and a configuration for transmission of the CSI-RS on a wideband based on an outcome of a listen-before-talk (LBT) operation in multiple sub-bands of the wideband. In one aspect, a base station may transmit sub-band usage information indicating sub-band availability before the CSI-RS, thereby allowing a user equipment (UE) to determine whether the CSI-RS will be transmitted and, if so, on which sub-bands the CSI-RS will be transmitted. Furthermore, rate matching configurations are provided based on whether sub-band usage has been received, based on which sub-bands are available. Still further, power configurations and resource element selection criteria are provided for wideband CSI-RS and CSI feedback.
US11742919B2
The present disclosure provides a method for reporting CSI in a wireless communication system. In the present disclosure, a method for reporting channel state information (CSI) in a wireless communication system, which is performed by a UE includes: receiving, from an eNB, downlink control information (DCI) indicating activation of semi-persistent (SP) CSI reporting, in which the downlink control information is scrambled with a specific RNTI distinguished from a Cell-Radio Network Temporary Identity (C-RNTI); and reporting, to the eNB, the semi-persistent CSI through a physical uplink shared channel (PUSCH) based on the received downlink control information.
US11742914B2
This application provides a communication method based on orbital angular momentum (OAM) and a related apparatus. The method includes: determining OAM modes for at least two subframes of a radio frame, where at least one symbol is mapped to each subframe in the at least two subframes; and sending the at least two subframes, where there is an association relationship between the OAM modes corresponding to the subframes in the at least two subframes. Embodiments of this application are implemented to enhance an electromagnetic field, reduce signal fading, and improve a diversity effect.
US11742911B2
Aspects of this disclosure relate to a pair of wireless communication devices wirelessly communicating with a network system in a coordinated manner. The wireless communication devices of the pair can be in communication with each other via a wireless peer-to-peer link. A primary wireless communication device can communicate a first part of a multiple-input multiple-output (MIMO) transmission via cellular communications and a second part of the MIMO transmission via the peer-to-peer link. This can enable the primary wireless communication device to communicate with the network system at a higher data rate and/or at a higher MIMO rank.
US11742910B2
Multi-user uplink and downlink beam alignment method for asymmetric millimeter wave large-scale MIMO
A multi-user uplink and downlink beam alignment method for asymmetric millimeter wave large-scale MIMO includes constructing an all-digital multi-directional beam for multiple-direction probing; performing multiple rounds of downlink beam training from the base station to the UE; controlling the UE to perform a beam decision according to the receiving signals, and determining a target downlink sending-receiving beam pair; performing data processing on the receiving signals to generate training data for predicting an uplink sending narrow beam, and performing training on a preset neural network; performing online real-time signal detection based on the trained network parameters and the receiving signals to predict a target uplink sending narrow beam; and controlling the UE to feedback an index of a target downlink sending narrow beam to the base station, and widening the target downlink sending narrow beam into a target uplink receiving beam according to the feedback index.
US11742908B2
Methods, systems, and devices for wireless communications are described. Generally, the described techniques provide for efficiently transmitting uplink signals to a base station using shared antennas. A first device may be in communications with a base station using local antennas and may identify a second device having auxiliary antennas available for transmitting uplink signals to the base station. Because the local antennas and auxiliary antennas may have different capabilities (e.g., due to different power or other constraints), the first device may generate first uplink signals for transmission using the local antennas differently from second uplink signals for transmission using the auxiliary antennas. The first device may transmit the first uplink signals to the base station using the local antennas and transmit the second uplink signals to the second device for transmission to the base station using the auxiliary antennas based on different configurations.
US11742902B2
A communications network system is disclosed. The system may include a central processing unit (CPU) in data communication with a first access point (AP) configured to enable a data communication between the CPU and a first user equipment (UE). The CPU may include a processor configured to select a first group of APs including the first AP, establish a first data communications link over a first frequency band between the CPU and the first AP, cause the first AP to establish a second data communications link over a second frequency band between the first AP and the first UE, and transmit a portion of data to the first AP over the first data communications link. The first data communications link may be a wireless data communications link. The first frequency band may include higher frequency levels than those of the second frequency band.
US11742894B2
Various embodiments are generally directed to techniques communicate in a cellular communication frequency range, detect a resonant signal in response to the communication in the cellular communication frequency range for cellular communication, the resonant signal to indicate presence of a contactless card. Embodiments also include enabling a near-field communication device to send a communication to the contactless card based on the detection of the resonant signal, the near-field communication device to communicate with the contactless card in a near-field communication frequency range.
US11742891B1
RF-absorber assemblies for assisting PIM hunting at cellular base station antennas. An RF-absorber panel section includes a non-absorbing spacer layer adjacent to an antenna under evaluation. An RF-absorbing layer is positioned adjacent to the non-absorbing spacer layer. A low-PIM RF-shield layer is positioned adjacent to the RF-absorbing layer, so that the RF-absorbing layer is positioned between the RF-shield layer and the non-absorbing spacer layer. RF-absorber panel assembly kits include RF-absorber panel sections that removably attach to each other and to an assembly cover, which removably attaches over a panel antenna. A cylindrical assembly for a multi-directional antennas includes tapered RF-absorber sections within a cylindrical RF-absorber. An iris allows directional PIM hunting with the cylindrical RF-absorber. A PIM hunting procedure utilizes a full-perimeter RF panel assembly for directional PIM hunting. A directional RF-absorber panel assembly includes front and rear RF-absorber panel assemblies and lateral RF-shield blankets.
US11742882B2
An electronic device is provided and includes an antenna; a first duplexer including a first band pass filter (BPF), a second BPF, a first port, a second port, and a third port; a filter; a power amplification circuit including an input port and an output port; a processor; a radio frequency (RF) integrated circuit (RFIC) including an input port and an output port; a first switch including a first terminal and a second terminal; a second switch including a first terminal and a second terminal; and a third switch including a first terminal, wherein the processor is configured to connect the antenna to the first terminal of the first switch, the output port of the power amplification circuit to the first terminal of the second switch, and a second port of the filter to the first terminal of the third switch by controlling the first switch, the second switch, and the third switch, and output a baseband signal to the RFIC in a state in which the antenna is connected to the first terminal of the first switch, the output port of the power amplification circuit is connected to the first terminal of the second switch, and the second port of the filter is connected to the first terminal of the third switch.
US11742881B2
A transmitter apparatus and method are disclosed. An RF terminal provides an RF signal. A first antenna transmits a first portion of the RF signal and a second antenna transmits a second portion of the RF signal. Directional couplers generate a first monitoring signal and a second monitoring signal. A power comparison operational amplifier receives the first monitoring signal and the second monitoring signal and generates a power difference signal. A phase control operational amplifier receives the power difference signal and a reference input signal and generates a phase control signal. A phase shifter receives the phase control signal, and based on the phase control signal, phase-shifts the RF signal to direct the RF signal to the first antenna, or phase-shifts the RF signal to direct the RF signal to the second antenna.
US11742878B2
Embodiments of the present application provide an occupancy information prediction method, an encoder, a decoder, and a storage medium. The occupancy information prediction method comprises: when an encoder encodes geometrical information on the basis of an octree, determining encoding information corresponding to a neighboring node of a node to be predicted, and a distance parameter between a child node of the node to be predicted and the neighboring nodes; wherein the encoding information corresponding to the neighboring node comprises occupancy information; determining an occupancy weight corresponding to the child node of the node to be predicted according to the distance parameter, and the encoding information corresponding to the neighboring node; performing a prediction processing on the child node according to the occupancy weight and a preset occupancy threshold set to obtain a node type corresponding to the child node.
US11742877B2
Examples of the disclosure describe systems and methods for implementing a file compression system. In an example method, a source string to be compressed is received. The source string comprises a plurality of characters. A first frequency is determined for each character of the plurality of characters of the source string. A first tree corresponding to the source string is determined based on the first frequencies. The source string is encoded using the first tree to generate a first encoded string. It is determined whether a total number of bits in the first encoded string is a multiple of eight. In accordance with a determination that the total number of bits in the first encoded string is not a multiple of eight, the first encoded string is appended with zeroes so that a new total number of bits in the first encoded string is a multiple of eight. In accordance with a determination that the total number of bits in the first encoded string is a multiple of eight, the method forgoes appending the first encoded string with zeroes. The first encoded string is divided into one or more eight-bit segments and a placeholder character is assigned to each eight-bit segment. A second frequency for each of the placeholder characters in the first encoded string is determined. A second tree corresponding to the first encoded string is determined based on the second frequencies. The first encoded string is encoded using the second tree to generate a second encoded string.
US11742871B2
Disclosed is a low power modulator with a VCO quantizer. The low power modulator with the VCO quantizer may include an integrator converting an input current to a voltage, a quantizer converting the converted voltage to digital information, a filter unit filtering the converted digital information, a DAC converting the filtered digital information into a feedback current, and a controller calculating the digital information output based on a difference value between the input current and the feedback current for each sampling time.
US11742866B2
The present disclosure relates to a method for up-converting a clock signal, a clock circuit and a digital processing device. More specifically, provided is a method for up-converting a clock signal, comprising: employing a first clock sub-circuit to provide a clock signal having a first frequency to a chip; receiving an instruction to up-convert the clock signal having the first frequency to a clock signal having a second frequency; in response to receiving the instruction, causing a second clock sub-circuit to output the clock signal having the second frequency; and after the second clock sub-circuit outputs the clock signal having the second frequency, employing the second clock sub-circuit to provide the clock signal having the second frequency to the chip in place of the first clock sub-circuit.
US11742865B2
An integrated circuit device includes a digitally controlled oscillator (DCO), two charge-sharing capacitors, two charge-sharing switches, two pre-charge switches, and two DACs. The DCO has a first inverter and a second inverter. A first charge-sharing capacitor has a first terminal coupled to an input terminal of the first inverter through a first charge-sharing switch. A first DAC has an output terminal coupled to the first terminal of the first charge-sharing capacitor through a first pre-charge switch. A second charge-sharing capacitor has a first terminal coupled to an input terminal or an output terminal of the second inverter through a second charge-sharing switch. A second DAC has an output terminal coupled to the first terminal of the second charge-sharing capacitor through a second pre-charge switch.
US11742864B2
Techniques are described herein that are capable of adjusting a center frequency of an adaptive voltage controlled oscillator (VCO) that is included in an adaptive phase lock loop (PLL) and/or a phase difference target of the adaptive PLL. An adaptive PLL is a PLL that includes an adaptive VCO. An adaptive VCO is a VCO that is capable of adjusting its center frequency and/or a phase difference target of the adaptive PLL that includes the adaptive VCO. The adaptive PLL may be configured to drive (e.g., control) a device. A drive signal that is used to drive the device and a resulting output signal that is proportional to movement of the device may be fed back to respective inputs of the adaptive PLL so that the phases of those signals may be processed to facilitate adjustment of the center frequency and/or the phase difference target.
US11742860B2
A new class of logic gates are presented that use non-linear polar material. The logic gates include multi-input majority gates. Input signals in the form of digital signals are driven to non-linear input capacitors on their respective first terminals. The second terminals of the non-linear input capacitors are coupled a summing node which provides a majority function of the inputs. The majority node is then coupled driver circuitry which can be any suitable logic gate such as a buffer, inverter, NAND gate, NOR gate, etc. In the multi-input majority or minority gates, the non-linear charge response from the non-linear input capacitors results in output voltages close to or at rail-to-rail voltage levels. Bringing the majority output close to rail-to-rail voltage eliminates the high leakage problem faced from majority gates formed using linear input capacitors.
US11742855B2
Local on-die termination controllers for effecting termination of a high-speed signaling links simultaneously engage on-die termination structures within multiple integrated-circuit memory devices disposed on the same memory module, and/or within the same integrated-circuit package, and coupled to the high-speed signaling link. A termination control bus is coupled to memory devices on a module, and provides for peer-to-peer communication of termination control signals.
US11742841B2
A circuit includes a first delay filter, a first comparator, an inverter, a second delay filter, a second comparator, an OR gate, and a latch. A first delay filter input is coupled to an inverter input. The first comparator has a first comparator input coupled to a first delay filter output and a second comparator input. The second delay filter has an input coupled to an inverter output. The second comparator has a third comparator input coupled to a second delay filter output, and a fourth comparator input coupled to the second comparator input. The OR gate has an input coupled to a first comparator output and another input coupled to a second comparator output. The latch has a clock input coupled to an OR gate output and a latch input coupled to the inverter input. A latch output provides a deglitched signal.
US11742835B2
A semiconductor integrated circuit of an embodiment includes: a delay element array circuit in which a plurality of delay elements having a delay amount Tw are connected in series; a flip-flop group including a plurality of flip-flops each of which an input is connected to an output of a corresponding delay element; a delay element group configured to generate, from an input clock signal, a plurality of output clock signals each having a delay difference of a second delay amount smaller than the delay amount Tw; and a delay unit configured to set a third delay amount smaller than the second delay amount, and the delay element group and the delay unit are connected in series between an output terminal of an input signal CLK_DET and an input terminal of the flip-flop group.
US11742833B1
High power impedance tuners suffer from intense heating of the center conductor of the tuner airline (slabline), due to dissipated RF and DC power and, in addition to high electric field between the metallic tuning probe (slug) and the center conductor, also from associated thermal expansion causing sagging of the center conductor and possible electrical short. If the thermal expansion cannot be accommodated by structural means, the center conductor is cooled using forced air created by ventilators or re-circulating low loss dielectric liquid flowing through the slabline. Premature tuner aging through continuous airflow or cooling liquid circulation is avoided using real time monitoring of dissipated (heating) power and regulation of the cooling mechanism.
US11742831B2
According to one embodiment, a coupler includes first to fourth capacitors, first and second inductors, and a first Josephson junction. The first capacitor includes a first capacitor end portion and a first capacitor other-end portion. The first inductor includes a first inductor end portion, and a first inductor other-end portion. The second inductor includes a second inductor end portion, and a second inductor other-end portion. The first Josephson junction includes a first Josephson junction end portion, and a first Josephson junction other-end portion. A space is surrounded with the first inductor, the second inductor, and the first Josephson junction. The third capacitor includes a third capacitor end portion, and a third capacitor other-end portion. The fourth capacitor includes a fourth capacitor end portion, and a fourth capacitor other-end portion.
US11742829B2
Aspects of this disclosure relate to a multiplexer that includes at least a first filter having a first passband and a second filter having a second passband. The first filter includes acoustic wave resonators coupled to a common node by a series inductor. The acoustic wave resonators start with a shunt acoustic resonator from the common node. The series inductor and the shunt acoustic resonator of the first filter are together arranged to increase a reflection coefficient of the first filter in the second passband.
US11742823B2
A BAW resonator (BAWR) with improved power durability and improved heat resistance is provided. The resonator comprises a layer stack with a piezoelectric material (PM) between a bottom electrode (ELI) and a top electrode (EL2) and a shunt path parallel (PCPP) to the layer stack provided to enable an RF signal to bypass the layer stack, e.g. to ground (GND). The shunt path (PCPP) has a temperature dependent conductance with a negative temperature coefficient, NTC, of resistance. When the temperature of the device rises due to high power operation, currents that would otherwise permanently damage the device are shunted to ground or another dedicated terminal by the temperature dependent shunt path. Upon cooling down normal operation is resumed.
US11742818B2
A wide-bandwidth resonant circuit is provided. In an embodiment disclosed herein, the wide-bandwidth resonant circuit includes a positive resonant circuit coupled in parallel to a negative resonant circuit. The positive resonant circuit and the negative resonant circuit can be configured to collectively exhibit certain impedance characteristics across a wide bandwidth. As a result, it is possible to utilize the wide-bandwidth resonant circuit to support a variety of wide-bandwidth applications, such as in a wide-bandwidth signal filter circuit.
US11742815B2
An example method of operation may include applying a set of initial power and gain parameters for a speaker, playing a stimulus signal via the speaker, determining a sound level at a microphone location and a sound level at a predefined distance from the speakers, determining a gain at the microphone location based on a difference of the sound level at the microphone location and the sound level at the predefined distance from the speaker, and applying the gain to the speaker output.
US11742812B2
A circuit includes a first transconductance stage having an output. The circuit further includes an output transconductance stage, and a first source-degenerated transistor having a first control input and first and second current terminals. The first control input is coupled to the output of the first transconductance stage. The circuit also includes a second transistor having a second control input and third and fourth current terminals. The third current terminal is coupled to the second current terminal and to the output transconductance stage.
US11742805B2
The present disclosure provides a multiple output low noise amplifier circuit, chip and electronic device. The multiple output low noise amplifier circuit includes: a first processing module for amplifying an input voltage signal and converting it into at least two first current signals; a second processing module for impedance matching at the input terminal of the low noise amplifier circuit, and for amplifying the input voltage signal and converting it into at least two second current signals; a voltage output module, connected to the first processing module and the second processing module, for combining the first current signals and the second current signals and converting them into output voltage signals. The low noise amplifier circuit can convert a single input voltage signal to at least two output voltage signals, and is applicable in RF front ends with multiple output terminals.
US11742790B2
The internal temperate of a transistor is determined by detecting a voltage though a terminal of an integrated circuit that is also used by an overcurrent detection circuit of the integrated circuit for detecting an overcurrent condition of the system. The overcurrent detection circuit is coupled to a current electrode of the transistor through the terminal of the integrated circuit. A determination of internal temperature is based on a voltage measurement taken from the terminal during an on phase of the transistor. The voltage measurement is converted to a digital value and is used to determine an internal temperature of the transistor.
US11742783B2
A motor apparatus for a switch drive of an electric switch has an electric motor and a control apparatus for controlling the electric motor. The control apparatus has a power supply device for the electrical power supply of the electric motor. The electric power supply has a rectifier unit, a voltage measurement unit for detecting the supply voltage or a rectifier output voltage of the rectifier unit, a switch unit for generating a drive voltage for the electric motor from the supply voltage or from the rectifier output voltage, and a control unit for controlling the switch unit as a function of the supply or rectifier output voltage detected. Accordingly, the motor apparatus has a motor housing which, besides the electric motor, houses part of the power supply device and/or at least part of the control unit.
US11742770B2
A vehicle includes a traction battery and a converter. The converter includes a switch and first and second busbars electrically connected in parallel between the traction battery and the switch. The second busbar has an inductance less than the first busbar and includes a resistor having a resistance at least an order of magnitude greater than a resistance of the first busbar.
US11742765B2
A method for determining a scheme for converting power in every power conversion control period and converting power according to the determined scheme may comprise the steps of: calculating average power in a transformer inductor at the time of power conversion according to an SPWM scheme in a control period; calculating average power in the transformer inductor at the time of power conversion according to a DPWM scheme in a control period; and converting power according to a scheme by means of which the calculated average power of the transformer inductor is greater. Here, in the step of calculating the average power in the transformer inductor at the time of power conversion according to the DPWM scheme, it is possible to select a DPWM scheme with the maximum duty in a step-up or step-down condition given in the control period.
US11742763B2
A power supply circuit generating an output voltage at a target level and applying the output voltage to a load. The power supply circuit includes a transformer including a primary coil, a secondary coil and an auxiliary coil, a transistor coupled to the primary coil, and a switching control circuit configured to control switching of the transistor based on a voltage from the auxiliary coil. The switching control circuit includes a determination circuit configured to determine whether to shift to a burst mode operation based on whether the load is a light load, and a burst control circuit. The burst control circuit has a clock circuit configured to measure a stop period during which the switching of the transistor is stopped in the burst mode operation, and a control circuit configured to, upon detecting that the stop period is longer than a first time period, perform control to decrease the stop period.
US11742747B2
A power supply system having a plurality of power systems is provided with a power output section in each of the power systems, an electrical load in each of the power systems, operating from power supplied by the power output section, main paths that connect the power output sections of adjacent ones of the power systems, an inter-system switch that establishes a conducting condition between the adjacent power systems by being turned on and establishes a disconnected condition between the adjacent power systems by being turned off, and an intra-system switch in each of the power systems, which is disposed on the main path between the power output section and the inter-system switch, and which establishes a conducting condition between the power output section and the electrical load by being turned on and establishes a disconnected condition between the power output section and the electrical load by being turned off.
US11742743B2
A switching regulator clamping the power or ground of the power switch driver is introduced. In a buck regulator, the first power switch is coupled between the input terminal of the buck regulator and the first terminal of an inductor. The second terminal of the inductor is coupled to the output terminal of the buck regulator. The second power switch is coupled between the first terminal of the inductor and an internal ground of the buck regulator. There is a driver power clamp configured to clamp the power terminal of the driver of the second power switch when the first power switch is turned off. In a boost regulator, a driver power clamp is configured to clamp the ground terminal of the driver of the power switch that couples the input inductor to an output terminal of the boost regulator when another power switch is turned off.
US11742741B2
Described herein is a switching regulator that can provide a high current while operating with low noise and low spur. The switching regulator may operate with a varying switching frequency. Spurs at the varying switching frequency may be reduced by compensating an error amplifier, which controls the switching frequency.
US11742737B2
A gear motor comprising a reduction gear train and a three-phase electric motor comprising a stator formed of a stack of sheets and 3*k electric coils and a rotor having 5 k*N pairs of magnetized poles, with k=1 or 2, the stator having two separate angular sectors alpha 1 and alpha 2, which are centered on the center of rotation of the motor and comprise an alternation of notches and 3*k*N teeth, which are regularly spaced and converge toward the center of rotation and define a cavity in which the rotor is arranged, the gear motor being characterized in that N=4 and in that alpha 1 is less than or equal to 180° and comprises all of the coils of the motor.
US11742729B2
The present disclosure describes a drive circuit for an actuator of an actuator device. The drive circuit includes an interference suppression branch for reducing interferences. The interference suppression branch includes two conductor branches extending along a longitudinal axis and each comprising at least one conductor body. The two conductor branches extend through at least two imaginary conductor alignment sections of the interference suppression branch that are lined up in a row in an axial direction of the longitudinal axis. The two conductor branches have a first portion arranged inside a first conductor alignment section that run obliquely towards one another.
US11742726B2
A motor stator includes a ring-shaped core defining a rotor accommodation space, a plurality of slots, a first hairpin conductor, a second hairpin conductor, and a temperature sensor. The slots are disposed in the core and arranged to surround the rotor accommodation space circumferentially. The slots extend radially from the rotor accommodation space. The core includes an insertion side and an extension side. The slots include a temperature sensor accommodation slot which, at the insertion side, has a radial length greater than a radial length of any other one of the slots. The first hairpin conductor is disposed in the temperature sensor accommodation slot distal to the rotor accommodation space. The second hairpin conductor is disposed in the temperature sensor accommodation slot, and the temperature sensor is disposed between the first and second hairpin conductors.
US11742725B2
Provided is a gear motor including a motor, a speed reducer, a first detector disposition section in which a first rotation detector that detects rotation of a rotor shaft is disposed, a second detector disposition section in which a second rotation detector that detects rotation of an output member of the speed reducer is disposed, and a third detector disposition section in which a torque detector is disposed, in which the gear motor is operable when the first rotation detector is disposed in the first detector disposition section, the second rotation detector is disposed in the second detector disposition section, and the torque detector is disposed in the third detector disposition section, and is operable even when a portion thereof is disposed.
US11742721B2
A rotor assembly for a permanent magnet motor, including: a rotor shaft comprising an internal cavity having an inlet and an outlet; and a rotor core disposed about the rotor shaft, comprising an internal channel having an inlet and an outlet; wherein the outlet of the internal cavity of the rotor shaft is coupled to the inlet of the internal channel of the rotor core; and wherein the internal cavity of the rotor shaft and the internal channel of the rotor core are configured to circulate a cooling fluid through the rotor shaft and the rotor core. The rotor core includes a plurality of permanent magnets adapted to interact with a stator assembly disposed about/adjacent to the rotor core.
US11742719B2
The present application discloses a motor mechanical limiting device for limiting rotation of a motor. The device includes: a limiting ring, a first limiting device, and a second limiting device. The first limiting device is fixedly connected on a rotor of motor. The second limiting device is fixed on a motor stator. The limiting ring is in bearing connection with the rotor of motor. The limiting ring protrudes to form a stopping edge. Both the first limiting device and the second limiting device are located on a circumferential rotation path of the stopping edge, and the second limiting device is provided with a region for the first limiting device to pass through.
US11742717B2
A motor case for an electric motor of an e-boosting device is configured to be received within an outer housing to cooperatively define a coolant jacket. The motor case includes a shell member that at least partly defines a motor cavity for receiving the electric motor. The motor case also includes a dam member that is fixed to the shell member. The dam member projects from the shell member in an outboard direction from an outer surface of the shell member. The shell member and the dam member are configured to be received within the outer housing to define the coolant jacket and with the dam member partitioning the coolant jacket. The dam member is made of a different material from the shell member.
US11742716B2
The motor includes a shaft, a cartridge including a plurality of bearings that support the shaft, and a sleeve that surrounds the bearings, and a housing including a bottom portion for receiving an impact from outside and an attaching portion provided in the bottom portion. The bottom portion of the housing extends in a direction intersecting with respect to a longitudinal direction of the shaft, and the cartridge is removably attached to the attaching portion.
US11742715B2
A motor housing (2) has a shaft section to receive a motor shaft (4) and a motor section to receive motor electronics (5) and motor windings (6). The shaft section and the motor section are separated from each other in a sealed manner by a separating pot (7) arranged in the motor housing (2). A metal ball bearing pot (8) with a ball bearing (9) is arranged in the separating pot. The ball bearing pot (8) lies indirectly against a motor housing section that is connected to the outer surroundings, via the separating pot (7). Thus, the motor housing functions as a cooling body. Accordingly, heat generated by the ball bearing (9) during operation is dissipated onto the motor housing and the outer surroundings, via the ball bearing pot (8) and the separating pot (7).
US11742714B2
A motor and a driving member are provided. The motor has a rotor centered on and rotatable along a central axis and having a shaft and a bearing holding the shaft to be rotatable; a stator radially opposite to the rotor; a coil winding around the stator; a bearing holder; a bus bar holder on one or the other side of the bearing holder in an axial direction; a substantially cylindrical housing having an opening on a top side in the axial direction. The rotor, the stator, the bearing holder, and the bus bar holder are in the housing. A power bus bar and a signal bus bar are integrally formed on the bus bar holder which axially pushes against and is fixed to the bearing holder; a circuit board and a sensor are between the holders. This structure reduces an axial dimension of the motor and miniaturizes the motor.
US11742710B2
An electric motor includes a stator and a rotor assembly received in the stator. The rotor assembly includes a rotor body having a lamination stack, and an integral fan and magnet retention formed by molding an insulative material to the lamination stack. The rotor assembly also includes a shaft pressed into the rotor body. The shaft is pressed into the rotor body after the insulative material is molded to the lamination stack to form the integral fan and magnet retention.
US11742708B2
A stator includes a core and an over-molded midsection arranged to define a plurality of slots, and a plurality of conductors wound within the slots. Portions of the midsection immediately adjacent to the slots define a plurality of protrusions disposed on opposite long faces of at least some of the slots. The protrusions extend into the at least some of the slots and between some of the conductors to establish a gap between the some of the conductors and to direct coolant between the some of the conductors.
US11742707B2
A bobbin structure is inserted into a slot defined in a stator core. The bobbin structure includes a body configured to contact an inner wall of the slot and at least one partition provided inside the body to insulate at least some coils, inserted into the slot so as to be arranged in a plurality of layers, from each other. The body and the at least one partition are formed integrally with each other.
US11742692B1
Techniques for an electronic device to perform power-stealing techniques to harvest energy from a power-control circuit to power components of the electronic device. In some examples, the electronic device may be connected in the power-control circuit between a power supply and a relay that is selectively configured to activate a power load. According to the techniques described herein, the electronic device may include voltage-drop circuitry that is connected in the power-control circuit such that a voltage drop is produced across electrical components of the electronic device while the relay is in the activated, or triggered, state. In this way, the electronic device may perform power-stealing from the power-control circuit while the relay is maintained in the activated state.
US11742688B2
The present disclosure provides a charging device and a charging control method, and the device includes a transformer, a charger, an energy regulator, and a controller; the primary winding of the transformer is connected to the power distribution network, the power distribution network provides a first input power for the charging device; the secondary winding of the transformer is connected to an AC side of the charger and the AC side of the energy regulator respectively; the power required on the AC side of the charger is a second input power; the controller is connected to the energy regulator to control the AC side current of the energy regulator, so as to compensate the power difference between the second input power and the first input power.
US11742684B2
A charging control circuit includes: a communications interface housing, a communications interface, and a control sub-circuit the communications interface housing includes a first conductive part, a second conductive part, and an insulating part, and the insulating part is disposed between the first conductive part and the second conductive part; the first conductive part is connected to a first voltage terminal; the second conductive part is connected to a second voltage terminal; a first voltage accessed at the first voltage terminal is greater than a second voltage accessed at the second voltage terminal; and when it is detected that a voltage of the first conductive part changes from the first voltage to the second voltage, starting of a power supply apparatus electrically connected to the communications interface, so that the power supply apparatus provides a charging voltage to the communications interface.
US11742679B2
A system for establishing a primary function display for an electrical vertical takeoff and landing aircraft. The system further includes a plurality of sensors that detects at least a metric and generates at least a datum based on the at least a metric. Specifically, state of charge is at least generated based on the performance metric of an energy source. The system further includes a display to show the at least a datum. The system further includes a controller that receives the at least a datum and generates a visual to the pilot.
US11742674B2
A multiple-battery charger includes a switching subsystem and a control element. The switching subsystem is configured to selectively electrically connect each of a plurality of individual batteries one at a time to a constrained energy source having electrical power production that varies over time. The control element is operatively connected to the switching subsystem. The control element is configured to deliver one or more pulse width modulated signals to the switching subsystem. The one or more pulse width modulated signals establish a duty cycle with which each of the plurality of batteries is electrically connected to the constrained energy source to receive electrical power from the constrained energy source.
US11742666B2
This disclosure presents a method, an apparatus, and a non-transitory computer readable medium to synchronize an active load with a microgrid having a plurality of distributed generators. The method comprises obtaining respective reference frames for the active load and each of the plurality of distributed generators. The method further comprises selecting the reference frame of a first distributed generator as a common reference frame for the microgrid. The method further comprises pooling the active load and the other distributed generators of the plurality of distributed generators on the common reference frame of the microgrid. The method further comprises tuning controller parameters of the active load and the plurality of distributed generators so that predefined grid voltage, frequency, and phase values of the microgrid are maintained.
US11742663B2
An integrated hybrid energy recovery and storage system for recovering and storing energy from multiple energy sources is disclosed. The system includes an accumulator unit having a high pressure accumulator and a low pressure accumulator. At least one piston is mounted for reciprocation in the high pressure accumulator. The accumulator unit is configured to receive, store, and transfer energy from the hydraulic fluid to the energy storage media. The system further includes two or more rotational directional control valves, in which at least one rotational directional control valve is positioned on each side of the accumulator unit. Each rotational directional control valve includes multiple ports. The system also includes two or more variable displacement hydraulic rotational units. At least one variable displacement hydraulic rotational unit is positioned adjacent each of the rotational directional control valves.
US11742660B2
A plant for melting and/or heating metal material includes a furnace, electrical energy feed means and an electric power apparatus connected between the feed means and the furnace; and a corresponding method to power the melting and/or heating plant.
US11742658B2
A method for generating electric substation load transfer control parameters includes adjusting elements in a fundamental scale matrix according to a condition change of a power grid, wherein the fundamental scale matrix is constructed based on the topology structure of the power grid, and the elements in the fundamental scale matrix represent switch information and risk values of paths between nodes of the power grid, wherein the switch information represents number of switching times required for connecting two nodes of the power grid; and performing operations on the adjusted fundamental scale matrix to generate switch information and risk values of paths for electric substation load transfer control, as electric substation load transfer control parameters.
US11742657B2
An electrostatic discharge (ESD) protection circuit includes a first transistor, a second transistor, a capacitor, a voltage dividing circuit, and a first diode. The first transistor is coupled between a first power rail and a second power rail. The second transistor is coupled between the first power rail and the second power rail. A bulk of the second transistor is coupled to a control terminal of the first transistor. The capacitor is coupled between the first power rail and a control terminal of the second transistor. The voltage dividing circuit is coupled between the control terminal of the second transistor and the second power rail, and has a divided voltage output terminal coupled to the bulk of the second transistor. The first diode is coupled between the divided voltage output terminal and the second power rail.
US11742653B2
An integrated circuit breaker includes a solid state switching module (SSWM) configured to receive and switchable control a line power (LP) for a given phase, and output a first switched power (SP) to a load. A first sensor (LPS) senses LP currents. A second sensor (SPS) senses SP currents. A power module controls operating states of the SSWM based upon LPS and SPS reading(s). The LPS and/or the SPS may also sense temperatures. The power module includes a high voltage domain, isolated from a low voltage domain, that includes a gate driver coupled to the SSWM and a high voltage controller providing drive signals to the gate driver. The low voltage domain includes an LP monitor and an SP monitor that detects anomalous LP and/or SP conditions and communicates error signals to the high voltage domain and to users for reporting, diagnostic, and/or other purposes via an external communications module.
US11742650B2
The present invention relates to estimating source impedances across one or more transmission lines connecting at least two substations. Each substation is associated with an equivalent source having a respective source impedance. Voltage and current measurements and status signals are obtained. The voltage and current measurements provide terminal or bus voltages and line currents at each terminal, and the status signals are associated with switching events at the one or more transmission lines or at the substations. An event associated with a disturbance or current injection is detected from one or more of the obtained measurements and the obtained status signals. The source impedance of each equivalent source is estimated based on the event, using line parameters and the voltage and current measurements associated with the event.
US11742642B2
The invention relates to a cable fixing device for a container handling system and to a method for setting a minimum bending radius for a connecting cable of a container handling system. The cable fixing device comprises a main body, a cable guide which is arranged around a part of the main body, and a cover for covering an end of the cable guide in such a way that a connecting cable, which is pre-assembled with plug-in devices at both ends, can be introduced between the cover and the cable guide. The cable guide is configured at its other end for fixing of the connecting cable in such a way that a looping angle of the cable fixing device and connecting cable can be set variably.
US11742639B2
A switchgear system may include a switchgear frame and a truck carrying a circuit breaker and supported for linear movement on the switchgear frame. A drive mechanism may rack in the truck and the circuit breaker is in electrical connection with primary circuit contacts, and may rack out the truck and the circuit breaker is electrically disconnected from the primary circuit contacts. As the drive mechanism racks in the circuit breaker, a shutter linkage moves a shutter opened, and as the drive mechanism racks out the circuit breaker, the shutter linkage moves the shutter closed over the primary circuit contacts.
US11742638B2
A contact arm assembly includes a contact arm defining a central axis and having a first end configured for electrical connection with a pole of a circuit breaker and a second end having a distal end defining a shoulder and an engagement that protrudes from the contact arm proximal to the shoulder. A plurality of contact fingers are mounted circumferentially on the second end of the contact arm and configured to electrically engage a primary circuit contact. Each contact finger has a body with a depression that receives the engagement for electrical contact.
US11742636B1
System and methods for operating a vehicle that includes a boosted engine are described. In one example, a spark plug may be adjusted between two operating states to reduce a possibility of pre-ignition and spark plug fouling. A first operating state may be conducive to operating the engine at light loads. The first operating state may be conducive to operating the engine at higher loads.
US11742629B2
A method and a system for controlling an output of an optical system, the method comprising generating a plurality of optical signal components having different optical properties and passing the generated optical signal components as input to an optical system comprising an optical device and/or an optical medium; an output of the optical system being based on interactions of the signal components within the optical device and/or the optical medium; and relative proportions of the optical signal components that are generated and individual optical properties thereof being selected to control the output of the optical system.
US11742625B2
A replaceable socket device includes adapters and a base. Each of the adapters include a jack and contacts disposed on a bottom of the adapters. The base includes sockets, an adapting interface disposed on the socket, and a coupling interface coupled to the adapting interface and an external power source. Each socket includes a bottom surface and a sidewall perpendicularly connected to the bottom surface. One of the adapters inserts in the socket via an opening formed by the bottom surface and the sidewall. The adapting interface is utilized to connect the socket and one of the adapters. The coupling interface is configured to conduct electrical signal from the external power source to the adapting interface. The structure of the adapting interface is used for allowing one of adapters to couple to the socket via the adapting interface. The adapting interface is lower than the bottom surface of the socket.
US11742615B2
A battery side electrical connector. The battery side electrical connector including a second mounting seat, a second high-voltage assembly and a second low-voltage assembly, wherein the second high-voltage assembly and the second low-voltage assembly are configured to be inserted through the second mounting seat, the second high-voltage assembly includes a second high-voltage pole, the second mounting seat is provided with a high-voltage mounting hole, wherein the second high-voltage pole is configured to be inserted through the high-voltage mounting hole, wherein outer wall surface of the second high-voltage pole is provided with a positioning section which is used to limit the movement of the second high-voltage pole relative to the second mounting seat along axial direction of the high-voltage mounting hole. By means of the battery side electrical connector, the second high-voltage assembly can be prevented from hard damage.
US11742614B2
An electrical connection device. The electrical connection device comprises a vehicle side electrical connector comprising a first mounting seat, a first high-voltage assembly and a first low-voltage assembly; and a battery side electrical connector comprising a second mounting seat, a second high-voltage assembly and a second low-voltage assembly. The first high-voltage assembly comprises a first high-voltage pole, a flexible electrical connector and a high-voltage plug, wherein the first high-voltage pole includes an electrical contact end and a wiring end; wherein one end of the flexible electrical connector is in a floating electrical connection with the wiring end of the first high-voltage pole, the high-voltage plug is in a floating electrical connection with the other end of the flexible electrical connector. By means of the electrical connection device, the first high-voltage assembly and the second high-voltage assembly can be prevented from hard damage, the stability of the electrical contact between the first high-voltage assembly and the second high-voltage assembly can be ensured.
US11742611B2
A cable system component includes a housing having a seal-grasping surface portion and a seal having an elastically deformable tubular body attached to the housing. The body has a posterior sealing surface that cooperatively engages the seal-grasping surface portion of the housing and a forward sealing surface configured to cooperatively engage an interface port. The forward sealing surface includes a radially inner facet divided into a forward portion and a rearward portion by an inner annular groove in the inner facet. The seal includes an anterior portion and a posterior portion connected by a thinned neck portion, the forward portion of the radially inner facet is on the anterior portion, and the rearward portion of the radially inner facet is on the posterior portion. The rearward portion of the radially inner facet includes a sealing edge surface that is configured to cooperate with an outer surface of the interface port in order to provide a sealed connection between the connector and the port when the anterior portion is removed from the seal. The inner annular groove is radially aligned with the neck portion and is configured to keep the neck portion away from the sealing edge of the rearward portion of the radially inner facet when the anterior portion is removed from the seal.
US11742605B2
The present disclosure relates to a high density electrical interconnect apparatus for interfacing with remotely located electrical components. The apparatus may have a housing, a substrate element supported within the housing, and a plurality of independent substrate interface connect subsystems arranged in a planar grid on the substrate element. The apparatus further has a plurality of independent electrical interface connector subassemblies, each configured to be coupled to an associated subplurality of the substrate interface connect subsystems, to form a plurality of electrical communication channels with the remotely located electrical components.
US11742600B2
The present invention relates to a first metal cable (1) having a flat upper (A) and a flat lower (B) surface, comprising at least one hollow riser (2) extending approximately 90 degrees from one of the flat surfaces of the first metal cable, the hollow riser being 5 configured to house an end of a second metal cable (3). A connected structure comprising a first metal cable wherein a second metal cable is inserted into the hollow riser (2) of the first metal cable and joined with the first metal cable. it also relates to a method of making a connected structure, joining a first metal cable to a second metal cable by friction welding the second metal cable (3) to the first metal cable by 10 contacting a rotating tool (4) with the lower surface of the first metal cable in the area underneath the hollow riser.
US11742598B2
An electrical connector for soldering with a cable is provided. The electrical connector includes an insulating body, a plurality of terminals, and a metallic shell. The terminals are disposed in the insulating body and arranged in a lateral direction. Each of the terminals has a clip section, a connecting section, and a soldering section. The metallic shell is assembled to the insulating body to form an interface of the electrical connector for connecting to another electrical connector, the clip section is close to the interface, the soldering section is away from the interface, and the cable is soldered to the soldering section of at least one of the terminals in the lateral direction.
US11742596B2
A radiator assembly for a base station antenna has a longitudinal central axis and two dipoles cross-arranged around the longitudinal central axis. Each dipole has two dipole arms and each dipole arm is equipped with a hook-like feeder made of a metal sheet and having a free end portion. The hook-like feeder is capacitively coupled with an associated dipole arm. The radiator assembly is compact and is easy to manufacture and assemble.
US11742593B2
A wideband bisector antenna has a plurality of antenna elements disposed in horizontal rows, a left beam bi-sector array segment at one section of the antenna comprising a plurality of the horizontal rows of elements, and a right beam bi-sector array segment at one section of the antenna comprising a plurality of the horizontal rows of elements. At least one horizontal row on the antenna is shared in both the left beam bi-sector array segment and the right beam bi-sector array segment.
US11742580B2
An antenna system, such as a multifeed antenna system, can include at least one antenna feed element. The antenna system can include an antenna loop element. The at least one antenna feed element can be capacitively coupled to the antenna loop element. The at least one antenna feed element can include one or more capacitively coupled regions. The one or more capacitively coupled regions can form at least a portion of the capacitive coupling of the at least one antenna feed element to the antenna loop element.
US11742575B2
A base station antenna includes a remote electronic tilt (“RET”) actuator, a phase shifter having a moveable element and a mechanical linkage extending between the RET actuator and the phase shifter. The mechanical linkage includes an adjustable RET linkage that has a first link that has a first connection element, a second link that has a second connection element and a connecting member that includes at least a third link. The adjustable RET linkage includes at least a first hinge and a second hinge.
US11742568B2
In aspects of a small cell installation structure, a support structure provides stability and an attachable framework to mount wireless technology equipment. A formable aesthetic housing is formed around the support structure, and a hardened polymer coating over the formable aesthetic housing is adapted to a shape of the formable aesthetic housing and the support structure. The hardened polymer coating resists environmental conditions that may otherwise interfere with performance of the wireless technology equipment. Additionally, an antenna housing module encloses antennas of the wireless technology equipment, is integrated with the support structure, and is designed to pass millimeter wave (mmW) spectrum wireless signals.
US11742566B2
An antenna structure and a mobile device including the same are provided. The antenna structure is arranged on a metal cover with an opening slot, and includes a radiator, a feeding part, a grounding element, a grounding parasitic element, an extending parasitic element, a substrate, and a matching circuit. The radiator extends along a first direction, and the feeding part is connected to the radiator and extends towards a second direction. The grounding parasitic element includes a branch part and a parasitic element body. The branch part extends from a grounding point towards the opening slot. The parasitic element body is connected to the grounding element through the branch part and extends towards a first direction. The extending parasitic element extends along the first direction. The matching circuit is electrically connected to the radiator, the grounding element, the grounding parasitic element, and the extending parasitic element.
US11742555B1
Provided herein are various examples of separable waveguide couplers. In one example, a collar element is provided to surround a member comprising a faying surface, a waveguide conduit, and alignment protrusions arranged radially about a perimeter of the faying surface, where the collar element is configured to accept insertion of a mating member comprising a mating faying surface and a mating waveguide conduit. A ball detent assembly is provided having a spring element that retains ball elements in holes formed through the collar element. The waveguide conduit and the mating waveguide conduit are configured to be aligned radially by at least engagement of the alignment protrusions with alignment channels in the mating member and restrained axially by at least engagement of the ball elements with mating divots in the mating member.
US11742549B2
A separator including: a porous polymer substrate having a plurality of pores; and a coating layer formed on at least one surface of the porous polymer substrate, and including a plurality of lithium-containing composite particles and a binder positioned on the whole or a part of the surface of the lithium-containing composite particles to connect and fix the lithium-containing composite particles with each other, wherein the lithium-containing composite particles includes a lithiated compound and a passivation film formed on the surface of the lithiated compound, and the passivation film includes a solid electrolyte interface (SEI). A lithium secondary battery including the separator and a method for manufacturing the lithium secondary battery are also provided.
US11742543B2
A secondary battery with an exterior body having a novel scaling structure, and a structure of a sealing portion that relaxes a stress of deformation are provided. The secondary battery includes a positive electrode, a negative electrode, an electrolyte solution, and an exterior body enclosing at least part of the positive electrode, at least part of the negative electrode, and the electrolyte solution. The exterior body includes a first region having a shape with a curve, a shape with a wavy line, a shape with an arc, or a shape with a plurality of inflection points, and a second region having the same shape as the first region. The first region is in contact with the second region. Alternatively, the first region has a shape without a straight line. The secondary battery may be flexible, and the exterior body in a region having flexibility may include the first region.
US11742538B2
A liquid tank system includes a tank body and a liquid coolant supplying device. The tank body has an accommodating space, a liquid inlet, and an upper outlet. The liquid inlet and the upper outlet communicate with the accommodating space. The accommodating space is sealed except for the liquid inlet and the upper outlet. The liquid coolant supplying device is connected to the liquid inlet so as to continuously provide a liquid coolant to the accommodating space through the liquid inlet. The liquid coolant in the accommodating space overflows out of the tank body through the upper outlet. A Li-ion battery cooling system includes a Li-ion battery and the above liquid tank system. The Li-ion battery is disposed in the accommodating space and submerged in the liquid coolant. The continuously flowing liquid coolant dissipates heat from the lithium battery.
US11742537B2
A battery pack includes: battery cells, each including first and second end portions that are opposite each other in a length direction; a case having an accommodation space in which the battery cells and a fluid to cool the battery cells are configured to be accommodated, the case including first and second covers respectively covering the first and second end portions; first and second tab plates respectively on the first and second covers and connected to the first and second end portions; a circuit board on the first tab plate; and a first lead and a second lead through which the first and second tab plates are connected to the circuit board, the first and second leads connected to a first side portion of the circuit board. An arrangement of the leads connected to electrodes of the battery cells is improved, and heat is efficiently dissipated from a switch device.
US11742535B2
An energy storage system includes a module stack having a plurality of battery modules stacked vertically; a venting detecting unit configured to detect a venting when the venting occurs in at least a part of the plurality of battery modules; and a coolant supplying unit configured to supply a coolant to a battery module at which a venting occurs when the venting of the battery module is detected by the venting detecting unit.
US11742529B2
A fluoride ion secondary battery, comprising: a positive electrode layer, a solid electrolyte layer, and a negative electrode layer, wherein the positive electrode layer comprises a positive electrode active material; the positive electrode active material comprises a composite fluoride comprising copper and a fluoride; the solid electrolyte comprises BaCaF4; the negative electrode layer comprises a negative electrode active material, a conductive aid, and a solid electrolyte; the negative electrode active material comprises a lanthanoid fluoride doped with the alkaline earth metal fluoride; the conductive aid comprises a carbon material, the solid electrolyte contained in the negative electrode layer comprises at least one of BaCaF4 and SrCaF4; and the lanthanoid fluoride doped with the alkaline earth metal fluoride forms a composite with the carbon material.
US11742518B2
An electrolyte includes at least one of a compound of Formula I, a compound of Formula II or a compound of Formula III; and a compound of Formula IV; where, R11, R12, R13, R21, R22, R31, R32, R33 and R34 are independently selected from H, halo, cyano, substituted or unsubstituted C1-C10 alkyl, substituted or unsubstituted C2-C10 alkenyl, and substituted or unsubstituted C6-C12 aryl; R41 and R44 are independently selected from H, F, cyano, substituted or unsubstituted C1-C10 alkyl, substituted or unsubstituted C2-C10 alkenyl, substituted or unsubstituted C6-C12 aryl, Ra—(O—Rb), or (O—Rb); and R42 and R43 are independently selected from Rc—(O—Rd) or (O—Rd). Rb is selected from substituted or unsubstituted C1-C4 alkyl; Ra, Rc and Rd are independently selected from substituted or unsubstituted C1-C4 alkylene, C2-C5 alkenylene, or C6-C12 aryl.
US11742516B2
A solid electrolyte-cathode assembly including a plurality of cathode layers spaced apart from each other in a first direction, and an electrolyte layer including an amorphous solid electrolyte and a crystalline solid electrolyte including a plurality of crystalline solid electrolyte particles, wherein the amorphous solid electrolyte is on a surface of a cathode layer of the plurality of cathode layers and the crystalline solid electrolyte is within the amorphous solid electrolyte.
US11742512B2
Battery packs having jelly roll battery cells of different capacities may have an imbalance in the charging and/or discharging current supplied to and provided by each jelly roll due to differences in capacity specific impedance between the battery cells of the battery pack. A C-rate (i.e., current relative to rated capacity) of a lower capacity first battery cell and a higher capacity second battery cell connected in parallel may be balanced by repositioning and/or increasing the number of cathode tabs and anode tabs of the second jelly roll battery cell to reduce an impedance of the second battery cell.
US11742508B2
A reforming element for a molten carbonate fuel cell stack and corresponding methods are provided that can reduce or minimize temperature differences within the fuel cell stack when operating the fuel cell stack with enhanced CO2 utilization. The reforming element can include at least one surface with a reforming catalyst deposited on the surface. A difference between the minimum and maximum reforming catalyst density and/or activity on a first portion of the at least one surface can be 20% to 75%, with the highest catalyst densities and/or activities being in proximity to the side of the fuel cell stack corresponding to at least one of the anode inlet and the cathode inlet.
US11742503B2
A method is provided for operating a fuel cell stack with improved performance recovery from sub-saturated conditions, the method comprising setting an alert for the performance recovery of the fuel cell stack, performing at least one oxidant starvation by supplying oxidant at a stoichiometric ratio below 1 to the fuel cell stack in at least one pulse for a preset amount of time and at low current while the fuel cell stack does not generate power. The fuel cell system with an improved performance recovery comprises a shorting circuit which is connected to the fuel cell stack at predetermined times (startup, shutdown or standby mode) and an air compressor powered by a DC-DC converter which supplies a predetermined number of oxidant pulses of a predetermined duration to the fuel cell stack.
US11742497B2
A method for producing a membrane electrode assembly for a fuel cell includes providing a first component of the membrane electrode assembly as part of a continuous material web which passes through a plurality of processing stations and connecting a second component of the membrane electrode assembly to the first component by a firmly bonded connection.
US11742495B2
A solid oxide electrochemical cell includes a solid oxide electrolyte, an anode located on a first side of the solid oxide electrolyte, and a cathode located on a second side of the solid oxide electrolyte. The cathode includes lanthanum nickel ferrite.
US11742491B2
A binder for a secondary battery containing a fluorine-containing polymer (A) and polyvinylidene fluoride (B). The fluorine-containing polymer (A) contains a polymerized unit based on vinylidene fluoride, a polymerized unit based on tetrafluoroethylene, and a polymerized unit based on a monomer (2-2) represented by the following formula (2-2): wherein R5, R6, and R7 are each independently a hydrogen atom or a C1-C8 hydrocarbon group; R8 is a C1-C8 hydrocarbon group; and Y1 is an inorganic cation or an organic cation. Also disclosed is an electrode mixture and an electrode for a secondary battery including the binder, and a secondary battery including the electrode.
US11742490B2
A battery includes a positive electrode; a negative electrode; a separator; and an intermediate layer. The intermediate layer is provided between the positive electrode and the separator and includes one or both of a fluororesin and a particle. The positive electrode has a positive electrode active material layer including a fluorine-based binder having a melting point of 166° C. or less, and a content of the fluorine-based binder in the positive electrode active material layer is from 0.5% by mass to 2.8% by mass.
US11742484B2
A method for synthesizing an alkali metal-based phosphorous compound includes contacting an elemental alkali metal with elemental phosphorous to create a mixture and applying a pressure of less than 20 gigapascals to the mixture for forming the alkali metal-based phosphorous compound.
US11742481B2
A nonaqueous electrolyte secondary battery includes a positive electrode, a negative electrode, and a nonaqueous electrolyte. The positive electrode includes lithium composite oxide particles A and B containing Ni and Mn. The lithium composite oxide particles A include secondary particles a2 that are aggregations of primary particles a1, and contain at least one of zirconium and boron. The lithium composite oxide particles B include at least one of primary particles b1 and secondary particles b2, the primary particles b1 having a larger particle size than the primary particles a1, the secondary particles b2 being aggregations of the primary particles b1 and having a smaller particle size than the secondary particles a2. The mass ratio of the lithium composite oxide particles A to the lithium composite oxide particles B is within the range of 8:2 to 4:6.
US11742478B2
An all-solid secondary battery, including: a cathode; an anode; and a solid electrolyte layer disposed between the cathode and the anode, wherein the anode comprises an anode current collector; a first anode active material layer in contact with the anode current collector and comprising a first metal; a second anode active material layer disposed between the first anode active material layer and the solid electrolyte layer and comprising a carbon-containing active material; and a contact layer between the second anode active material layer and the solid electrolyte layer, and disposed such that the contact layer prevents contact between the second anode active material layer and the solid electrolyte layer, wherein the contact layer comprises a second metal, and has a thickness less than a thickness of the first anode active material layer.
US11742473B2
The present invention relates to a reduced-graphene-oxide/silicon-metal-particle composite, a method of manufacturing the composite and an electrode for a secondary battery including the composite. The method of manufacturing the reduced-graphene-oxide/silicon-metal-particle composite includes preparing a reduced-graphene-oxide dispersion solution by reducing graphene oxide formed through cation-pi interaction, preparing a reduced-graphene-oxide/silicon-metal-particle dispersion solution by mixing the reduced-graphene-oxide dispersion solution with silicon metal particles, and manufacturing a composite powder having a core-shell structure by drying the reduced-graphene-oxide/silicon-metal-particle dispersion solution. Thereby, reduced graphene oxide can be formed using the graphene oxide dispersion solution having few defects and high purity obtained through cation-pi interaction, and dried to afford a composite powder having a core-shell structure, which is applicable to an electrode for a secondary battery.
US11742470B2
A display device including at least one emission area emitting light and a transmission area adjacent to the at least one emission area and transmitting external light. The display device includes a substrate and a circuit element including at least one transistor and a storage capacitor disposed on the substrate. An insulating layer is disposed on the circuit element and includes a contact hole. A first transparent electrode is disposed on the insulating layer and is electrically connected to the circuit element through the contact hole. At least one light-emitting diode is disposed on the first transparent electrode and defines the at least one emission area. The at least one light-emitting diode comprises a PN diode including inorganic semiconductor based-materials. A portion of the first transparent electrode is located in the transmission area.
US11742467B2
A preparation method of a backplane includes: forming an insulating structure layer having a groove on a base substrate by a mask exposure process, the groove being used for accommodating a metal trace; and repeating a metal sub-layer forming step including an ashing process and a wet etching process multiple times to form the metal trace positioned in the groove.
US11742455B2
What is disclosed are structures and methods for testing and repairing emissive display systems. Systems are tested with use of temporary electrodes which allow operation of the system during testing and are removed afterward. Systems are repaired after identification of defective devices with use of redundant switching from defective devices to functional devices provided on repair contact pads. Time varying signals coupled to a capacitor are used as well.
US11742454B2
A method for manufacturing a concentrator photovoltaic module including: power generating elements whereon sunlight is concentrated by condenser lenses; and a housing accommodating the power generating elements. The housing includes a resin frame body, a metal bottom plate closing a bottom-side opening of the frame body and an inner surface wherein power generating elements are disposed. The method includes: a peripheral edge of the inner surface of the bottom plate connected to a bottom end surface of the frame body, fixing the bottom plate to the frame body creating the housing; and fixing the housing to a transport jig for transporting the housing horizontally. The transport jig includes a support portion corresponding to the bottom end surface of the frame body, and supports the housing. The housing is fixed to the transport jig, with the support portion attached to a peripheral edge of an outer surface of the bottom plate.
US11742446B2
Wire-based metallization and stringing techniques for solar cells, and the resulting solar cells, modules, and equipment, are described. In an example, a substrate has a surface. A plurality of N-type and P-type semiconductor regions is disposed in or above the surface of the substrate. A conductive contact structure is disposed on the plurality of N-type and P-type semiconductor regions. The conductive contact structure includes a plurality of conductive wires, each conductive wire of the plurality of conductive wires essentially continuously bonded directly to a corresponding one of the N-type and P-type semiconductor regions.
US11742438B2
A method for manufacturing a solar cell having a P-type silicon substrate wherein one main surface is a light-receiving surface and another is a backside, a plurality of back surface electrodes formed on a part of the backside, an N-type layer in at least a part of the light-receiving surface, and contact areas in which the substrate contacts the electrodes; wherein the P-type silicon substrate is a silicon substrate doped with gallium and has a resistivity of 2.5 Ω·cm or less; and a back surface electrode pitch Prm [mm] of contact areas in which the P-type silicon substrate is in contact with the back surface electrodes and the resistivity Rsub [Ω·cm] of the substrate satisfy the relation represented by the following formula (1). log(Rsub)≤−log(Prm)+1.0 (1)
US11742433B2
Disclosed is a floating gate memristor device comprising: a substrate; a floating gate disposed on the substrate; an insulating layer covering the floating gate; a first electrode including a plurality of control terminals disposed on the insulating layer and spaced apart from each other, wherein the plurality of control terminals vertically overlap the floating gate; a second electrode spaced away from the first electrode, wherein a ground voltage is applied to the second electrode; and a third electrode disposed on the substrate and electrically connected to the floating gate.
US11742427B2
The present disclosure provides a semiconductor device. The semiconductor device includes a substrate, having a plurality of fins on a surface of the substrate; a gate structure across the plurality of fins. The gate structure is located on a portion of a top surface and sidewall surfaces of the plurality of fins. The gate structure includes a first region and a second region on the first region. A bottom boundary of the second region is higher than the top surface of the plurality of fins. A size of the first region in an extending direction of the plurality of fins is smaller than a size of the second region in the extending direction of the plurality of fins.
US11742413B2
Reliability and performance of a semiconductor device are improved. First, a first mask pattern is formed on the semiconductor substrate in each of first to third regions. Next, a second mask pattern made of a material that is different from a material configuring the first mask pattern is formed on a side surface of the first mask pattern and on the semiconductor substrate in each of the first to third regions. Next, by an anisotropic etching process performed to the semiconductor substrate, a plurality of fins protruding from the recessed upper surface of the semiconductor substrate are formed. In the manner, fins each having a different structure from that of a fin in the first region can be formed in the second and third regions.
US11742408B2
A method of fabricating a cascode amplifier including a common-source device and a common-gate device includes performing one or more of ion implantation of a well of the common-source device, ion implantation of a source extension and/or drain extension of the common-source device, or a halo ion implantation of the common-source device with one or more of a different ionic species, a different dosage, a different energy, or a different tilt angle than a corresponding one or more of ion implantation of a well of the common-gate device, ion implantation of a source and/or drain extension of the common-gate device, or a halo ion implantation of the common-gate device.
US11742407B2
A integrated circuit structure comprises a fin extending from a substrate. The fin comprises source and drain regions and a channel region between the source and drain regions. A multilayer high-k gate dielectric stack comprises at least a first high-k material and a second high-k material, the first high-k material extending conformally over the fin over the channel region, and the second high-k material conformal to the first high-k material, wherein either the first high-k material or the second high-k material has a modified material property different from the other high-k material, wherein the modified material property comprises at least one of ferroelectricity, crystalline phase, texturing, ordering orientation of the crystalline phase or texturing to a specific crystalline direction or plane, strain, surface roughness, and lattice constant and combinations thereof. A gate electrode ix over and on a topmost high-k material in the multilayer high-k gate dielectric stack. A selector element is above the metal layer.
US11742405B2
The current disclosure describes techniques for forming gate-all-around (“GAA”) devices from stacks of separately formed nanowire semiconductor strips. The separately formed nanowire semiconductor strips are tailored for the respective GAA devices. A trench is formed in a first stack of epitaxy layers to define a space for forming a second stack of epitaxy layers. The trench bottom is modified to have determined or known parameters in the shapes or crystalline facet orientations. The known parameters of the trench bottom are used to select suitable processes to fill the trench bottom with a relatively flat base surface.
US11742396B2
An apparatus includes a first lateral diffusion field effect transistor (LDFET) having a first threshold voltage and that includes a first gate electrode, a first drain contact, a first source contact, and a first electrically conductive shield plate separated from the first gate electrode and the first source contact by a first interlayer dielectric. A second LDFET of the apparatus has a second threshold voltage and includes a second gate electrode, a second drain contact, and a second source contact. The second source contact is electrically connected to the first source contact of the first LDFET. A control circuit of the apparatus is electrically coupled to the first electrically conductive shield plate and is configured to apply to the first electrically conductive shield plate a first gate bias voltage of a first level to set the first threshold voltage of the first LDFET to a first desired threshold voltage.
US11742395B2
A method includes forming a gate dielectric comprising a portion extending on a semiconductor region, forming a barrier layer comprising a portion extending over the portion of the gate dielectric, forming a work function tuning layer comprising a portion over the portion of the barrier layer, doping a doping element into the work function tuning layer, removing the portion of the work function tuning layer, thinning the portion of the barrier layer, and forming a work function layer over the portion of the barrier layer.
US11742393B2
A semiconductor device includes a metal layer, an insulating layer disposed above the metal layer, and a multi-layer diffusion barrier disposed on the metal layer between the metal layer and the insulating layer. The multi-layer diffusion barrier includes a first material layer including a metallic nitride and a second material layer including a metallic oxide.
US11742392B2
A silicon carbide semiconductor device, including a semiconductor substrate, a first semiconductor layer provided on a first surface of the semiconductor substrate, a second semiconductor layer provided on a first surface of the first semiconductor layer, a third semiconductor layer provided on a first surface of the second semiconductor layer, a fourth semiconductor layer provided on a first surface of the third semiconductor layer, a plurality of first semiconductor regions of selectively provided in the fourth semiconductor layer at a first surface thereof, a gate electrode provided via a gate insulating film in the fourth semiconductor layer, between the first semiconductor regions and the third semiconductor layer, a first electrode provided on the first surface of the fourth semiconductor layer and surfaces of the first semiconductor regions, and a second electrode provided on a second surface of the semiconductor substrate. Protons are introduced into the second semiconductor layer and have a concentration of 1.0×1013/cm3 to 1.0×1014/cm3.
US11742389B2
A method for forming a semiconductor structure includes providing a substrate including a first region with a first gate structure and a second region with a second gate structure. First to third dielectric layers are formed on the substrate. The third dielectric layer is patterned to form a first portion in the first region and a second portion in the second region. The second region is covered and at least a portion of the first portion is removed to form a first mask. The second dielectric layer is pattern by using the first mask and the second portion as the second mask to expose a portion of the first dielectric layer. The portion of the first dielectric layer is removed to form a first stacked spacer on the first gate structure and a second stacked spacer on the second gate structure.
US11742385B2
A semiconductor structure includes a source/drain (S/D) feature; one or more channel semiconductor layers connected to the S/D feature; a gate structure engaging the one or more channel semiconductor layers; a first silicide feature at a frontside of the S/D feature; a second silicide feature at a backside of the S/D feature; and a dielectric liner layer at the backside of the S/D feature, below the second silicide feature, and spaced away from the second silicide feature by a first gap.
US11742380B2
A variety of applications can include memory devices designed to provide enhanced gate-induced-drain-leakage (GIDL) current during memory erase operations. The enhanced operation can be provided by enhancing the electric field in the channel structures of the topmost select gate transistors to strings of memory cells upon application of a voltage to the gates of the topmost select gate transistors. This electric field can be provided by using a dissected plug as a contact to the channel structure of the topmost select gate transistor, where the dissected plug has one or more conductive regions contacting the channel structure and one or more non-conductive regions contacting the channel structure. The dissected plug can be part of a contact between the data line and the channel structure. Additional devices, systems, and methods are discussed.
US11742366B2
The present technology relates to a solid-state imaging element and electronic equipment that allow an increase in the signal charge amount Qs that each pixel can accumulate. A solid-state imaging element according to the first aspect of the present technology includes: a photoelectric conversion section formed in each pixel; and an inter-pixel separation section separating the photoelectric conversion section of each pixel, in which the inter-pixel separation section includes a protruding section having a shape protruding toward the photoelectric conversion section. The present technology can be applied to a back-illuminated CMOS image sensor, for example.
US11742361B2
A display substrate, a method for manufacturing a display substrate and a display device are provided, and the display substrate includes: a base having a first surface, a second surface and a side surface, the base includes a display area and an epitaxial area; a driving functional layer in the display area and first binding electrodes in the epitaxial area on the first surface, the first binding electrodes are coupled with the driving functional layer; second binding electrodes located on the second surface and coupled with the first binding electrodes through side wirings; a portion of each side wiring is located on the side surface; a blocking wall on the first surface and in the epitaxial region, an orthographic projection of the blocking wall on the base at least passes through spacing regions between every two adjacent first binding electrodes along an arrangement direction of the first binding electrodes.
US11742358B2
A display panel is provided. The display panel according to an embodiment includes a thin film transistor glass substrate, a plurality of micro light emitting diodes (LEDs) arranged on one surface of the thin film transistor glass substrate, and a plurality of side wirings formed at an edge of the thin film transistor glass substrate to electrically connect the one surface of the thin film transistor glass substrate to an opposite surface to the one surface.
US11742356B2
Reduction in power consumption of a semiconductor device is achieved. The semiconductor device includes: a first circuit operating at a first power supply voltage and a second circuit operating at a second power supply voltage and including a level shift unit and a switch unit, the first circuit is configured of a low-breakdown-voltage n-type transistor that is an SOTB transistor, and the switch unit is configured of an n-type transistor that is an SOTB transistor. A second power supply voltage is higher than a first power supply voltage, and an impurity concentration of a channel formation region of the n-type transistor is higher than an impurity concentration of a channel formation region of the low-breakdown-voltage n-type transistor.
US11742353B2
A device includes a substrate, a channel layer, a gate structure, a source/drain epitaxial structure, and a bottom dielectric structure. The channel layer is over the substrate. The gate structure is over the substrate and surrounds the channel layer. The source/drain epitaxial structure is over the substrate and is connected to the channel layer. The bottom dielectric structure is between the source/drain epitaxial structure and the substrate.
US11742349B2
A method includes forming a first channel region, a second channel region, and a third channel region over a substrate, depositing a first interfacial layer over the first, second, and third channel regions, removing the first interfacial layer from the first and second channel regions, depositing a second interfacial layer over the first and second channel regions, thinning a thickness of the second interfacial layer over the first channel region, depositing a high-k dielectric layer over the first, second, and third channel regions, and forming a gate electrode layer over the first, second, and third channel regions.
US11742340B2
A semiconductor package includes a substrate; a sub semiconductor package disposed over the substrate, the sub semiconductor package including a sub semiconductor chip with chip pads on its active surface that faces the substrate, a sub molding layer that surrounds side surfaces of the sub semiconductor chip, the sub molding layer with a surface that faces the substrate, and redistribution conductive layers that connect to the chip pads and extend under the surface of the sub molding layer, wherein the redistribution conductive layers include a signal redistribution conductive layer that extends toward an edge of the sub molding layer, the signal redistribution conductive layer with a signal redistribution pad on its end portion, and a power redistribution conductive layer that has a length that is shorter than a length of the signal redistribution conductive layer, the power redistribution conductive layer with a power redistribution pad on its end portion; a signal sub interconnector with an upper surface that is connected to the signal redistribution pad and a lower surface that is connected to the substrate; a power sub interconnector with an upper surface that is connected to the power redistribution pad and a lower surface that is connected to the substrate; and at least one main semiconductor chip formed over the sub semiconductor package and electrically connected to the substrate.
US11742337B2
A radio-frequency module including a module substrate having a first main surface and a second main surface on opposite sides; a low-noise amplifier disposed on the second main surface; and a power amplifier circuit in a Doherty configuration. The power amplifier including a first phase circuit; a second phase circuit; a carrier amplifier disposed on the first main surface and including an input terminal connected to a first end of the first phase circuit and an output terminal connected to a first end of the second phase circuit; and a peaking amplifier disposed on the first main surface and including an input terminal connected to a second end of the first phase circuit and an output terminal connected to a second end of the second phase circuit.
US11742335B2
An electronic device is provided. The electronic device includes a driving substrate, a plurality of light-emitting units, and a protective layer. The light-emitting units are electrically connected to the driving substrate. The protective layer covers the light-emitting units, and the protective layer has a Young's modulus less than or equal to 20 MPa.
US11742325B2
A semiconductor device includes a first semiconductor die mounted on a substrate, a second semiconductor die mounted on the substrate and separated from the first semiconductor die, a first dielectric material between the first semiconductor die and the second semiconductor die and having a first density, and a column of second dielectric material in the first dielectric material, the second dielectric material having a second density different than the first density, and the second dielectric material including a void region.
US11742321B2
The present disclosure, in some embodiments, relates to a workpiece bonding apparatus. The workpieces bonding apparatus includes a first substrate holder having a first surface configured to receive a first workpiece, and a second substrate holder having a second surface configured to receive a second workpiece. A vacuum apparatus is positioned between the first substrate holder and the second substrate holder and is configured to selectively induce a vacuum between the first surface and the second surface. The vacuum is configured to attract the first surface and the second surface toward one another.
US11742318B2
A gang clip includes a plurality of clips formed from a metal each having a center region oriented along a first plane and an angled clip foot having a foot height, a length and a bend angle sufficient to electrically contact a lead terminal of the leadframe to be used to form a device. Adjacent ones of the plurality of clips are joined to one another by a first tie bar also oriented along the first plane. The first tie bar extends to a saw street region located between adjacent ones of the clips. A second tie bar attached to the first tie bar is positioned in the saw street region.
US11742317B2
A method includes encapsulating a device in an encapsulating material, planarizing the encapsulating material and the device, and forming a conductive feature over the encapsulating material and the device. The formation of the conductive feature includes depositing a first conductive material to from a first seed layer, depositing a second conductive material different from the first conductive material over the first seed layer to form a second seed layer, plating a metal region over the second seed layer, performing a first etching on the second seed layer, performing a second etching on the first seed layer, and after the first seed layer is etched, performing a third etching on the second seed layer and the metal region.
US11742313B2
An object of the present invention is to suppress electrical contact between an outer peripheral portion of an intermediate electrode and a front surface electrode of a semiconductor chip without increasing the area of the semiconductor chip. A facing surface of the first intermediate electrode facing a first main electrode is smaller than a facing surface of the first main electrode facing the first intermediate electrode, and has an outer peripheral protective region and a connection region surrounded by the protective region. A pressure-contact semiconductor device includes a plurality of first conductor films partially formed in the connection region, and a first insulating film formed in regions in the connection region where no first conductor films are formed and in the protective region.
US11742300B2
In one example, a semiconductor device comprises a substrate comprising a conductive structure, a first electronic component over the substrate, an encapsulant over the substrate and contacting a lateral side of the first electronic component, a shield over the encapsulant and contacting a lateral side of the encapsulant and a portion of a lateral side of the substrate, and a communication structure coupled with the substrate. The substrate comprises a vertical groove side and a horizontal groove side defining a groove in the substrate, wherein a portion of the groove is uncovered by the shield. Other examples and related methods are also disclosed herein.
US11742299B2
A determination apparatus has a calculation section, where first and second direction pitches intersecting within a predetermined plane of a plurality of detection areas are D1 and D2, respectively, sizes in the first and second directions of each of a plurality of divided areas arranged two-dimensionally along the first and second directions on a substrate are W1 and W2, respectively, and first and second direction pitches of a plurality of marks arranged on the substrate are p1 and p2, respectively, calculates pitch p1 and pitch p2 of the plurality of marks that satisfy formulas (a) and (b) below, based on pitch D1, pitch D2, size W1, and size W2. p1=D1/i (i denotes a natural number)=W1/m (m denotes a natural number) (a) p2=D2/j (j denotes a natural number)=W2/n (n denotes a natural number) (b)
US11742293B2
A multiple die package is described that has an embedded bridge to connect the dies. One example is a microelectronic package that includes a package substrate, a silicon bridge embedded in the substrate, a first interconnect having a first plurality of contacts at a first location of the silicon bridge, a second interconnect having a second plurality of contacts at a second location of the silicon bridge, a third interconnect having a third plurality of contacts at a third location of the silicon bridge, and an electrically conductive line in the silicon bridge connecting a contact of the first interconnect, a contact of the second interconnect, and a contact of the third interconnect each to each other.
US11742289B2
Various semiconductor chip metallization layers and methods of manufacturing the same are disclosed. In aspect, a semiconductor chip is provided that includes a substrate, plural metallization layers on the substrate, a first conductor line in one of the metallization layers and a second conductor line in the one of the metallization layers in spaced apart relation to the first conductor line, each of the first conductor line and the second conductor line has a first line portion and a second line portion stacked on the first line portion, and a dielectric layer that has a portion positioned between the first conductor line and a second line, the portion has an air gap.
US11742283B2
The present disclosure relates to semiconductor structures and, more particularly, to an integrated thin film resistor with a memory device and methods of manufacture. The structure includes a memory device in back end of line (BEOL) materials and a thin film resistor located in the BEOL materials. The thin film resistor includes electrical resistive material, and an insulator material over the electrical resistive material is thicker than insulator material over the memory device.
US11742272B2
A semiconductor device includes a film substrate, an adhesive on a first surface of the film substrate, an electronic component on the adhesive, a wiring layer on a second surface of the film substrate opposite from the first surface, and a reinforcement member in an area around the electronic component on the adhesive. The wiring layer is connected to the electronic component through a via hole piercing through the film substrate and the adhesive. The reinforcement member has a thickness smaller than the thickness of the electronic component.
US11742269B2
A semiconductor device includes a first die pad, a second die pad, a first semiconductor element, a second semiconductor element, an insulating element, first terminals, second terminals, and a sealing resin. The sealing resin has a top surface, a bottom surface, and first to third side surfaces. The first terminals include a first edge terminal located closest to the third side surface. The second terminals include a second edge terminal located closest to the third side surface. A first creepage distance, which is a shortest distance from the first edge terminal to the second edge terminal along the first side surface, the third side surface, and the second side surface, is shorter than a second creepage distance, which is a shortest distance from the first edge terminal to the second edge terminal along the first side surface, the bottom surface, and the second side surface.
US11742267B2
Methods, apparatuses and systems provide for technology that includes a transistor assembly for a power electronics apparatus having a plurality of transistor pairs arranged in a common plane, where for each pair of transistors one transistor is flipped relative to the other transistor. The technology further includes a first lead frame arranged parallel to and electrically coupled to the first transistor in each transistor pair, a second lead frame coplanar to the first lead frame and arranged parallel to and electrically coupled to the second transistor in each transistor pair, and a plurality of output lead frames arranged coplanar to each other, where each respective output lead frame is arranged parallel to and electrically coupled to a respective one pair of the plurality of transistor pairs.
US11742266B2
A method comprises removing a portion of molding compound from a side of a package structure by a laser ablation process to create an opening that exposes a portion of a conductive clip, depositing solder paste on the exposed portion of the conductive clip, and reflowing the solder paste. The laser ablation process in one example is a pulsed laser ablation process that includes raster scanning a laser along a portion of the side of the package structure to create the opening. Depositing the solder paste in one example includes performing a dispense process or a screening process that deposits solder paste in the opening onto the exposed portion of the conductive clip.
US11742262B2
A novel integrated circuit and method thereof are provided. The integrated circuit includes a plurality of first interconnect pads, a plurality of second interconnect pads, a first inter-level dielectric layer, a thin film resistor, and at least two end-caps. The end-caps, which are connectors for the thin film resistor, are positioned at the same level with the plurality of second interconnect pads. Therefore, an electrical connection between the end-caps and the plurality of second interconnect pads can be formed by directly connection of them. An integrated circuit with a thin film resistor can be made in a cost benefit way accordingly, so as to overcome disadvantages mentioned above.
US11742257B2
Methods and apparatus for processing flexible graphite sheet material involve patterning the material, on at least one major surface, prior to further processing of the material such as densification, lamination, folding or shaping into three-dimensional structures. For densification and lamination, the patterning is selected to facilitate the removal of air from the flexible graphite sheet material during the densification and lamination process. For folding or shaping, the patterning is selected to render the graphite sheet material more flexible. In some embodiments, methods for increasing the through-plane conductivity of flexible graphite sheet material are employed. Integrated heat removal devices include sheets of graphite material that have been selectively patterned in different regions to impart desirable localized properties to the material prior to it being shaped or formed into an integrated heat removal device. Coatings and/or resin impregnation can also be used to impart desirable properties to the material or device.
US11742249B2
A fabrication method for a semiconductor device includes measuring a thickness of a semiconductor substrate in which a bulk donor of a first conductivity type is entirely distributed, adjusting an implantation condition in accordance with the thickness of the semiconductor substrate and implanting hydrogen ions from a lower surface of the semiconductor substrate to an upper surface side of the semiconductor substrate, and annealing the semiconductor substrate and forming, in a passage region through which the hydrogen ions have passed, a first high concentration region of the first conductivity type in which a donor concentration is higher than a doping concentration of the bulk donor.
US11742247B2
A method of performing epitaxial growth of a source and drain on levels of a complementary field effect transistor (CFET) is provided. The method includes depositing a first blocking material in a vertical channel of an unfinished CFET structure, oxidizing silicon at a surface of an upper level of the CFET to provide one or more SiO2 protective layers, etching away a portion of silicon from a lower level of the CFET to form a lateral recess that is exposed to the vertical channel, and performing silicon epitaxial growth in the lower level of the unfinished CFET structure. Further, after the silicon epitaxial growth on the lower level, the method includes depositing a second blocking material in the vertical channel to cover at least a portion of the silicon epitaxial growth in the lower level, removing the SiO2 protective layer, and performing epitaxial growth on the upper level.
US11742243B2
A method for manufacturing a semiconductor device includes a step of preparing a semiconductor wafer source which includes a first main surface on one side, a second main surface on the other side and a side wall connecting the first main surface and the second main surface, an element forming step of setting a plurality of element forming regions on the first main surface of the semiconductor wafer source, and forming a semiconductor element at each of the plurality of element forming regions, and a wafer source separating step of cutting the semiconductor wafer source from a thickness direction intermediate portion along a horizontal direction parallel to the first main surface, and separating the semiconductor wafer source into an element formation wafer and an element non-formation wafer after the element forming step.
US11742230B2
A method of contaminant detection comprises exposing a wafer comprising one or more contaminants to microdroplets of an oxidizer to form an oxide on a surface of the wafer, exposing the oxide to an etchant to remove the oxide and leave the one or more contaminants on the surface of the wafer, and determining a composition of the one or more contaminants. Additional methods and related tools are also disclosed.
US11742223B2
A substrate processing apparatus comprises a processing tub and a fluid supply. In the processing tub, a processing is performed on multiple substrates by immersing the multiple substrates in a processing liquid. The fluid supply is disposed under the multiple substrates within the processing tub and configured to discharge a fluid to generate a liquid flow of the processing liquid within the processing tub. Further, the fluid supply includes multiple discharge paths configured to discharge the fluid to different regions in an arrangement direction of the multiple substrates.
US11742221B2
A dry cleaning apparatus includes a chamber, a substrate support supporting a substrate within the chamber, a shower head arranged in an upper portion of the chamber to supply a dry cleaning gas toward the substrate, the shower head including an optical window transmitting a laser light therethrough toward the substrate support, a plasma generator generating plasma from the dry cleaning gas, and a laser irradiator irradiating the laser light on the substrate through the optical window and the plasma to heat the substrate.
US11742219B2
An integrated fan-out package includes a first redistribution structure, a die, an insulation encapsulation, and at least one first through interlayer via. The first redistribution structure includes a dielectric layer, a feed line at least partially disposed on the dielectric layer and a signal enhancement layer covering the feed line, wherein the signal enhancement layer has a lower dissipation factor (Df) and/or a lower permittivity (Dk) than the dielectric layer. The die is disposed on the first redistribution structure. The insulation encapsulation encapsulates the die. The at least one first TIV is embedded in the insulation encapsulation and the signal enhancement layer.
US11742217B2
A device includes a polymer. A device die is disposed in the polymer. A passive device includes three Through Assembly Vias (TAVs) penetrating through the polymer, wherein the TAVs are coupled in series. A Redistribution Line (RDL) is underlying the polymer. The RDL electrically couples a first one of the TAVs to a second one of the TAVs.
US11742212B2
Methods for forming a vertical growth mask for use in etching applications are described herein. Disclosed embodiments include introducing a tungsten-containing deposition precursor and one or more carrier gases while igniting a plasma to deposit tungsten selectively on field regions of positive features of a patterned etch mask without substantial deposition on sidewalls of the positive features or on an exposed surface of a target layer underlying the patterned etch mask.
US11742207B2
A semiconductor device includes substrate, a first gate structure, a second gate structure, and an epitaxy layer. The first gate structure and the second gate structure are over the substrate, in which the first gate structure and the second gate structure each comprises a shielding electrode, a gate electrode over the shielding electrode, and a first gate dielectric layer vertically separating the shielding electrode from the gate electrode. The epitaxy layer is over the substrate and cups an underside of the first gate structure and the second gate structure, in which the epitaxy layer comprises a doped region laterally between the first gate dielectric layer of the first gate structure and the first gate dielectric layer of the second gate structure, a dopant concentration of the doped region being non-uniform along a lateral direction.
US11742202B2
A method for making a radio frequency (RF) semiconductor device may include forming an RF ground plane layer on a semiconductor-on-insulator substrate and including a conductive superlattice. The conductive superlattice may include stacked groups of layers, with each group of layers including stacked doped base semiconductor monolayers defining a doped base semiconductor portion, and at least one non-semiconductor monolayer constrained within a crystal lattice of adjacent doped base semiconductor portions. The method may further include forming a body above the RF ground plane layer, forming spaced apart source and drain regions adjacent the body and defining a channel region in the body, and forming a gate overlying the channel region.
US11742182B2
A control method of a plasma processing apparatus including a first electrode that places a workpiece thereon includes supplying a bias power to the first electrode, and supplying a source power having a frequency higher than that of the bias power into a plasma processing space. The source power has a first state and a second state. The control method further includes a first control process of alternately applying the first state and the second state of the source power in synchronization with a signal synchronized with a cycle of a radio frequency of the bias power, or a phase within one cycle of a reference electrical state that represents any one of a voltage, current, and electromagnetic field measured in a power feeding system of the bias power.
US11742177B2
Automated processing is provided. A charged particle beam apparatus includes: an image identity degree determination unit determining whether an identity degree is equal to or greater than a predetermined value, the identity degree indicating a degree of identity between a processing cross-section image that is an SEM image obtained through observation of a cross section of the sample by a scanning electron microscope, and a criterion image that is the processing cross-section image previously registered; and a post-determination processing unit performing a predetermined processing operation according to a result of the determination by the image identity degree determination unit.
US11742171B2
A method for imaging a sample by means of an X-ray detector is disclosed, including providing an electron beam interacting with a target to generate X-ray radiation emitted from an X-ray spot on the target, moving the sample relative to the target, deflecting the electron beam such that the X-ray spot is moved over the target simultaneously and in accordance with the movement of the sample, and detecting X-ray radiation emitted from the X-ray spot and interacting with the sample.
US11742169B2
An ultra-fast moving conductor for use with a circuit breaker is provided. The moving conductor includes a hollow outer stem and a removable core. Multiple removable cores are produced for use with the moving conductor for different purposes. The outer stem is produced from annealed copper that must be brazed before the circuit breaker is placed into operation, and a first removable core produced from copper is inserted into the outer stem to provide structural reinforcement to the outer stem during brazing. After brazing is complete, the copper core is removed from the outer stem, and a significantly lighter work hardened aluminum core is inserted into the outer stem. The lightweight aluminum core enables the moving conductor to open the circuit breaker much faster than the copper core would, and the copper core prevents contamination of the brazing furnace that would result from using the aluminum core during brazing.
US11742163B2
A welding detection device includes a first circuit including a detection element, a first circuit power supply, and a second circuit. The first circuit is connected to a first line connecting a power supply and a main relay and a second line connecting a load and the main relay. The first circuit power supply supplies DC power to the first circuit. The first circuit detects welding in the main relay based on whether or not a current from the first circuit power supply has flowed to the detection element through the main relay when the main relay is controlled to be in an open state from a closed state. The second circuit cuts off the first circuit only when the voltage difference is present between the first line and the second line while the main relay is controlled to be in an open state from a closed state.
US11742162B2
A MEMS/NEMS actuator based on a phase change material is described in which the volumetric change observed when the phase change material changes from a crystalline phase to an amorphous phase is used to effectuate motion in the device. The phase change material may be changed from crystalline phase to amorphous phase by heating with a heater or by passing current directly through the phase change material, and thereafter quenched quickly by dissipating heat into a substrate. The phase change material may be changed from the amorphous phase to a crystalline phase by heating at a lower temperature. An application of the actuator is described to fabricate a phase change nano relay in which the volumetric expansion of the actuator is used to push a contact across an airgap to bring it into contact with a source/drain.
US11742138B2
A method of manufacturing a wireless power reception apparatus includes: forming a lower tray that includes a thermally conductive material and accommodates and fix a coil winding; arranging a coil winding on the lower tray; forming a magnetic field shielding plate so as to accommodate and fix a plurality of magnetic tiles at predetermined intervals; forming a coupled member of a magnetic tiles-magnetic field shielding plate by arranging the plurality of magnetic tiles at the predetermined intervals on the magnetic field shielding plate; forming a thermally conductive polymer molding layer by applying a thermally conductive polymer molding solution to fill spaces between the coil winding and the coupled member of a magnetic tiles-magnetic field shielding plate and bonding the plurality of magnetic tiles and the coil winding such that the plurality of magnetic tiles are positioned over the coil winding; and curing the thermally conductive polymer molding layer.
US11742132B2
An electronic component includes an insulating layer that has a principal surface, a passive device that includes a low voltage pattern that is formed in the insulating layer and a high voltage pattern that is formed in the insulating layer such as to oppose the low voltage pattern in a normal direction to the principal surface and to which a voltage exceeding a voltage to be applied to the low voltage pattern is to be applied, and a shield conductor layer that is formed in the insulating layer such as to be positioned in a periphery of the high voltage pattern in plan view, shields an electric field formed between the low voltage pattern and the high voltage pattern, and suppresses electric field concentration with respect to the high voltage pattern.
US11742121B2
An Sm—Fe—N magnet material includes from 7.0 at % to 12 at % of Sm, from 0.1 at % to 1.5 at % of at least one element selected from the group consisting of Hf and Zr, from 0.05 at % to 0.5 at % of C, from 10 at % to 20 at % of N, and from 0 at % to 35 at % of Co, with a remainder being Fe and unavoidable impurities.
US11742119B2
Provided is a permanent magnet including a rare-earth element R (such as Nd), a transition metal element T (such as Fe), B, Zr, and Cu. The permanent magnet contains a plurality of main phase grains including Nd, T, and B, and grain boundary multiple junctions, the one grain boundary multiple junction is a grain boundary surrounded by three or more of the main phase grains, one of the grain boundary multiple junctions contains a ZrB2 crystal and an R—Cu-rich phase including R and Cu, Fe is contained in the ZrB2 crystal, a total concentration of Nd and Pr in the one grain boundary multiple junction containing both the ZrB2 crystal and the R—Cu-rich phase is higher than a total concentration of Nd and Pr in the main phase grain, a concentration of Cu in the one grain boundary multiple junction containing both the ZrB2 crystal and the R—Cu-rich phase is higher than a concentration of Cu in the main phase grain, and a unit of the concentration of each of Nd, Pr, and Cu is atomic %.
US11742103B2
A biological protection for closing an opening in a wall delimiting a radiation zone, this protection comprising at least one iris diaphragm with a base in the form of a flat disk carrying petals formed by plates having a triangular contour and made of a material protecting against ionising radiation. These petals are movable parallel to the base between an open state in which the petals delimit together a central aperture and a closed state in which the petals are closely joined to form together a continuous closed wall.
US11742102B2
A system for preparing a container holding radioactive waste for dry storage. In one aspect, the invention can be a system for preparing a container having a cavity loaded with radioactive elements for dry storage, the system comprising: a gas circulation system comprising a condenser module, a desiccant module, and a gas circulator module; the gas circulation system configured to form a hermetically sealed closed-loop path when operably connected to the cavity of the container; and means for adding and removing the desiccant module as part of the hermetically sealed closed-loop path.
US11742099B2
Nuclear reactors have very few systems for significantly reduced failure possibilities. Nuclear reactors may be boiling water reactors with natural circulation-enabling heights and smaller, flexible energy outputs in the 0-350 megawatt-electric range. Reactors are fully surrounded by an impermeable, high-pressure containment. No coolant pools, heat sinks, active pumps, or other emergency fluid sources may be present inside containment; emergency cooling, like isolation condenser systems, are outside containment. Isolation valves integral with the reactor pressure vessel provide working and emergency fluid through containment to the reactor. Isolation valves are one-piece, welded, or otherwise integral with reactors and fluid conduits having ASME-compliance to eliminate risk of shear failure. Containment may be completely underground and seismically insulated to minimize footprint and above-ground target area.
US11742093B2
A system trains a predictive model based on training data including records of non-public healthcare insurance claims and public healthcare fee schedule data. The system determines a multiplier for each of multiple healthcare facilities based on the predictive model. The system then receives, from a consumer device, a query for a particular cost estimate of a healthcare service provided by the multiple healthcare facilities. The query includes constraints for a preferred geographic region or a preferred insurer. The system predicts a first cost estimate for the healthcare service at a first healthcare facility based on a first multiplier and a second cost estimate for the healthcare service at a second healthcare facility based on second multiplier. The system then causes the consumer device to display query results including indications of the first and second cost estimates.
US11742068B2
A personal care device that is capable of two-way communication is provided. In some embodiments, the personal care device operates in a first mode and a second mode depending on whether a signal has been received from a networked computing device, thus allowing a single human-machine interface (HMI) device to both control the personal care device and to cause signals to be sent to the networked computing device. In some embodiments, the personal care device is configured to present media streamed from the networked computing device, and/or to stream audio detected by the personal care device to the networked computing device.
US11742066B1
A system to verify the identity of a recipient requesting fulfillment of a prescription for a pharmaceutical product includes a point-of-sale retail personal identification number entry device (pinpad) and a workstation that stop a transaction for the pharmaceutical product from proceeding in response to a request associated with a claim for dispensing the pharmaceutical product. A first input for data identifying a member of a rewards program is entered with the pinpad, and a second input for data identifying a recipient of the prescription is entered with the workstation. The workstation compares the data identifying the member of the rewards program against the data identifying the recipient of the prescription. If there is a match between the data identifying the member of the rewards program and the data identifying the recipient of the prescription, the pinpad and workstation allow the transaction for the pharmaceutical product to proceed.
US11742065B2
An example method comprises: performing a first intraoral scan of an oral cavity, the oral cavity including a dentition of a patient; identifying a first digital representation of dental anatomy associated with the dentition of the patient; causing the first digital representation of dental anatomy to be stored at an external storage location; appending, to a current data block of a main blockchain, a reference to a first data block of an auxiliary blockchain; appending, to the first data block of the auxiliary blockchain, an identifier of the external storage location; appending, to the current data block of the main blockchain, a first data item of the first digital representation of dental anatomy; appending, to the current data block of the main blockchain, a reference to a preceding data block of the main blockchain; and broadcasting the current data block of the main blockchain to a plurality of blockchain nodes.
US11742055B2
A testing apparatus comprises a tester comprising a plurality of racks, wherein each rack comprises a plurality of slots, wherein each slot comprises: (a) an interface board affixed in a slot of a rack, wherein the interface board comprises test circuitry and a plurality of sockets, each socket operable to receive a device under test (DUT); and (b) a carrier comprising an array of DUTs, wherein the carrier is operable to displace into the slot of the rack; and (c) an array of POP memory devices, wherein each POP memory device is disposed adjacent to a respective DUT in the array of DUTs. Further, the testing apparatus comprises a pick-and-place mechanism for loading the array of DUTs into the carrier and an elevator for transporting the carrier to the slot of the rack.
US11742051B2
Various implementations described herein refer to an integrated circuit having a first memory structure and a second memory structure. The first memory structure is disposed in a first area of the integrated circuit, and the first memory structure has first memory cells with first transistors. The second memory structure is disposed in a second area of the integrated circuit that is different than the first area, and the second memory structure has second memory cells with second transistors that are separate from the first transistors. The second transistors of the second memory cells are arranged to provide an output oscillating frequency for detecting variation of performance of the first transistors of the first memory cells.
US11742050B2
A method for detecting a reading error of a datum in memory. A binary word which is representative of the datum and an error correcting or detecting code is read by: reading a first part of the binary word stored at a first address in a first memory circuit; and reading a second part of the binary word stored at a second address in a second memory circuit. The first and second parts read from the first and second memory circuits, respectively, are concatenated to form a read binary word. The datum is then obtained by removing the error correcting or detecting code from the read binary word. A new error correcting or detecting code is calculated from the obtained datum and compared to the removed error correcting or detecting code to detect error in the obtained datum.
US11742048B2
A method for testing a memory area. The method includes jumping from a destination address to a source address, reading a data word at the source address after jumping to the source address, and examining the data word. The source address was determined based on a static test.
US11742036B2
Described are systems and methods for reducing maximum programming voltage in memory programming operations. An example memory device comprises: a memory array comprising a plurality of memory cells electrically coupled to a plurality of wordlines and a plurality of bitlines; and a controller coupled to the memory array, the controller to perform operations comprising: identifying one or more memory cells for performing a memory programming operation, wherein the memory cells are electrically coupled to a target wordline and one or more target bitlines; causing drain-side select gates and source-side select gates of the memory array to be turned off; causing unselected wordlines of the memory array to discharge to a predefined voltage level; and causing one or more programming voltage pulses to be applied to the target wordline.
US11742032B2
A semiconductor memory device includes first and second memory cell transistors between first and second select transistors, third and fourth memory cell transistors between third and fourth select transistors, a first word line for first and third memory cell transistors, a second word line for second and fourth memory cell transistors, first to fourth selection gate lines respectively for first through fourth select transistors, a bit line, and a source line. During a read operation, while a voltage applied to the second word line is boosted, voltages applied to the first word line and the third and fourth selection gate line are also boosted, after which the voltage applied to the first word line is lowered, and the third and fourth selection gate lines are discharged. After the time the third and fourth selection gate lines are discharged, voltages applied to the bit line and the source line are boosted.
US11742031B2
According to one embodiment, a memory system includes a semiconductor memory and a controller. The semiconductor memory includes first blocks including a memory cell capable of storing data of one bit, a second block including a memory cell capable of storing data of two or more bits. The semiconductor memory stores first data in a first latch circuit, and second data in a second latch circuit, and writes the first data into one of the first blocks in page units, and the second data into one of the first blocks in page units. The semiconductor memory writes data of at least two pages into the second block, using the first data stored in the first latch circuit and the second data stored in the second latch circuit.
US11742024B2
A memory device includes a column of at least three memory cells and a source line coupled to the source terminal of each memory cell. A source line driver is coupled to the source line, a voltage terminal, and a program voltage source and is switchable between a program operation, an erase operation, and a read operation.
US11742019B2
According to one embodiment, there is provided a nonvolatile semiconductor memory device including a cell array. The cell array includes an array of a plurality of string blocks. Among the plurality of local string blocks, one local string block includes a block selection transistor and remaining local string blocks do not include a block selection transistor. A gate terminal of the block selection transistor of the one local string block is connected to a block selection line. Signals of two word lines connected to two adjacent string blocks in the bit line direction are common signals. Signals of two block selection lines connected to the two adjacent string blocks are independent of each other.
US11742001B2
Various implementations described herein are related to a device having memory circuitry having an array of memory cells. The device may include output circuitry coupled to the memory circuitry, and the output circuitry may have a first set of multiplexers that receives column data from the array of memory cells and provides first multiplexed output data. The device may include output interface circuitry coupled to the output circuitry, and the output interface circuitry may have a second set of multiplexers that receives the first multiplexed output data from the output circuitry and selectively provides second multiplexed output data based on a configurable mode of multiplexed operation.
US11742000B2
A circuit module with improved line load, may comprise a first line, a first switch, a second line, a second switch and a second driver. The first switch may be on and off to conduct and stop conducting between the first line and a first node. The second switch may be on and off to conduct and stop conducting between the second line and the first node. The second driver, coupled to the second line, may be enabled to drive the second line according to a voltage of a second node, and may be disabled to stop driving the second line. The voltage of the second node may be controlled by a voltage of the first node. When the first switch is on, the second switch may be off. When the second switch is off, the second driver may be enabled.
US11741993B2
A method for generating calibration data useful for calibrating a plurality of tape cartridges includes the steps of selecting a subset of tape cartridges from the plurality of tape cartridges, the subset of tape cartridges having fewer tape cartridges than the plurality of tape cartridges; calibrating each of the subset of tape cartridges using a plurality of tape drives to generate global calibration data; selecting one of the plurality of tape cartridges that is not included within the subset of tape cartridges; and calibrating the one of the plurality of tape cartridges using the global calibration data generated via the calibrating of each of the subset of tape cartridges.
US11741983B2
System and method for detecting and identifying noises in a sound signal occurring during a call on a mobile device and selectively filtering and suppressing the noises in the sound signal are provided. In the mobile device, a processor is configured to receive a sound signal, detect noises in the received sound signal, identify the noises in the received sound signal, display the identified noises in a user interface (UI), receive a selection of the displayed identified noises from the UI, and filter the received selection of the displayed identified noises from the received sound signal. The processor may use a machine learning module with a neural network to detect and identify the noises in the received sound signal.
US11741979B1
Audio content may be played on multiple audio-enabled devices via a voice command issued by a user. The voice command is received at a first audio-enabled device and processed, via speech recognition, to identify the audio content to be played and the target devices on which the audio content is to be played. In addition, the voice command can also indicate the time periods associated with the audio playback to provide synchronized playback. Device set information can be used to determine if the first audio-enabled device shares audio functionality with the target devices. If shared functionality is confirmed, one or more commands are sent to the respective target devices to instruct the corresponding playback of the audio content.
US11741970B2
Methods, systems, and apparatus, including computer programs encoded on a computer storage medium, for determining hotword suitability. In one aspect, a method includes receiving speech data that encodes a candidate hotword spoken by a user, evaluating the speech data or a transcription of the candidate hotword, using one or more predetermined criteria, generating a hotword suitability score for the candidate hotword based on evaluating the speech data or a transcription of the candidate hotword, using one or more predetermined criteria, and providing a representation of the hotword suitability score for display to the user.
US11741966B2
Methods, systems, and apparatus, including computer programs encoded on a computer storage medium, for an automated calling system are disclosed. In one aspect, a method includes the actions of receiving audio data of an utterance spoken by a user who is having a telephone conversation with a bot. The actions further include determining a context of the telephone conversation. The actions further include determining a user intent of a first previous portion of the telephone conversation spoken by the user and a bot intent of a second previous portion of the telephone conversation outputted by a speech synthesizer of the bot. The actions further include, based on the audio data of the utterance, the context of the telephone conversation, the user intent, and the bot intent, generating synthesized speech of a reply by the bot to the utterance. The actions further include, providing, for output, the synthesized speech.
US11741965B1
A system is provided for determining a natural language output, responsive to a user input, using different speech personality profiles. The system may determine to user a particular language generation profile based at least in part on data relating to the user input and data corresponding to the response to the user input. The language generation profile may include different attributes that are used to determine the natural language output, such as, prosody, replacement words, injected words, sentence structure, etc.
US11741963B2
A method and system for providing captioned telephone service, the method comprising the steps of, initiating a first captioned telephone service call, during the first captioned telephone service call, creating a first set of captions using a call assistant, simultaneous with creating the first set of captions using a call assistant, creating a second set of captions using an automated speech recognition engine, comparing the first set of captions and the second set of captions using a scoring algorithm based on errors between the first and second sets of captions to generate a score for the second set of captions, in response to the score being within a predetermined threshold range, continuing the call using only the automated speech recognition engine to generate text and in response to the score being outside of the predetermined threshold range, continuing the call using a call assistant to generate captions.
US11741961B2
Determining whether, upon cessation of a second automated assistant session that interrupted and supplanted a prior first automated assistant session: (1) to automatically resume the prior first automated assistant session, or (2) to transition to an alternative automated assistant state in which the prior first session is not automatically resumed. Implementations further relate to selectively causing, based on the determining and upon cessation of the second automated assistant session, either the automatic resumption of the prior first automated assistant session that was interrupted, or the transition to the state in which the first session is not automatically resumed.
US11741956B2
A system for generating a response to a customer query includes a computing device configured to obtain a first dataset, including a plurality of first phrase-intent pairs associated with a first domain. Each first phrase-intent pair includes a first phrase and a corresponding first intent. The computing device is configured to retrieve a set of configuration rules to configure a plurality of environments. The computing device is also configured to configure a first environment using the first dataset and the set of configuration rules to determine a result user intent based on a requested query associated with the first domain. The first environment embeds the plurality of first phrase-intent pairs in a vector space based on the set of configuration rules. The computing device is configured to perform operations based on the first environment.
US11741954B2
Provided are a method and an apparatus for providing an intelligent voice response at a voice assistant device. The method includes obtaining, by a voice assistant device, a voice input from a user, identifying non-speech input while obtaining the voice input, determining a correlation between the voice input and the non-speech input, and generating, based on the correlation, a response comprising an action related to the correlation or a suggestion related to the correlation.
US11741939B2
An ear cup housing has several reference microphones, an error microphone and a speaker. A processor drives the speaker for acoustic noise cancellation and transparency, by processing the microphone signals, and performs an oversight process by adjusting the reference microphone signals in response to detecting wind noise events and scratch events. In another aspect, the ear cup housing has an outside face that is joined to an inside face by a perimeter and the reference microphones are on the perimeter. Other aspects are also described and claimed.
US11741938B2
There is provided a mechanism that enables cooperation of a plurality of audio processing devices. An earphone device includes a sensor unit that detects an overlapping state of the earphone device and a headphone device and a wireless communication unit that wirelessly communicates with the headphone device which is worn to overlap an outer side of the earphone device worn by a user.
US11741935B2
A host device configured to be wirelessly coupled to an accessory device, the host device comprising noise reduction circuitry, wherein, in use of the host device: a signal generated by a microphone of the accessory device in response to ambient noise is supplied to the noise reduction circuitry; the noise reduction circuitry applies a noise reduction transfer function to the signal supplied thereto to generate a noise cancellation signal; and the noise cancellation signal is supplied to at least one loudspeaker of the accessory device; and wherein the noise reduction transfer function applied by the noise reduction circuitry is user selectable or user adjustable.
US11741923B2
A device for detecting the grip pattern when playing a bowed instrument, having a sensor film arrangeable on the fingerboard for detecting the grip pattern. The sensor film is formed from at least one resistance layer, a conductive layer and a spacer layer arranged in-between, and having an evaluation circuit, by which evaluation circuit the resistance changes of the sensor film caused by the grip pattern are able to be detected. The resistance layer is divided into a number of resistance tracks corresponding to the number of strings of the bowed instrument. The width of each resistance track is formed increasing from one end of the sensor film to the other end of the sensor film, and the upper layer of the sensor film is formed by the conductive layer, and the sensor film has a curvature, corresponding to the arch of the fingerboard.
US11741916B2
Systems and methods are configured to adjust the timing of rendered frame scanout in response to fluctuations in a variable frame rate at which source frames are rendered.
US11741914B1
An array substrate and a display panel are disclosed in an embodiment of the present application. The array substrate includes a plurality of GOA units in cascade and a plurality of clock signal lines. The plurality of clock signal lines are arranged on one side of the GOA units and are arranged at intervals along a direction away from the GOA units. The plurality of GOA units are electrically connected to the plurality of clock signal lines, respectively. Wherein, a number of the GOA units electrically connected to each of the clock signal lines is equal. The array substrate reduces a resistance difference and a capacitance difference between the plurality of clock signal lines and alleviates a problem of dense horizontal lines by adjusting a number of stages of the GOA units.
US11741899B2
A display panel, a display driving method and a display pixel driving circuit therefor are provided. In the display driving method, the light emitting signal includes multiple pulse signals, and the variation trend of the pulse-off durations of the pulse signals is consistent with the variation trend of the light emitting brightness of the light emitting element during the light emitting period, that is, the pulse-off durations decreases sequentially with the decrease of the light emitting brightness of the light emitting element, or sequentially increases with the increase of the light emitting brightness of the light emitting element. Therefore, the flicker problem in the display panel when emitting light can be solved, and improving the image display quality.
US11741895B2
A light-emitting device in which variation in luminance of pixels is suppressed. A light-emitting device includes at least a transistor, a first wiring, a second wiring, a first switch, a second switch, a third switch, a fourth switch, a capacitor, and a light-emitting element. The first wiring and a first electrode of the capacitor are electrically connected to each other through the first switch. A second electrode of the capacitor is connected to a first terminal of the transistor. The second wiring and a gate of the transistor are electrically connected to each other through the second switch. The first electrode of the capacitor and the gate of the transistor are electrically connected to each other through the third switch. The first terminal of the transistor and an anode of the light-emitting element are electrically connected to each other through the fourth switch.
US11741892B2
Pixel circuit, display panel and display device are provided. The pixel circuit includes a driving module, a data writing module, a first reset module, a threshold compensation module, light emitting control modules, a leakage suppression module, a storage capacitor, a first capacitor, and a light emitting module. A first terminal of the first reset module is electrically connected to a reference signal terminal. A first terminal of the threshold compensation module is electrically connected to a second terminal of the driving module. A control terminal of the driving module is electrically connected to a first node. A second terminal of the first reset module and a second terminal of the threshold compensation module are both electrically connected to the first node through the leakage suppression module. A connection node between the leakage suppression module and the second terminal of the first reset module is a second node.
US11741878B2
A display device includes a plurality of pixels, a power supply, a voltmeter, and a timing controller. The power supply is configured to generate an initialization voltage to be supplied to a sensing pixel among the pixels. The voltmeter is configured to measure a first value of the initialization voltage supplied to the sensing pixel during an active period of a frame period and a second value of the initialization voltage supplied to the sensing pixel during a vertical blank period of the frame period. The timing controller is configured to generate rewrite image data that is supplied to the sensing pixel during the vertical blank period. The rewrite image data is generated from image data applied to the pixels during the active period and a difference between the first and second values.
US11741876B2
A display panel includes a pixel circuit and a light-emitting element. The pixel circuit includes a driving module. The driving module includes a driving transistor. A time period of one frame of the display panel includes a non-light-emitting stage and a light-emitting stage. The non-light-emitting stage includes a bias adjustment stage. A source or a drain of the driving transistor is configured to receive a bias adjustment signal in the bias adjustment stage. An operation state of the pixel circuit includes a first mode and a second mode. A time length of the non-light-emitting stage in the first mode is L1. A time length of the non-light-emitting stage in the second mode is L2. L1>L2. A time length of at least one sub-bias adjustment stage in a first frame is equal to a time length of at least one sub-bias adjustment stage in a second frame.
US11741873B2
To enable a better and more adjustable manner of HDR video display adaptation, applicants inventor contributed an image pixel luminance adaptation apparatus (500), comprising: a connection (501) to a comprised or connectable video decoder (207), which video decoder is arranged to receive an encoded high dynamic range image (Im_COD), which is encoded according to a first maximum codeable luminance (PB H), and which video decoder is arranged to receive metadata specifying at least one luma mapping function (F_ct; FL_50t1_1), which at least one luma mapping function specifies the offsets of luminances of a secondary image corresponding to the encoded high dynamic range image compared to the luminances of the same pixel positions as encoded in the encoded high dynamic range image, which secondary image has a second maximum codeable luminance (PB_S) which preferably is at least 4× smaller or larger than the first maximum codeable luminance (PB_H), and the video decoder being arranged to output a decoded high dynamic range image (Im_RHDR) and the luma mapping function; a display adaptation unit (401) arranged to receive a value of a display maximum luminance (PB_D) that a particular display can display as brightest pixel color, and an input luma mapping function, and the display adaptation unit being arranged to apply an algorithm which calculates at least one display adapted luma mapping function based on the input luma mapping function and the display maximum luminance (PD_D), wherein this at least one display adapted luma mapping function corresponds in shape to the input luma mapping function but lies closer to a 45 degree increasing diagonal of a graph of the input luma mapping function in perceptually uniformized axes, depending on the difference between the value of the display maximum luminance (PB_D) and the first maximum codeable luminance (PB_H) relative to the difference between the second maximum codeable luminance (PB_S) and the first maximum codeable luminance (PB_H); characterized in that the image pixel luminance adaptation apparatus comprises an alternative luma mapping function determination unit (502) arranged to determine an alternative luma mapping function (ALT_FL_50t1_1) and wherein the display adaptation unit (401) comprises a combination unit (503) which is arranged to combine the at least one luma mapping function (F_ct; FL_50t1_1) and the alternative luma mapping function (ALT_FL_50t1_1) into a combined luma mapping function (CMB_FL_50t1_1), and wherein the display adaptation unit is arranged to apply its algorithm on as input luma mapping function the combined luma mapping function; the image pixel luminance adaptation apparatus comprising a luma mapping unit (510) arranged to receive pixel lumas of the decoded high dynamic range image (Im_RHDR) and to apply to those pixel lumas the combined luma mapping function to obtain output lumas of an output image (Im_DA); the image pixel luminance adaptation apparatus comprising an output image or video communication cable or wireless channel, to which a display can be connected, and an output signal formatter (230) arranged to send the output image (Im_DA).
US11741872B2
A GOA circuit and a display panel are provided. The GOA circuit includes a first pull-down module for pulling down a voltage level of a current-stage gate driving signal, a second pull-down module for pulling down a voltage level of the first node, a third pull-down module for pulling down a voltage level of the second node, and a fourth pull-down module for pulling down the voltage level of the current-stage gate driving signal. The GOA circuit raises the effect of pulling down the current-stage gate driving signal.
US11741861B1
In an embodiment, an apparatus is disclosed that includes at least one processor configured to determine a target portion of an eye motion box and to identify a facet of a light-guide optical element that is configured to direct a light beam comprising at least a portion of an image field of view toward the target portion of the eye motion box. The at least one processor is configured to identify a display region of an image generator that is configured to inject the light beam into the light-guide optical element at an angle that, in conjunction with the identified facet, is configured to direct the light beam toward the target portion of the eye motion box. The at least one processor is configured to selectively activate the identified facet and the identified display region to direct the light beam toward the target portion of the eye motion box.
US11741857B2
In an aspect, a kit for applying a decoration to human skin is provided, and includes a sticker backing sheet with a sticker thereon and a coating backing sheet having a coating thereon. The sticker has first and second faces and adhesives on both faces. A first adhesive force between the first adhesive and human skin is greater than a second adhesive force between the second adhesive and the sticker backing sheet, thereby permitting the sticker to adhere to the skin while peeling off the sticker backing sheet therefrom. The coating is adhered to the coating backing sheet. A third adhesive force between the coating and the sticker is greater than a fourth adhesive force between the coating and the coating backing sheet, so the coating adheres to the sticker while peeling off the coating backing sheet. The coating does not adhere to skin.
US11741850B2
Disclosed herein are systems, media, and method for training machine learning algorithms to identify an existence of a characteristic, a probability of the existence of the characteristic, or both for each a plurality of students comprising collecting a first plurality and second plurality of concatenated answers, creating a first training set comprising the collected sets of concatenated answers, and training the machine learning algorithm in a first stage using the first training set.
US11741848B2
A computer based interactive system and method of diagnosing test taking errors for educational and psychological processes on a computer while a learner is taking an exam over the internet, when the learner arrives at a wrong answer to an exam question.
US11741844B2
A screenless smart toy device may be a block made of natural or wooden material and may include a transparent or semi-transparent panel allowing one or more LEDs, from within the smart toy device, to be visible when illuminated. The smart toy device may read RFID values from various objects, such as tiles having objects depicted thereupon and RFID tags embedded within, and play different sounds and/or illuminate its LEDs with different colors based on the RFID tag that was read. The smart toy device may operate in a variety of modes, such as in a play/explore mode, quiz mode, definition mode, etc. The smart toy device may be configured into different modes and/or language settings by use of a mode card or separate application.
US11741838B2
A system can receive a request for a service from a computing device of a given user of the network service, and select an entrance from multiple entrances for a geographic region associated with the request for the service. Based on the request, the system determines a vehicle stopping location for a driver of a vehicle that is to service the request, where the vehicle stopping location is the entrance for the geographic region. The system then transmits an instruction set to a computing device of the driver, where the instruction set indicates the vehicle stopping location for a vehicular portion of the service.
US11741831B2
An intersection warning system based on information fusion and a method thereof, the system includes an intersection sensing device, an intersection computing device, a user device and a cloud server. The cloud server receives and stores on-site sensing information output from the intersection computing device and determines whether user positioning coordinates are received from the user device, if so, the cloud server reads the on-site sensing information and at least one background information, and calculates a fusion risk assessment value based on the on-site sensing information, the at least one background information, and multiple weightings; when the cloud server determines the fusion risk assessment value is greater than a threshold value, a warning command is output to the user device which sends out warning messages according to the warning command.
US11741829B2
A method of providing traffic related information is provided. The method is performed in a device and comprises obtaining data relating to a first vehicle and data relating to a second vehicle, establishing a relative position between the first vehicle and the second vehicle based on the obtained data, and providing, to an entity in the first vehicle, information based on the established relative position. A corresponding device, computer program and computer program product are also provided.
US11741827B2
Methods, systems, and apparatus, including computer programs encoded on a computer storage medium, for automating bulk location-based actions in response to disaster events. A system obtains data defining zones related to different geographic locations and configures a set of preferences for each zone. One of the preferences is a command for responding to an event. The system detects a disaster event and determines that a location affected by the event is related to a zone defined at the system. The system obtains sensor data generated by a sensor in the zone that is connected to a monitoring system for the zone. The system generates an alert based on the sensor data and the command and provides the alert to a client device of an entity that manages properties in the zone. The alert provides an assessment of how the disaster event affects items at properties in the zone.
US11741817B2
The present systems and methods relate to a hand sanitizer system that includes a proximity detector, a dispensing system and an alarm feature, and is operative to identify potentially high risk hygiene situations corresponding to a person in proximity of the system failing to dispense antiseptic or other solution from the dispenser within a predetermined period of time after moving within a predetermined range of the detector.
US11741804B1
Systems and methods for redundant storage among networked video cameras are described. Video data for a group of video cameras in a backup cluster determined from a network topology is received by a peer video camera. A backup order of the backup cluster is received. The peer video camera sends its source video data for to a backup storage device located at a target peer video camera of the group of video cameras according to the backup order.
US11741793B2
Administrating a package of shuffled playing cards to prevent fraudulent card exchanges. The administrating system is configured to calculate places and a number of packages of shuffled playing cards at places of the backyard, the places of playing tables, places of carriers and the disposition place using information obtained by the loading step and unloading step and the administrating system calculates by every ID codes bases 1) places of packages registered by the registering step for registering to a data base of administrating system and a number of packages place by place from information obtained from the loading step and the unloading step. The administrating system is configured to recognize whether there is a lost package by comparing the information of all ID codes registered in registering steps with the ID codes at places of packages obtained at the calculating step from the loading step and the unloading step.
US11741787B2
In accordance with a method and system for facilitating redemption of monetary value gaming tickets, such as issued by a gaming device upon cash-out, a ticket is presented, such as to a redemption kiosk. If the ticket is validated and has a monetary value which includes a fractional currency value, then the player is presented a wagering game based upon a wager comprising at least the fractional currency value of the ticket or is provided entries into a game or promotional event, wherein winnings may be paid in a whole value as part of the ticket redemption or as separate prizes, whereby dispensing of fractional value, such as coins, may be avoided.
US11741786B2
A gaming machine having a number of reels. Each of the reels includes at least one special symbol that in either in an active state or a normal state. Each of the reels is in either a held state or a symbol collection state indicative of a number of special symbols currently collected. During a game, when the number of special symbols of a reel reaches a predetermined number, the special symbols on the reel are in an active state for a next play of the game. While in the active state, when a special symbol is selected for the reel, the reel is in a held state a subsequent play of the game.
US11741785B2
A gaming system includes an EGM having a horizontally mounted display device, a reader device configured to wirelessly detect tagged items. The EGM is configured to detect, using the reader device, the presence of a first tagged item and determine a tag identifier (ID) of the first tagged item. The EGM is also configured to transmit a tag detection message to a gaming support server and receive, from the gaming support server, a response message including an amount of play credits to be added to a credit meter of the EGM. The EGM is further configured to increment a first credit meter on the EGM by the amount of play credits identified in the response message and to conduct instances of game play of an electronic game on the display device, each instance of game play decrementing the first credit meter to enable play.
US11741780B2
A fraud detection system which detects fraud in a game of performing collection and redemption of chips in accordance with a win or lose result includes a camera which captures an image of chips contained in a chip tray of a dealer, an image analyzing apparatus which analyses the image captured by the camera to detect an amount of the chips contained in the chip tray, a card distribution device which determines a win or lose result of a game, and a control device which compares the win or lose result of the game and the amount of the chips contained in the chip tray before and after collection and redemption of the chips to detect fraud.
US11741773B2
The automated teller machine that conducts transactions by a customer operation is provided. The automated teller machine comprises a customer service part configured to receive customer operations; an input pocket; a media recognizer configured to recognize the medium; a first storage storing the medium; a discharge pocket configured to place the medium delivered from the first storage so that the customer can take the medium out; a first transport path that connect the input pocket, the media recognizer, the first storage, and the discharge pocket to transport the medium; a second storage storing a collected medium that is forgotten to be taken out from the discharge pocket by the customer; and a second transport path connecting the second storage to the first transport path, wherein the second storage is arranged above the first transport paths and on an opposite side of the customer service part.
US11741771B2
A target authentication device includes an electrode to detect an electrical signal associated with a user of the device. The electrical signal represents an authentication code for the device. An authentication receiver module is coupled to the electrode. The module receives the electrical signal from the electrode and determines whether the electrical signal matches a predetermined criterion to authenticate the identity of the user based on the electrical signal. An authentication module is also disclosed. The authentication module includes one electrode to couple an electrical signal associated with a user to a user of a target authentication device, the electrical signal represents an authentication code for the device. An authentication transmission module is coupled to the electrode. The authentication transmission module transmits the electrical signal from the electrode. A method of authenticating the identity of a user of a target authentication device also is disclosed.
US11741770B2
The invention relates to a passage device comprising: at least one passage traversable by at least one person along a passage direction; at least two sidewalls spaced from each other along a direction extending perpendicularly to the passage direction, the sidewalls being connected with each other, wherein the passage is bounded along the direction by the sidewalls, and at least one capturing device by means of which a body temperature of the person located in front of at least a partial area of the passage along the passage direction can be contactlessly captured, wherein the passage device, considered on its own, is formed as a structural unit assembled and mobile.
US11741765B1
A physical location access control system is configured to receive. via a network interface, a request to provide a temporary access right for a first physical location to a first user, the request providing an indication as to a first time period associated with the temporary access right. In response to determining that the requester has an access right to the first physical location for a second time period that comprises the first time period, a temporary access token corresponding to the first time period is created and the requester's access right to access the first physical location for the first time period is disabled. The temporary access token is transmitted to a device associated with the first user, enabling the first user to access the first physical location during the first time period.
US11741756B2
Systems and methods are presented for generating statistics associated with a performance of a participant in an event, wherein pose data associated with the participant, performing in the event, are processed in real time. Pose data associated with the participant may comprise positional data of a skeletal representation of the participant. Actions performed by the participant may be determined based on a comparison of segments of the participant's pose data to motion patterns associated with actions of interests.
US11741749B2
Described is a technique for optimization an image for facial detection. More specifically, described is a process of predicting the location of a face within an image and adjusting image settings based on at least a portion of the predicted location of the face. An image may be adjusted based on the characteristics of a metering region, which may be selected prior to performing facial detection. For example, the metering region may be a specified shape with dimensions equal to a certain percentage of the input image and placed at a specified location. The result of using such a metering region is that the image adjustments may be based on a portion of the face, and therefore, may be optimized for facial detection.
US11741742B2
A display apparatus with fingerprint identification module within the display region of the display apparatus comprises a first cover and a display module, the fingerprint identification module being between the two. The first cover defines a display region and a non-display region. The fingerprint identification module includes a first substrate, a touch unit, a fingerprint identification unit, a control unit, and a first dummy unit with a plurality of first dummy electrodes. The first dummy unit is coplanar with the fingerprint identification unit. The first dummy electrodes surround the fingerprint identification unit, and cooperate with the fingerprint identification unit to enable uniform light transmittance over the whole display region.
US11741741B2
According to an aspect, a detection device includes: a substrate; a plurality of photodiodes provided to the substrate and arranged in a first direction; a plurality of lenses provided so as to overlap the photodiodes; and a light-blocking layer provided between the photodiodes and the lenses and having a plurality of openings. More than one of the openings is provided in each of regions overlapping the respective photodiodes, and an arrangement direction of the openings in each of the regions overlapping the respective photodiodes is at an angle to the first direction.
US11741739B2
A display device may include: a first substrate including pixel areas; a circuit element layer disposed on a first surface of the first substrate, and including at least one conductive layer; a light emitting element layer disposed on the circuit element layer; pixels each including a circuit element and a light emitting element disposed on the circuit element layer and the light emitting element layer in a corresponding one of the pixel areas; a first light transmitting hole array layer including first light transmitting holes distributed in the circuit element layer; and a photo sensor array layer disposed on a second surface of the first substrate and configured to overlap with the first light transmitting hole array layer, the photo sensor array layer comprising photo sensors. The first light transmitting holes may include openings distributed in the at least one conductive layer.
US11741737B2
A package includes a sensor die, and an encapsulating material encapsulating the sensor die therein. A top surface of the encapsulating material is substantially coplanar with or higher than a top surface of the sensor die. A plurality of sensing electrodes is higher than the sensor die and the encapsulating material. The plurality of sensing electrodes is arranged as a plurality of rows and columns, and the plurality of sensing electrodes is electrically coupled to the sensor die. A dielectric layer covers the plurality of sensing electrodes.
US11741731B2
A parasite analysis system includes a pressure vessel configured to store a biological sample, an imaging cell connected to the pressure vessel, and a waste depository connected to the imaging cell. An input valve controls whether biological sample can flow from the pressure vessel into the imaging cell and an output valve controls whether biological sample can flow from the imaging cell into the waste depository. The parasite analysis system also includes a camera that captures a chronological set of images of a portion of the biological sample in the imaging cell and an image analysis system that analyzes the chronological set of images to generate an estimate of a number of parasites in the portion of the biological sample. Estimates for multiple portions of the biological sample may be generated and sampling techniques used to estimate the number of parasites in the entire biological sample.
US11741730B2
Disclosed herein are CPM support systems, as well as related apparatuses, methods, computing devices, and computer-readable media. For example, in some embodiments, a charged particle microscope computational support apparatus may include: first logic to, for each angle of a plurality of angles, receive an associated image of a specimen at the angle, and generate an associated scan mask based on one or more regions-of-interest in the associated image; second logic to, for each angle of the plurality of angles, generate an associated data set of the specimen by processing data from a scan, in accordance with the associated scan mask, by a charged particle microscope of the specimen at the angle; and third logic to provide, for each angle of the plurality of angles, the associated data set of the specimen to reconstruction logic to generate a three-dimensional reconstruction of the specimen.
US11741721B2
The disclosed technology provides solutions for detecting and localizing road signage, such as speed limit signs. A process of the disclosed technology can include steps for receiving a first set of sensor data comprising a signage feature, wherein the first set of sensor data is associated with a first location, receiving a second set of sensor data comprising the signage feature, wherein the second set of sensor data is associated with a second location, and determining a location of the signage feature based on the first location and the second location. Systems and machine-readable media are also provided.
US11741716B2
A method, a computer program code, an apparatus for processing environmental data of an environment of a vehicle, a driver assistance system, which makes use of such a method or apparatus, and an autonomous or semi-autonomous vehicle comprising such a driver assistance system. Depth data of the environment of the vehicle is received from at least one depth sensor of the vehicle. Furthermore, thermal data of the environment of the vehicle is received from at least one thermal sensor of the vehicle. The depth data and the thermal data are then fused to generate fused environmental data.
US11741715B2
Aspects of the invention include receiving a first instructional video describing a first method of using a function of a first software application; determining each step of the first method described in the first instructional video; determining, by the processor, a second method of using a first function of a second software application, wherein the first function of the first software application is substantially the same as the first function of the second software application; and creating a second instructional video describing each step of the second method.
US11741713B2
A method of detecting an action, an electronic device, and a storage medium. A method can include: performing a temporal action proposal on at least one target feature data obtained by a feature extraction on a plurality of target frame data of a target resource, so as to obtain at least one first candidate action proposal information; classifying target feature data corresponding to at least one first candidate action proposal interval included in the first candidate action proposal information, so as to obtain at least one classification confidence level corresponding to the at least one first candidate action proposal interval; and determining an action detection result for at least one action segment contained in the target resource according to the at least one classification confidence level corresponding to the at least one first candidate action proposal interval, wherein the action detection result includes an action category and an action period.
US11741703B2
Various examples are provided for data acquisition, processing, and output generation for use in analysis of a physical asset or a collection of physical assets of interest. In one example, a method includes providing a user information goal including user information for acquisition, processing, or output of data associated with a physical asset or collection of physical assets; and evaluating existing database information to determine whether all or part of the first user information goal can be substantially completed by retrieval and processing of an information set obtainable from existing database information. If the user information goal cannot substantially be completed using the information set, then a data acquisition plan configured to acquire data needed to substantially complete first user information goal can be generated. If the user information goal can be substantially completed using the information set, then the formation set can be processed to provide an output.
US11741694B2
Methods and systems for detecting a vertebral fracture within an x-ray. One method includes receiving a chest x-ray image and identifying a plurality of vertebrae represented in the chest x-ray image. The method further includes extracting a plurality of image patches from the chest x-ray image, each image patch of the plurality of image patches including a portion of the chest x-ray image representing one of the plurality of vertebrae identified in the chest x-ray image. The method further includes sequencing the plurality of image patches into an ordered sequence of image patches, and assigning, with a deep learning model applied to the ordered sequence of image patches, a classification to each of the plurality of image patches indicating whether the image patch represents a fractured vertebra or an unfractured vertebra.
US11741690B2
The present disclosure discloses a method for generating a parking model, an electronic device and a storage medium, and relates a field of autonomous parking technologies. The detailed implementing solution includes: obtaining multiple sample sets; constructing a parking cruise space for the target vehicle based on each sample set, and extracting a first parking trajectory corresponding to each sample set from each parking cruise space; recognizing an abnormal position on each first parking trajectory, and deleting driving data corresponding to the abnormal position from a sample set corresponding to each first parking trajectory to obtain target sample data in each sample set; and performing model training based on the target sample data in each sample set to generate a target parking model.
US11741683B2
An apparatus comprising: an obtaining unit configured to obtain target data as a result of discrimination of each portion of input data performed by a discriminator having learned in advance by using existing labeled data; a setting unit configured to set each portion of the target data, which is effective for additional learning of the discriminator, as local data; a determining unit configured to determine not less than one partial region of the target data, which accepts labeling by a user, based on a distribution of the set local data in the target data; and a display control unit configured to cause a display unit to display the determined not less than one partial region.
US11741674B1
In an aspect, a computer-implemented method allows for navigation in a three-dimensional (3D) virtual environment. In the method, data specifying a three-dimensional virtual space is received. A position and direction in the three-dimensional virtual space is received. The position and direction input by a first user and representing a first virtual camera used to render the three-dimensional virtual space to the first user. A video stream captured from a camera positioned to capture the first user is received. A second virtual camera is navigated according to an input of a second user.
US11741673B2
Systems and methods are described for mirroring 3D content from a first display (which may be a handheld 2D display) to a second display (which may be a 3D display, such as a light field display). The 3D content is initially displayed (e.g. as a 2D projection) on a the first display. The relative positions and/or orientations of the first and second displays are determined. The position of a user viewing the content may also be determined or may be inferred from the position and orientation of the first display. The second display is provided with information used to display the 3D content with a size and/or orientation that preserves the original apparent size and/or apparent orientation of that content from the perspective of the user.
US11741657B2
An image processing method includes: determining an area to be processed according to a line feature in an image frame to be processed; building a space model according to the image frame to be processed; and embedding a special effect material to be embedded into the area to be processed according to the space model, to generate a special effect image frame.
US11741653B2
A method of tiled rendering of an image for display is provided which comprises receiving an image comprising one or more three dimensional (3D) objects and executing a visibility pass for determining locations of primitives of the image. The method also comprises executing, concurrently with the executing of the visibility pass, front end geometry processing of one of the primitives determined, from the visibility pass, to be in a first one of a plurality of tiles of the image and executing, concurrently with the executing of the visibility pass, back end processing of the one primitive in the first tile.
US11741649B2
The disclosed computer-implemented method may include establishing a virtual boundary for a virtual-world environment in reference to a real-world environment, and determining whether the virtual boundary requires a correction. The method may include providing, in response to determining that the virtual boundary requires the correction, and alert and, in response to the alert, receiving a request from a user to modify the virtual boundary. The method may further include monitoring, in response to the request from the user, an orientation of a direction indicator to generate orientation data, and modifying the virtual boundary based on the orientation data. Various other methods, systems, and computer-readable media are also disclosed.
US11741637B2
A method and apparatus for coding information of a point cloud may be performed by at least one processor and comprises: obtaining the point cloud including a set of points in a three-dimensional space; partitioning the point cloud into a tree structure comprising a plurality of nodes at different depths; encoding geometry information of the nodes; and encoding attribute information of the nodes before the entire point cloud is partitioned.
US11741633B2
Disclosed are apparatuses, systems, and techniques to render images depicting light interacting with media that have volume attenuation, using optimized spectral rendering that emulates rendering of the media in tristimulus color rendering schemes.
US11741631B2
The presented invention includes the generation of cloud points, the identification of objects in the cloud points, and, in this case, finding the positions of objects in cloud points. In addition, the invention includes capturing images, data streaming, and digital image processing in different points of the system, and calculation of the position of objects. The invention includes the usage of cameras of mobile smart devices, smart glasses, 3D cameras, but not necessarily. The data streaming provides video streaming and sensor data streaming from mobile smart devices. The presented invention further includes cloud points of buildings in which the positioning of separated objects could be implemented. It also consists of the database of cloud points of isolated objects which help to calculate the position in the building. Finally, the invention comprises the method of objects feature extraction, comparing in the cloud points and position calculation.
US11741623B2
A depth calculation processor, a data processing method, and a 3D image device are disclosed herein. The depth calculation processor includes: at least two input ports configured to receive a first image data, wherein the first image data comprises at least a structured light image acquired under projection of a structured light; a data processing engine configured to perform a calculation process on the first image data to output a second image data, wherein the second image data comprises at least a depth map, wherein the data processing engine comprises at least a depth processing engine configured to perform a depth calculation process on the structured light image to obtain the depth map; and at least an output port coupled to the data processing engine and configured to output the second image data to a host device.
US11741613B2
In part, the disclosure relates to methods, and systems suitable for evaluating image data from a patient on a real time or substantially real time basis using machine learning (ML) methods and systems. Systems and methods for improving diagnostic tools for end users such as cardiologists and imaging specialists using machine learning techniques applied to specific problems associated with intravascular images that have polar representations. Further, given the use of rotating probes to obtain image data for OCT, IVUS, and other imaging data, dealing with the two coordinate systems associated therewith creates challenges. The present disclosure addresses these and numerous other challenges relating to solving the problem of quickly imaging and diagnosis a patient such that stenting and other procedures may be applied during a single session in the cath lab.
US11741608B2
An example method for automating a quality assessment of digital fundus image can include: obtaining a digital fundus image file; analyzing a first quality of the digital fundus image file using a model to estimate an optimal time to capture a fundus image; and analyzing a second quality of the digital fundus image file using the model to estimate a disease state.
US11741601B2
Systems and methods for analyzing perfusion-weighted medical imaging using deep neural networks are provided. In some aspects, a method includes receiving perfusion-weighted imaging data acquired from a subject using a magnetic resonance (“MR”) imaging system and modeling at least one voxel associated with the perfusion-weighted imaging data using a four-dimensional (“4D”) convolutional neural network. The method also includes extracting spatio-temporal features for each modeled voxel and estimating at least one perfusion parameter for each modeled voxel based on the extracted spatio-temporal features. The method further includes generating a report using the at least one perfusion parameter indicating perfusion in the subject.
US11741595B2
A drug screening system and methods of using the same are disclosed. The drug screening system identifies and highlights drugs or other contraband substances enclosed within mailpieces based on score imagery computed from selected wavelengths based on chemical signatures. A wide-field, multispectral short-wave infrared imaging system allows for dissolved, concealed drug screening of mailpieces that improve inspection efficiency and accuracy.
US11741591B2
Provided are a method and an apparatus for detecting a thickness of paper, and a storage medium. The method includes: acquiring a first thickness image of a target paper; extracting at least one first thickness feature and at least one second thickness feature from the first thickness image in the first thickness image; performing average processing on gray values of multiple pixel points in the at least one first thickness feature to acquire a first gray value, and the average processing is performed on gray values of the multiple pixel points in the at least one second thickness feature to acquire a second gray value; when the first gray value is smaller than the second gray value of multiple pixel points in at least one second thickness feature, determining that a thickness of a region, corresponding to the at least one second thickness feature, on the target paper has changed.
US11741589B2
An electronic data processor is configured to estimate a spatial region of interest of plant pixels of one or more target plants in the obtained image data for a harvestable plant component and its associated harvestable plant component pixels of the harvestable plant component. The electronic data processor is configured to identify the component pixels of a harvestable plant component within the obtained image data of plant pixels of the one or more target plants. An edge, boundary or outline of the component pixels is determined. The data processor is configured to detect a size of the harvestable plant component based on the determined edge, boundary or outline of the identified component pixels. A user interface is configured to provide the detected size of the harvestable plant component for the one or more target plants as an indicator of yield of the one or more plants or standing crop in the field.
US11741584B2
A method for correcting distorted image and apparatus thereof are provided. In the method, an image device acquires a first pattern image and a controller generates a relationship table between the first pattern image and an original pattern image. The image device acquires a second pattern image. The controller corrects each pixel content of the second pattern image based on the relationship table to create a correction image corresponding to the second pattern image.
US11741583B2
A face image processing method and apparatus, an electronic device, and a storage medium are provided. The method includes: obtaining face key points and a face deflection angle in a face image; determining a submalar triangle center in the face image according to the face key points and the face deflection angle; determining a submalar triangle region in the face image according to the face key points and the submalar triangle center; and performing color filling on the submalar triangle region. By means of the present disclosure, a submalar triangle region can be accurately positioned, and submalar triangle filling is performed based on the accurately positioned submalar triangle region, thereby obtaining a more natural filling effect.
US11741576B2
Provided is an operation method of an image signal processor (ISP) configured to perform signal processing on a raw image received from an image device, the operation method including generating a plurality of multi-scale images based on an input image, the plurality of multi-scale images having resolutions that are different from each other, iteratively performing a fast global weighted least squares (FGWLS) based operation on each of the plurality of multi-scale images to generate a final illuminance map, and outputting an enhanced image based on the final illuminance map and the input image.
US11741569B2
A computer-implemented method and system compresses CT reconstruction images and can include: receiving a volumetric density file including one or more voxels; replacing one or more voxel density values below an air density value with the air density value; replacing one or more voxel density values above a material density value with the material density value; determining one or more voxels of interest; replacing one or more non-interesting voxel density values below a material surface density with the air density value; replacing one or more non-interesting voxel density values above the material surface density with the material density value; quantizing all voxels to provide a reduced volume image; and compressing the reduced volume image to provide a compressed volume image.
US11741559B1
In accordance with embodiments disclosed herein, there is provided systems, apparatuses, and methods for customer relationship management (CRM) with geospatial tools. A server device receives a request to display a map image via a graphical user interface (GUI). The server device accesses a data store to retrieve property data items corresponding to the map image. The server device generates and assigns, for each of the property data items, a property quadkey. The server device filters, using a first map quadkey of the map image, the property data items to obtain two or more property data items. The server device aggregates the two or more property data items into an aggregate property marker and generates an aggregate quadkey for the aggregate property marker. The server device transmits a response to cause the user device to display, via the GUI, the aggregate property marker overlaid on the map image.
US11741557B2
A system and method for biomarker-based personalized food item design. The system is a cloud-based network containing an API connector, portals for restaurants and patrons, to enter their information, and machine learning engine which creates a unique dietary experience for patrons based on a multitude of variables associated with the business enterprises, user biomarker data, a user specific biomarker goal, dietary needs, ingredient information, and preferences both explicit and inferred. The system may be accessed through web browsers or purpose-built computer and mobile phone applications.
US11741553B2
Systems and methods for automatic classification of loan refinancing interactions and outcomes are disclosed. An example system may include a data collection circuit to collect a training set of loan interactions between entities, wherein the training set of loan interactions comprises a set of loan refinancing activities and a set of loan refinancing outcomes; an artificial intelligence circuit to classify the set of loan refinancing activities, wherein the artificial intelligence circuit is trained on the training set of loan interactions; and a robotic process automation circuit to perform a second loan refinancing activity on behalf of a party to a second loan, wherein the robotic process automation circuit is trained on the set of loan refinancing activities and the set of loan refinancing outcomes.
US11741549B1
Systems and methods provide for a computerized system for quoting home owners insurance and providing a more consultative way of delivering insurance quotes and insurance quote information. The system may present insurance consumers with an automated process of asking questions and receiving feedback. Based on the feedback, the system may provide insurance options and explanations of those options enabling consumers to make a decision that best fits their personal situation. For example, systems and methods are directed to determining and providing a deductible that fits a user based on the user's tolerance for risk and cash position. The system may also provide a description of the types of risks and damages that are covered by particular insurance coverages. The system may also provide an analysis of the insurance obtained by similarly situated individuals. The system may also provide descriptions of insurance features.
US11741545B2
Method and systems for monetizing financial brokerage accounts are disclosed. One aspect for certain embodiments includes mining data from financial brokerage accounts and monetizing the mined data and providing to the customer an unlimited number of free trades for an unlimited period of time.
US11741544B2
A quantity modifier and a price modifier are provided for a spread trading strategy having a desired spread price and a desired spread quantity. According to an example embodiment, a quantity modifier divides the desired spread quantity into a plurality of disclosed spread quantities. Once the disclosed quantities are determined, a plurality of disclosed spread orders having the disclosed spread quantities are sequentially submitted to the market until the full desired spread order quantity is executed or until a predefined condition is detected. A price modifier determines a price level for each disclosed spread quantity, such that each disclosed spread order may be submitted at a different price level.
US11741540B2
This disclosure describes, generally, methods and systems for exchanging alternative currencies. The method includes creating, at an alternative currency platform, a plurality of user accounts and receiving, from a first user in the plurality of user accounts, an alternative currency exchange offer. The alternative currency exchange offer includes one or more offer terms and associated assets. Furthermore, the method includes extending the alternative currency exchange offer from the first user to the second user, in response to receiving acceptance of the offer from the second user, verifying the associated assets of the first user and the second user, and in response to verification of the assets of the first user and second user, providing settlement of the alternative currency exchange offer.
US11741536B2
A system and method for redirecting a financial transaction from one account held by a customer at a first issuer to a second account held by the customer at a second issuer comprising receiving a customer request for redirection, identifying the second account to which transactions should be redirected, providing redirection information to a transaction entity, receiving terms for a financial transaction, and performing the financial transaction with respect to the second account.
US11741529B2
A non-transitory computer-readable medium is configured to store instructions executable by one or more processors to perform operations including independently processing, by each of a first processor and a second processor, audio data relating to one or more orders, determining whether the first processor has supplied a first indication to perform first language processing of the audio data, and selecting a result of second language processing of the audio data from the second processor in response to determining that the first system has not supplied the first indication. The first processor is configured to perform one or more of the first language processing, first transcription processing, or first entity recognition processing. The second processor is configured to perform one or more of second language processing of higher quality than the first language processing, second transcription processing of lower quality than the first transcription processing, or second entity recognition processing.
US11741527B1
Disclosed is a web 3.0 orchestration system that creates a token economy through which customers are able to establish relationships and purchase physical and digital goods and services from any merchant at any place without having to access the physical or digital storefront of the merchant. The orchestration system may receive a triggering event from a user device, may compile user data from user profiles that are associated with the user device, and may select a distributed set of smart contracts defined by different merchants based on the triggering event. The orchestration system may execute the distributed set of smart contracts using the user data as inputs, may select offerings from a set of merchants based on the output generated from executing the smart contracts, and may present the offerings to the user device as part of facilitating a transaction between the user device and any of the merchants.
US11741526B2
A shopping support device includes a memory, a reading device, a network interface, and a processor. The processor is configured to, upon reading of a first code with the reading device at a store, decode the first code and acquire and, then store in the memory, first and second parameter values, and then control the network interface to connect to a store network using the first parameter value. Upon the reading of a commodity ID for a commodity with the reading device, the commodity ID is transmitted to a store server via the store network for registration. Upon receipt of a request from a user, checkout processing is performed based on the registered commodity ID on the server and the second parameter value.
US11741520B2
Systems and methods to provide transaction-related insight information for an establishment. In some aspects of the present disclosure, a digital image captured at a location of a user can be received. The digital image can be analyzed to identify an establishment. Transaction data between customers and the establishment can be retrieved. Transaction-related insight information about the establishment can be generated based on the data. The transaction-related insight information can be provided to the user.
US11741519B2
A system for selecting and packaging a customized variety pack including an assortment of products including one or more servers configured to receive a custom order from a consumer for single serve coffee pods. The custom order comprises details specifying a total number of single serve coffee pods to include in the variety pack and a number of each of a plurality of different varieties of single serve coffee pods to include in the variety pack. The system further includes a labeling device configured to receive custom order information from the one or more servers, print a label with the custom order information, and attach the label to a box. The system further includes a packing machine configured to scan the label on the box, retrieve from the one or more servers the details for the variety pack, and deposit individual coffee pods into the box according to the details.
US11741516B2
A browser extension may insert code into a document used to generate a web page. For example, the browser extension may detect that the web page is associated with an entity that is associated with one or more delivery estimates. The browser extension may transmit web page information that identifies the entity associated with the web page and/or a date threshold determined based on user input provided to or stored by the browser extension. The browser extension may receive presentation information that identifies a plurality of delivery estimates for a plurality of entities based on transmitting the web page information. The browser extension may insert the code into the document used to generate the web page based on the presentation information. The code may cause an estimated delivery date and/or an indication of whether the date threshold can be satisfied to be provided for display via the web page.
US11741494B2
Systems and methods for organizing and controlling the display of content, then measuring the effectiveness of that content in modifying behavior, within a particular temporal and special dimension, so as to minimize or eliminate confounding effects.
US11741488B1
A system and method directs promotional information, such as coupons of possible interest to a user, when they release their cloud-stored print job from a multifunction peripheral at their selected location. The user is identified, along with their location, and promotional information of possible relevance to the user is displayed on the multifunction peripheral touchscreen. Information selected by the user will be printed out along with their released print job. Businesses register and store their promotional information with the cloud print server, and may be assessed a fee when their literature is printed.
US11741478B1
Technology for determining an insurance fraud risk associated with a user comprises receiving, at an enterprise, a call or a chat from a user device associated with the user. Data associated with the call or the chat is analyzed to determine if at least one factor indicating fraud is present. A weighted level of possible fraud associated with the at least one factor is determined. The weighted level of possible fraud is compared to at least one weight threshold. The user is identified as an increased fraud risk based on the weighted level of possible fraud meeting or exceeding the at least one weight threshold.
US11741476B2
Method, device, and system of detecting a mule bank account, or a bank account used for terror funding or money laundering. A method includes: monitoring interactions of a user with a computing device during online access with a bank account; and based on the monitoring, determining that the bank account is utilized as a mule bank account to illegally receive and transfer money, or is used for money laundering or terror funding. The method takes into account one or more indicators, such as, utilization of a remote access channel, utilization of a virtual machine or a proxy server, unique behavior across multiple different accounts, temporal correlation among operations, detection of a set of operations that follow a pre-defined mule account playbook, detection of multiple incoming fund transfers from multiple countries that are followed by a single outgoing fund transfer to a different country, and other indicators.
US11741462B2
A system of electronic communication is disclosed. The system may: create a Pre-Authentication Transaction Number (Pre-ATN) by combining a number with a Special Encode Value (SEV), wherein the SEV is a single digit integer value; encrypt the Pre-ATN using a Format Preserving Encryption (FPE) to generate an encrypted Authentication Transaction Number (ATN); and send the encrypted ATN to an access control server (ACS) to use the encrypted ATN to generate a cardholder Authentication Verification Value (CAVV) or an Accountholder Authentication Value (AAV).
US11741461B2
A method for implementing non-repudiation of payment in a payment managing server includes receiving, from a user terminal, a terminal public key of a pair of asymmetric keys generated by the user terminal, receiving user authentication information, the user authentication information having been generated by a user authentication server and transmitted to the user terminal, storing the received terminal public key when validity of the user authentication information is confirmed through a communication with the user authentication server, receiving a payment request from the user terminal, receiving, from the user terminal, electronic signature information that has been encrypted with a terminal private key of the pair of asymmetric keys and decrypting the electronic signature information using the stored terminal public key, is provided.
US11741456B1
A first device may be used to complete a transaction by receiving information for completing a transaction between a first entity associated with the first device and a second entity associated with a second device, causing a payment to be made to the second entity by communicating with a third device via a communications network, receiving an encrypted payment confirmation from the third device, and providing the encrypted payment confirmation to the second device, thereby completing the transaction.
US11741451B2
A dynamic receipt generating (DRG) computing device for dynamically generating customized transaction records is provided. The DRG computing device includes at least one processor in communication with at least one memory device. The DRG computing device is configured to receive user preference data including dynamic receipt preference data, and a payment account identifier associated with a user. The DRG computing device is also configured to store the user preference data in memory and to receive real-time transaction data associated with a purchase made by the user using a payment account associated with the payment account, the real-time transaction data being in a first format. The DRG computing device is further configured to retrieve the user preference data from the memory based on the payment account identifier. The DRG computing device is configured to generate a dynamic receipt based on the real-time transaction data and the retrieved user preference data associated with the payment account identifier, the dynamic receipt having a second format different from the first format, and to transmit the generated dynamic receipt to the user.
US11741441B2
Systems and methods are provided for processing credit token and debit token based transactions in a blockchain supported network.
US11741434B2
A method includes presenting, in a user interface of an electronic calendar application, a plurality of calendar events and a plurality of calendar event categories, wherein each calendar event of the plurality of calendar events is associated with one or more of the plurality of categories; receiving, via the user interface of the electronic calendar application, a user selection of a first calendar event category of the plurality of calendar event categories; identifying among the plurality of calendar events, one or more calendar events associated with the first calendar event category; and adjusting an appearance of each the identified calendar events associated with the first calendar event category to distinguish the identified calendar events from other calendar events presented in the user interface of the electronic calendar application.
US11741431B2
Example methods, apparatus, and articles of manufacture for monitoring use by a user of a portable research device in accordance with at least one predetermined use criterion are disclosed. The disclosed examples include passively gathering data for assessing an identity of a user of the portable research device, processing the passively gathered data to produce assessment data indicating a possibility that the user is not a predetermined correct user of the portable research device, based on the assessment data, displaying a message to the user requesting a response from which the user's identity may be determined, and processing a response to the message to produce data indicating whether the user is the predetermined correct user.
US11741429B2
A method, system and computer-readable storage medium for performing a cognitive information processing operation. The cognitive information processing operation includes: receiving data from a plurality of data sources; processing the data from the plurality of data sources to provide cognitively processed insights via an augmented intelligence system, the augmented intelligence system executing on a hardware processor of an information processing system, the augmented intelligence system and the information processing system providing a cognitive computing function; performing an explainability with recourse operation, the explainability with recourse operation providing an assurance explanation regarding the cognitive computing function; and, providing the cognitively processed insights to a destination, the destination comprising a cognitive application, the cognitive application enabling a user to interact with the cognitive insights.
US11741428B1
A method for monetizing ferroelectric process development is described. In at least one embodiment, the method comprises procuring a target material based on a model driven selection which is based on charge, mass and magnetic moment, and/or mass of the atomic constituents of the target material. The method further comprises applying the target material to a fabrication process to build a ferroelectric device. The method further comprises generating a notification indicative of procurement of the target material and application of the target material. The method further comprises electronically transmitting the notification to a customer, wherein the notification includes an invoice having a line item associated with a cost of the procuring of the target material and application of the target material.
US11741426B2
A system and method for tracking digital assets associated with video games. The digital assets may be in-game digital assets, such as in-game items or characters. The digital assets may be video game digital media assets representing moments of gameplay of a video game, such as video clips or images. The digital asset is created, and a distributed ledger tracking a history of the digital asset is created and stored across devices. A unique token for the digital asset can include a unique identifier and metadata identifying properties of the digital asset. Changes to properties of the digital asset, such as ownership, visual appearance, or metadata, can be identified in a request to update the history. A new block can be generated for, and appended to, the distributed ledger identifying the changes to the history of the digital asset. The new block can include hashes of previous blocks.
US11741423B2
A method and system for automated vehicle transportation is disclosed that allows a car shipper, such as a car dealer, to ship a car automatically from a computer or smart phone, and have the car accepted directly electronically by an auto transport trucker on a smartphone to pick up and deliver. The user by enters the vehicle on a website or mobile application, and the auto transporter selects the car for pick up by tapping on a mobile application on a smartphone. The transaction is handled automatically by the system, and manual communication such as phone calls and faxes and paperwork are not required. The system also tracks the location of the vehicle via the transporter's smartphone and displays the real-time location to the customer. The payment may be collected electronically from the customer, and automatically paid to the transporter electronically. A video bill of lading is also provided.
US11741421B2
A computer-implemented method is disclosed. The method includes: receiving input of product value data for a product item and a data modifier for the product value data, the data modifier identifying a target margin value associated with the product item; determining at least one current inventory location for the product item; obtaining a shipping rate associated with shipping the product item to a geographical region from the at least one current inventory location; retrieving historical transfer value preference data for the geographical region; modifying at least one of the product value data, the shipping rate, or the target margin value based on the historical transfer value preference data; determining a transfer value of the product item based on the modified at least one of the product value data, the shipping rate, or the target margin value; and generating an indication of the transfer value of the product item.
US11741416B2
Assisted analytics, facilitates responding to a user selection of a measure that is calculated from a data set that is characterized by a plurality of dimensions of data, populating, with a processor a set of dimensions of the data with dimensions that contribute at least one data value to the user selected measure by calculating, for each dimension of the data in the set of dimensions of data a measure outlier threshold for a set of timeframe-specific values of the measure. This outlier threshold is applied, for each dimension of the data in the set of dimensions of data to calculate a dimension-specific outlier factor by aggregating timeframe-specific outlier weights for each timeframe in which a timeframe-specific value in the set of timeframe-specific values exceeds the measure outlier threshold. The results of this aggregation can be displayed in a ranked list of dimensions based on the dimension-specific outlier factor.
US11741411B2
In accordance with an embodiment, described herein are systems and methods for use with business process management (BPM) systems or environments, including software development tools for developing software applications that are associated with business processes (business process software applications, business process applications, process applications, or processes). In accordance with an embodiment, the system comprises a column-based process editor and graphical user interface, that can utilize a column-based format to model and display a process, for example a dynamic process, which can subsequently be deployed and executed within the system or environment. For example, the column-based process editor and graphical user interface can include various graphical elements to indicate configured properties of artifacts of a dynamic process. Interaction with the graphical elements enables users to review, edit, and/or remove particular properties associated with the dynamic process.
US11741407B2
Systems and methods for verifying and monitoring employees are provided. Employees call-in to the system at scheduled times. If an employee misses a scheduled call-in, an alert can be generated. An employer notification process can generate the alert, notifying a supervisor of the employee's missed call. The alert can include the employee's name, the location of the employee, and the time he/she was supposed to call. Such systems and methods can be used to verify that a worker is at the proper location at the proper time and awake and alert during the entire time period that he/she is supposed to be working.
US11741406B2
Systems and methods can be implemented to provide suggestions to a user device to execute user tasks in a variety of applications. In various embodiments, a set of tasks of a user from a number of task sources are identified for possible consolidation. The tasks in the set can be analyzed to identify a location to accomplish the tasks, estimate times to complete the tasks at the identified locations, and compute routes to the locations from a starting location or compute routes with respect to a route to another location of another task of the set of tasks. The identified locations, the estimated times, and the computed routes can be used to determine which tasks of the set of tasks are available for consolidation. One or more suggestions of task consolidations can be generated to or within the user device. Additional systems and methods are disclosed.
US11741404B2
A configuration architecture is described. The configuration architecture may be in communication with a task management application to efficiently generate customized programs.
US11741398B2
A method includes providing input data to a plurality of base models to generate a plurality of intermediate outputs. The base models are non-linear in that different base models are specialized differently such that the different base models are complementary to one another. Each of the base models is generated using a different base classification algorithm in a multi-layered machine learning system. The method also includes processing the intermediate outputs using a fusion model to generate a final output associated with the input data. The fusion model is generated using a meta classification algorithm in the multi-layered machine learning system. The method may also include training the classification algorithms, where training data used by each of at least one of the base classification algorithms is selected based on an uncertainty associated with at least one other of the base classification algorithms.
US11741395B2
Described in detail herein are systems and methods for network environment for a dynamic learning system for object matching and substitution using hand-held electronic devices. In exemplary embodiments, a hand-held electronic device may receive a request for physical objects of which a first physical object may be unavailable. The hand-held electronic device may transmit an identifier of the first physical object to a central computing system. The central computing system may query the database to retrieve data associated with the first physical object. The centrally computing system may attempt to match the first physical object to an available physical object based on dynamically learned matching behavior using the retrieved data. In response to matching data associated with one of the available physical objects to the data associated with the first physical object the central computing system may learn to replace the first physical object on the list with the one of the available physical objects based on dynamically learned matching behavior.
US11741393B2
Systems, methods, and computer program products for managing a lifecycle of a machine learning (ML) application from a consumer point of view are described herein. Execution of an intelligent scenario for training of the ML application is initiated. An integrator component generates a training pipeline. The training pipeline includes training logic associated with a defined workflow for the training. An application having an input dataset trains the ML application using the training pipeline. The integrator component determines training metrics associated with the trained ML application. The training metrics are indicators of a level of accuracy of the trained ML application. A centralized component provides the training metrics for characterization of the trained model.
US11741386B2
This invention relates to a method of blocking or passing messages sent via a firewall, based on parsing, of symbols strings contained in said messages, among different keywords, assigning to said messages either a blocking class or a passing class, comprising: performing a dimensionality reduction step for said different classes on a training set of messages whose classes are known, and then classifying one or more unknown messages among said different classes with reduced dimensionality, said dimensionality reduction step being performed on said training set of messages by machine learning including processing, for several first matrices and for several second matrices, a parameter representative of a product of two first and second matrices to assess to which given class a given message belongs: first matrix representing a first array of keywords versus symbols strings contained in a first given message, second matrix representing the values of differences between said first array and a second array of keywords versus symbols strings contained in a second given message different from first given message but known to belong to same class as first given message, wherein: a quantum singular value estimation is performed on first matrix, a quantum singular value estimation is performed on second matrix, both quantum singular value estimation of first matrix and quantum singular value estimation of second matrix are combined together, via quantum calculation, so as to get at a quantum singular value estimation of said product of both first and second matrices, said quantum singular value estimation of said product of both first and second matrices being said parameter representative of said product of two first and second matrices processed to assess to which given class said first given message belongs.
US11741383B2
Techniques to suggest a set of source ingredients that can be used to recreate functional properties of a target food item, using artificial intelligence, are disclosed. A computer model determines, for the target food item, an ingredient quantities vector and an ingredient inclusion vector based on a matrix of chemical compound source ingredient vectors of all source ingredients. The ingredient inclusion vector indicates which source ingredients from a plurality of source ingredients to include in the ingredient set, and the ingredient quantities vector indicates the quantity or amount of each source ingredient such that a corresponding volatile profile of the ingredient set is similar to that of the target food item. A volatile profile for the ingredient set, which is determined from the matrix of chemical compound source ingredient vectors, the ingredient inclusion vector, and the ingredient quantities vector, mimics the target food item's volatile profile.
US11741380B2
Embodiments generate machine learning predictions for database migrations. For example, a trained machine learning model that has been trained using training data can be stored, where the training data includes migration information for database migrations and migration methods for the database migrations, and the training data migration information includes a source database type and a target database infrastructure. Migration information can be received for a candidate database migration that includes a source database type and a target database infrastructure. Using the trained machine learning model, migration methods based on the migration information for the candidate database migration can be predicted.
US11741371B2
Embodiments relate to an artificial intelligence (AI) computer platform to incorporate synthetic data and ground truth data, and to promote diversity and accuracy in generating the synthetic data. Synthetic questions are generated by a question generator in response to semantically related ground truth passage and answer data. Each generated question is presented to an answer generator together with the semantically related ground truth passage. Each synthetic question is evaluated with respect to its diversity from previous synthetic questions generated for the same ground truth passage and answer data. Each synthetic question is also evaluated with respect to the accuracy of the answer generated by the answer generator. A reward function that captures both accuracy and diversity of each synthetic question is leveraged to selectively modify the question generator, with the selective modification(s) directed at increasing textual diversity and maintaining accuracy of the generated synthetic questions.
US11741368B2
In one aspect, hierarchical image segmentation is applied to an image formed of a plurality of pixels, by classifying the pixels according to a hierarchical classification scheme, in which at least some of those pixels are classified by a parent level classifier in relation to a set of parent classes, each of which is associated with a subset of child classes, and each of those pixels is also classified by at least one child level classifier in relation to one of the subsets of child classes, wherein each of the parent classes corresponds to a category of visible structure, and each of the subset of child classes associated with it corresponds to a different type of visible structure within that category.
US11741361B2
A method and an apparatus to build a machine learning based network model are described. For example, processing circuitry of an information processing apparatus obtains a data processing procedure of a first network model and a reference dataset that is generated by the first network model in the data processing procedure. The data processing procedure includes a first data processing step. Further, the processing circuitry builds a first sub-network in a second network model of a neural network type. The second network model is the machine learning based network model to be built. The first sub-network performs the first data processing step. Then, the processing circuitry performs optimization training on the first sub-network by using the reference dataset.
US11741354B2
A system includes a processor for performing one or more autonomous driving or assisted driving tasks based on a neural network. The neural network includes a base portion for performing feature extraction simultaneously for a plurality of tasks on a single set of input data. The neural network includes a plurality of subtask portions for performing the plurality of tasks based on feature extraction output from the base portion. Each of the plurality of subtask portions comprise nodes or layers of a neutral network trained on different sets of training data, and the base portion comprises nodes or layers of a neural network trained using each of the different sets of training data constrained by elastic weight consolidation to limit the base portion from forgetting a previously learned task.
US11741353B2
A neuromorphic synapse array includes a plurality of synaptic array cells being connected by circuitry such that the synaptic array cells are assigned to rows and columns of an array, the synaptic array cells respectively having a single polarity synapse weight, the rows respectively connected to respective input ends of the synaptic array cells, the columns respectively connected to respective output ends of the synaptic array cells, the synaptic array cells aligned in a column of the array being defined as operation column arrays and an array of current mirrors, each current mirror exhibiting a mirror ratio of N:1, wherein N is a number of columns of the synaptic array cells, respectively connected to the respective rows such that weights corresponding to all of the current mirrors are set to average weights of all of the synaptic array cells that are updated during a learning phase.
US11741346B2
Devices and methods for systolically processing data according to a neural network. In one aspect, a first arrangement of processing units includes at least first, second, third, and fourth processing units. The first and second processing units are connected to systolically pulse data to one another, and the third and fourth processing units are connected to systolically pulse data to one another. A second arrangement of processing units includes at least fifth, sixth, seventh, and eighth processing units. The fifth and sixth processing units are connected to systolically pulse data to one another, and the seventh and eighth processing units are connected to systolically pulse data to one another. The second processing unit is configured to systolically pulse data to the seventh processing unit along a first interconnect and the third processing unit is configured to systolically pulse data to the sixth processing unit along a second interconnect.
US11741341B2
One embodiment can provide a system for detecting anomaly for high-dimensional sensor data associated with one or more machines. During operation, the system can obtain sensor data from a set of sensor associated with one or machines, generate a first set of outputs by using a set of clustering models learned in parallel from the unlabeled sensor data and user-provided partial label information, generate a second set of outputs by using a set of feed-forward neural network (FNN) models learned in parallel from the first set of outputs and the unlabeled sensor data, and determine whether an anomaly is present in the operation of the one or more machines based on the second set of outputs and a user-specified threshold.
US11741340B2
Data-dependent node-to-node knowledge sharing to increase the interpretability of the activation pattern of one or more nodes in a neural network, is implemented by a set of knowledge sharing links. Each link may comprise a knowledge providing node or other source P and a knowledge receiving node R. A knowledge sharing link can impose a node-specific regularization on the knowledge receiving node R to help guide the knowledge receiving node R to have an activation pattern that is more easily interpreted. The specification and training of the knowledge sharing links may be controlled by a cooperative human-AI learning supervisor system in which a human and an artificial intelligence system work cooperatively to improve the interpretability and performance of the client system.
US11741328B2
This disclosure relates to technology for embedding machine-readable labels (“MRLs”) into digital media files. Digital media files may be presented on different screen sizes, having different resolutions, different frame refresh rates and other display properties. Each screen may therefore present an MRL differently, potentially negatively impacting scan-ability of the presented MRL. Systems disclosed herein receive a set of design choices for an MRL. The systems may resize pre-existing content in one or more video frames of the media file and create a space within each video frame for displaying the MRL. The systems may render a resultant video file for a target screen size that includes a reliably scannable MRL embedded in the video frame(s).
US11741324B1
A printing system includes an offline estimation device that provides estimates for ink or toner use for a print job at a target printing device. The offline estimation device retrieves digital front end (DFE) version information, configuration setting information, and color printing resources from the target printing device. Using the DFE version information, the offline estimation device selects a raster image processor (RIP) from a plurality of RIPs of software versions available within the printing system. The offline estimation device configures the RIP with configuration settings of the configuration setting information. The color printing resources also are pushed to the RIP. The offline estimation device provides the ink or toner use estimate using the configured RIP.
US11741319B2
Generating configuration parameters for a controller includes receiving, by a mobile computing device, identity information associated with the controller via Near Field Communication (NFC) read operations from memory of a NFC tag associated with the controller. The mobile computing device generates one or more configuration parameters for the controller based on the received identity information associated with the controller. The mobile computing device further stores, via NFC write operations, the configuration parameters in the memory of the NFC tag for later retrieval and configuration operations by the controller.
US11741311B2
Various techniques are disclosed, including receiving at a multiplatform management system a natural language request from a computing device, the multiplatform management system interfacing with multiple disparate platforms including a natural language processing platform, determining an event type based on the natural language request, identifying a user-requested action based on data associated with the natural language processing platform in data communication with the multiplatform management system, selecting a cloud platform to perform the user-requested action, formatting data representing the user-requested action into a formatted user-requested action, and performing the action.
US11741306B2
A controllable grounded response generation framework includes a machine learning model, a grounding interface, and a control interface. The machine learning model is trained to output computer-generated text based on input text. The grounding interface is useable by the machine learning model to access a grounding source including information related to the input text. The control interface is useable by the machine learning model to recognize a control signal. The machine learning model is configured to include information from the grounding source in the computer-generated text and focus the computer-generated text based on the control signal.
US11741299B2
Aspects of an embodiment of the present invention disclose a method, computer program product, and computing system that receives, at a processor, a review record comprising an image of an artifact and reference links associated with the artifact, wherein the image is recorded with a smart lens. The present invention also assigns the review record to a reviewer based on a qualification associated with the reviewer and the review record and receives a comment from the reviewer. The method performed in embodiments of the present invention also includes relaying the comment to the smart lens.
US11741298B1
Methods and systems provide for real-time meeting notes within a communication session. In one embodiment, the system connects to a communication session with a plurality of participants; receives, in real time during the communication session, updates to a transcript of a conversation between the participants produced during the communication session, the transcript including timestamps for a plurality of utterances associated with speaking participants; receives a request from one of the participants to generate a meeting note which includes a subset of utterances from the transcript; determines a starting timestamp and an ending timestamp for utterances representing the boundaries of the meeting note; generates, in real time during the communication session, a meeting note where the utterances for the starting timestamp and ending timestamp are the starting utterance and ending utterance of the meeting note, respectively; and presents to at least the participant, within a user interface, the generated meeting note.
US11741296B2
Methods, systems, and computer program products for automatically modifying responses from generative models using artificial intelligence techniques are provided herein. A computer-implemented method includes obtaining data pertaining to at least one conversation involving at least one automated conversation exchange software program and at least one user; identifying, among words proposed by the at least one automated conversation exchange software program in connection with the at least one conversation, words qualifying as belonging to one or more predetermined categories by processing the obtained data using artificial intelligence techniques; determining, by processing the identified words and at least one word-based data source, one or more alternate words; modifying at least a portion of the proposed words by replacing at least a portion of the identified words with at least a portion of the one or more alternate words; and performing at least one automated action based on the modifying.
US11741294B2
Aspects of the present disclosure involve systems and methods for performing operations comprising: retrieving, from a content management system, website generation data; identifying a first type of object in the website generation data; obtaining, from a centralized storage of a plurality of website presentation layers, a first website presentation layer corresponding to the first type of object; and generating, for display on a webpage, a first display element corresponding to the first type of object according to a look and feel defined by the first website presentation layer and having first content defined by the website generation data.
US11741287B1
The independent claims of this patent signify a concise description of embodiments. Roughly described, a design team prioritizes polygons of a circuit design layout. This information is then encoded into a layout database that is passed to the manufacturing team for correction further processing toward tape-out. The priorities may be used by an engineer to disposition errors found in the layout. For example, a failure may be waived. In another embodiment, the priorities are used during hotspot fixing, a process where failed features are corrected. In hotspot fixing, the priority can be used to make correction tradeoffs in favor of the highest priority features. Priorities are set during the correction to favor fidelity of the higher priority features over the lower priority features. Each embodiment reduces cost, and in some cases, improve final device performance. This Abstract is not intended to limit the scope of the claims.
US11741283B1
Extraction of capacitance values from a design of an electrical circuit can use a set of trained neural networks to generate extracted capacitance values from the circuit using a representation of the Green's function. A method can include the following operations: storing a machine learning model that includes a trained set of one or more neural networks that have been trained to calculate a representation of a Green's function to extract capacitance values from a design of a circuit having a set of conductors; applying, to the machine learning model, a set of inputs representing the set of conductors and their surrounding dielectric materials; encoding the set of inputs through a trained encoder to generate a latent space representation; calculating the values of the Green's function from the latent space representation through a dedicated trained neural network; and calculating the values of the gradient of the Green's function from the latent space representation through another dedicated trained neural network.
US11741278B2
Embodiments are for using design context projection and wire editing in augmented media. Responsive to receiving an indication of an error in a design for an integrated circuit (IC), a localized area is extracted encompassing the error in the design. Augmented reality media of the localized area of the design is generated with a guide pattern, the localized area including objects. The augmented reality media of the localized area is caused to be presented in a three-dimensional (3D) projection on an augmented reality device for a user. Responsive to receiving at least one modification to the augmented media in the 3D projection, the design for the IC is updated with the modifications.
US11741273B2
A geometry of a substrate surface is received at a neural network. The neural network is trained using one or more training sets. Each training set comprises a different type of substrate geometry and a collection of manufacturing process parameters. The substrate is configured to receive at least one liquid droplet. A shape of the at least one droplet after it has been deposited on the substrate is determined based on the received geometry. An output representing the determined shape of the at least one droplet is produced.
US11741272B2
A method for an interpreter framework is described. The method includes an interpreter module of a computing system receiving a first data file that includes multiple data sections. The interpreter module identifies each of the data sections of the first data file. Each data section includes data representing a real-world entity. For each respective data section of the first data file, the interpreter module parses information about the real-world entity represented by the data included in the data section. The interpreter module generates a second data file based on the parsed information for each of the data sections. The second data file includes encoded data for rendering a digital geographic structure using information about the real-world entity.
US11741269B1
In some embodiments, a method can include detecting, at a first circuit, the first circuit being operatively coupled to a memory device having a set of memory portions. The method can include receiving, from the memory device and at the first circuit, a set of encryption key portions after the detecting, each encryption key portion from the encryption key portions being a unique portion of an encryption key. The method can include assembling the encryption key by ordering each encryption key portion from the set of encryption key portions based on (1) a first previously defined list and (2) a second previously defined list. The first previously defined list and the second previously defined list each is stored at or accessible by the first circuit but not stored at or accessible by the memory device. The method can include authorizing access to a second circuit based on the encryption key.
US11741267B2
A method for obtaining a valid global state for a distributed database, wherein the distributed database includes main nodes storing a complete dataset, and a plurality of subsets of nodes configured to store a part of the dataset, including: a. receiving a request for providing a valid global state of the distributed database, b. determining a first local state for each subset based on status information of nodes of the respective subset regarding the respective part of the dataset, c. combining these first local states of all subsets to a first combined state, d. determining a global state by the main nodes based on status information of the main nodes regarding the stored dataset, e. verifying the first combined state by matching the first combined state with the global state and f. outputting the first combined state as valid global state for the distributed database depending on the verification.
US11741264B2
Systems and methods may be provided for masking data on public networks, such as social networking sites. At a publishing node, the system may monitor data input fields in a webpage that are processed by an internet browser. The system may intercept data, such as text, images, and video input at the data input fields, prior to the data being posted online on a public service provider's website. The publishing node may control which users are permitted access to the posted data by defining a policy associated with the data input field. The posted data may be transformed or tokenized to ensure that it is inaccessible to a user (or group of users) unless that user/group is granted access to the decoding key under the policy. In this way, data security and data control may be provided to a publishing user node. Data that has already been posted may be destroyed, for example, by deleting the decryption key or a token.
US11741262B2
Methods and systems for monitoring a risk of re-identification for a dataset de-identified from a source database containing information identifiable to individuals are described. A first aspect of the disclosure relates to a method comprising: providing a graphical user interface (GUI) configured to receive as input the dataset and updates to said dataset; providing as input to the GUI the dataset; estimating a risk of re-identification for the dataset or a subset of the database; providing as input to the GUI the updates to said dataset; regularly monitoring whether the risk of re-identification for at least one of the updated dataset, the subset of the database and the updates is below a predetermined dataset risk threshold; and if the risk of re-identification has reached or exceeded the predetermined dataset risk threshold, notifying the user.
US11741257B2
Techniques are described for providing access to anonymized user data derived from external data providers. A persona management system generates a searchable data store containing metadata related to a plurality of users of the persona management system. The metadata includes entries indicating: a first identifier of a user of the plurality of users of the persona management system, a second identifier of an external data provider of a plurality of external data providers that possess data related to users of the persona management system, a third identifier of an algorithm that is used to transform data possessed by the external data provider related to the user of the persona management system into one or more transformed data values, and the one or more transformed data values. In response to requests from various data consumers, the persona management system uses the metadata to identify users matching specified search criteria.
US11741243B1
The invention described herein addresses the security shortcomings in existing Supervisory Control Systems (SCS), inclusive of but not limited to CAN Bus, SCADA, DCS, HEMS and IoT. The invention references U.S. Pat. No. 10,367,794 B2 Sayers et al., which is improved by the addition of a Validated Transmission data system, a Receiver Validation data system, and redundant links, which may be comprised of but not limited to technologies such as fiberoptics, time division multiplexing, frequency division multiplexing, various radio frequency links inclusive of TDM, OFDM, and CDMA modulation schemes, and a novel scheme for validating transmissions through self-generated tables by network elements.
US11741236B2
A feature selection methodology is disclosed. In a computer-implemented method, the feature selection methodology automatically monitors components of a computing environment. The feature selection methodology then determines the importance of various components of the computing environment. The feature selection methodology further outputs results of the determining of the importance of the components within the computing device.
US11741234B2
Technologies for fast launch of trusted containers include a computing device having a trusted platform module (TPM). The computing device measures a container runtime with the TPM and executes the container runtime in response to the measurement. The computing device establishes a trust relationship between the TPM and a virtual platform credential, provisions the virtual platform credential to a virtual TPM, and executes a guest environment in response to provisioning the virtual platform credential. The computing device measures a containerized application with the virtual TPM and executes the containerized application in response to the measurement. The computing device may perform a trusted computing operation in the guest environment with the virtual TPM. The virtual TPM and the containerized application may be protected with multi-key total memory encryption (MKTME) support of the computing device. State of the virtual TPM may be encrypted and persisted. Other embodiments are described and claimed.
US11741223B2
Embodiments provide a method for validating a network host listed in a body of an email. The method includes: receiving, by the processer, the email; checking, by the processer, whether a threat analytics option is enabled. If the threat analytics option is enabled, the method further includes: copying, by the processer, an original body field of the email into a new body field; converting, by the processor, a text representation of the network host into a link in the new body field; modifying, by the processer, a text style of the link in the new body field according to a threat analytics result from a threat analytics service; and displaying, by the processer, the email with the new body field, wherein the email includes the link having a modified text style.
US11741211B2
One example method includes receiving authorization from a human user to collect data concerning an interaction of the human user with a computing element, interacting with the human user, collecting data concerning the interaction, analyzing the collected data, generating trust and confidence information, concerning the human user, based on analysis of the collected data, and storing the trust and confidence information.
US11741196B2
A secure processor, comprising a logic execution unit configured to process data based on instructions; a communication interface unit, configured to transfer of the instructions and the data, and metadata tags accompanying respective instructions and data; a metadata processing unit, configured to enforce specific restrictions with respect to at least execution of instructions, access to resources, and manipulation of data, selectively dependent on the received metadata tags; and a control transfer processing unit, configured to validate a branch instruction execution and an entry point instruction of each control transfer, selectively dependent on the respective metadata tags.
US11741193B2
A distance recognition system for use in a marine vessel includes at least one memory, and a first imaging unit and a second imaging unit both positioned on a hull so that their imaging areas include a water surface. The second imaging unit is higher than the first imaging unit. The distance recognition system further includes at least one processor coupled to the at least one memory and configured or programmed to acquire a first image and a second image captured by the first imaging unit and the second imaging unit, and perform a matching process between the first image and the second image to acquire distance information about any position in the first image.
US11741191B1
Methods, systems, and apparatus, including computer programs encoded on a computer storage medium, for collaboratively training an interaction prediction machine learning model using a plurality of user devices in a manner that respects user privacy. In one aspect, the machine learning model is configured to process an input comprising: (i) a search query, and (ii) a data element, to generate an output which characterizes a likelihood that a given user would interact with the data element if the data element were presented to the given user on a webpage identified by a search result responsive to the search query.
US11741185B1
Providing policy check functionality to file uploads is disclosed. An attempted file upload is detected at a browser isolation system. A user of a client is prompted to provide a credential associated with the file and usable to access contents of the file. A policy is applied to the file upload.
US11741184B2
A process for rendering a user interface for launching content for publication using a content management system (CMS), includes: providing, over a network, an editor application enabling editing of entities stored in the CMS; providing, over the network, a launch application, wherein execution of the launch application renders the user interface for launching content for publication, wherein the user interface includes a reference tree providing a hierarchical visualization of reference relationships amongst the entities; receiving selection of a group of entities for publishing; and generating, responsive to the selection, an application programming interface (API) call to the CMS to trigger initiation of a validation process to validate each entity, without requiring separate API calls for validating each entity; and, wherein the validation process, once initiated, proceeds automatically without requiring said separate API calls to separately initiate publication of each of the entities in the group of entities.
US11741183B2
In one embodiment, a computing device configured to execute a hosted application includes a processor and storage, where an operating system is installed on the computing device, an application platform application including a rendering engine process including a virtual machine and an integration process, at least one hosted application comprising a background page file, wherein the virtual machine is configured to parse instructions in the background page file to download at least one remotely hosted file for rendering a web page, build a document object model (DOM), and modify the DOM in accordance with a predetermined DOM modification rule to create a modified DOM based on the computing environment, and wherein the rendering engine process is configured to render a user interface page integrated into the computing environment of the operating system of the computing device based on the DOM generated by the execution of the background page.
US11741182B1
A system includes one or more processors configured to execute the instructions to dynamically link a plurality of content objects to a plurality of product pages, each content object and each product page having a first product tag. The system may assign each product page with a respective page score and each content object with a respective content score. The system may select a first product page having a first page score and a first content object having a first content score, compare the first content weight associated with the first content object to a first content threshold associated with the first product page and determine whether the first content object may be assigned to the first product page. When the first content weight is less than the first content threshold, the system may dynamically link the first content object with the first product page.
US11741181B2
Systems and methods for integrating mobile image capture with an internet browser application on a mobile device are provided, wherein a user viewing a web page via the internet browser application can initiate a mobile image capture process on the mobile device through the web page, capture images with a mobile image capture user interface, and then provide secure access to the captured images for the web page in order to utilize the content of the captured images. The mobile image capture process is accessible through any internet browser application via the mobile device and allows any service running on a web page to benefit from the ability to capture an image on the mobile device and obtain the content of the image through mobile image processing. The browser-based mobile image capture allows mobile devices which do not run certain third party applications to utilize mobile image capture and processing.
US11741175B2
A mobile communication device. The device comprises a central processing unit (CPU), a graphics processing unit (GPU), and a memory comprising a mobile application incorporating a search client that. When executed by at least one of the CPU and the GPU, the application receives an input selecting the search client, begins execution in a trusted security zone execution mode wherein instructions of the search client execute in the GPU, creates a genesis block of a block chain via the search client instructions executing in the GPU, creates an event block of the block chain via the search client instructions executing in the GPU, attaches the event block to the block chain via the search client instructions executing in the GPU, transmits the block chain to a data store, and reverts to execution in a normal execution mode.
US11741172B2
A method for assessing user experience includes determining one or more experience journey maps, identifying personas included in the one or more experience journey maps, and collecting user experience related data from the personas included in the one or more experience journey maps. The method further includes identifying user experience gaps based on an analysis performed on the experience related data collected, and providing a graphical representation that highlights the user experience gaps. The method also includes generating recommendations for execution to mitigate the user experience gaps highlighted in the graphical representation, monitoring and tracking a progress of the executed recommendations, and performing automated monitoring and offset metric tracking of targeted experience-related input metrics used to gauge a performance of the executed recommendations.
US11741167B2
An illustrative computing system generates, based on a plurality of point-of-interest data records each including data representative of a distinct set of features for a distinct point-of-interest associated with a distinct geographic location, a graph data structure that includes the plurality of point-of-interest data records and a plurality of weighted feature relationships interconnecting the plurality of point-of-interest data records. The computing system generates one or more merged point-of-interest data records based on the graph data structure and provides the one or more merged point-of-interest data records to a mapping system to indicate one or more points-of-interest on a user interface map of a geographic area.
US11741163B2
Various corpora of content objects and other information sources beyond the corpora of content objects are processed to identify personally identifiable information (PII). PII that is associated with a named person is codified into a first portion of a graph-oriented data structure. Also, PII that is associated with an alias that might refer to a named person is codified into a second portion of the graph-oriented data structure. A determination is made that the alias that might refer to a named person is indeed an alias that is a coreference to the named person. Based on that determination then, since the first portion of the graph and the second portion of the graph refer to the same person, then the PII of the second portion of the graph can be deemed to be PII of the same person. PII in common and/or language processing can be used to establish coreferences.
US11741162B2
A computer-implemented method is disclosed for providing an interface to prioritize classification rules for an unclassified input. A set of classification rules for input queries are stored as a plurality of records, each record comprising a plurality of values, each value being associated with an attribute from a plurality of attributes ordered by priority from most important to least important, at least one record comprising a value consisting of a wildcard operator, and each record representing a classification rule that applies to an input query if and only if each value of the plurality of values is matched by a corresponding value for a same associated attribute in the input query. A GUI enables setting the ordering of the plurality of attributes; receiving an input query; and based on the ordering, automatically determining and outputting a unique best match among all classification rules that satisfy the input query.
US11741161B2
The disclosed relates to a system for generating a refined query, whereby the system comprises or is coupled with a search engine for searching through a tree of query modification operations, whereby the root node of said tree is an empty node which represents a given initial query, and comprises at least one processor which is configured to perform the following steps: a) defining a set of query modification operators which can be inserted into said tree; b) receiving a second set of reference query results; c) receiving a first set of current query results from a currently given query comprising one or more triple patterns; d) contrasting the first set of query results with the second set of query results by assessing the differences between the two query results; e) running the search engine which is configured to perform the following steps: f) selecting a node of said tree by a computed score derived from the assessed result; g) selecting any query modification operator of the defined set of query modification operators; h) if the selected query modification operator does not correspond to any of the triple patterns of the query represented by the selected node, then continue step f); i) otherwise identifying at least one triple pattern of the query which the selected query modification operator corresponds to; j) generating a refined query by applying the selected query modification operator to the identified triple pattern.
US11741158B2
Aspects of the disclosure relate to systems and methods for increasing the speed, accuracy, and efficiency of language processing systems. A provided method may include storing a plurality of modules in a database. The method may include configuring the plurality of modules in a multi-tier tree architecture. The method may include receiving an utterance. The method may include processing the utterance via a natural language processing (NLP) engine. The method may include routing the utterance. The routing may include identifying a highest tier module that matches a predetermined portion of the utterance. The method may include compiling a result set of modules. The method may include transmitting the result set of modules to the system user. The result set of modules may include a comprehensive and narrowly tailored response to the user request.
US11741155B2
A search system searches a storage where one electronic document or a plurality of electronic documents is/are stored for an electronic document that satisfies an entered search condition. The search system includes a first processor and a second processor. The first processor manages a feature relating to a color shade of the electronic document as an index of the electronic document and retrieves the electronic document that satisfies the search condition from the storage based on the index. The second processor has an electronic document printed. Managing a feature relating to a color shade of the electronic document as an index of the electronic document includes registering the feature relating to the color shade of the electronic document obtained by analyzing the electronic document as the index of the electronic document and updating, when the electronic document is printed, the index of the electronic document.
US11741149B2
A storage server management system includes a management database for storing rack data and storage server data, wherein the rack data includes rack identifications and coordinates of multiple storage servers and the storage server data includes media access control addresses, model name and rail identifications of the multiple storage servers, multiple racks for containing the multiple storage servers, a dynamic host configuration protocol server for configuring the internet protocol addresses to the multiple storage servers, and a management console for generating a rack location map according to the rack data and the storage server data.
US11741142B2
Embodiments described herein provide document summarization systems and methods that utilize fine-tuning of pre-trained abstractive summarization models to produce summaries that more faithfully track the content of the documents. Such abstractive summarization models may be pre-trained using a corpus consisting of pairs of articles and associated summaries. For each article-summary pair, a pseudo label or control code is generated and represents a faithfulness of the summary with respect to the article. The pre-trained model is then fine-tuned based on the article-summary pairs and the corresponding control codes. The resulting fine-tuned models then provide improved faithfulness in document summarization tasks.
US11741141B1
The present disclosure describes a communication environment having a service provider server that receives an audio command from a display control device within the communication environment. The service provider server can translate this audio command into an electrical command for controlling the display device. The service provider server autonomously performs a specifically tailored search of a catalog of command words and/or phrases for the audio command to translate the audio command to the electrical command. This specifically tailored search can include one or more searching routines having various degrees of complexity. The most simplistic searching routine from among these searching routines represents a textual search to identify one or more command words and/or phrases from the catalog of command words and/or phrases that match the audio command. The one or more searching routines can include more complex searching routines, such as a keyword search and/or a natural language search, of the catalog of command words and/or phrases to identify one or more command words and/or phrases from the catalog of command words and/or phrases that match the audio command.
US11741126B2
A computer implemented method for implementing a real time reconciling shared data structure is disclosed. The shared data structure may be stored in a memory, and a portion of the shared data structure may be coupled with a processor. The computer implemented method may be used for interacting with the shared data structure. The method may comprise the exchange of messages, requesting to change data in the shared data structure, between selected participants, wherein some of the participants must validate requested changes to the shared data. If all participants validate the requests to change data the changes to the data are made, and if less than all participants validate the requests then the changes are not made.
US11741115B2
Disclosed methods and systems allow a central server to monitor electronic units of work accessible to a group of computers and generate a nodal data structure representing the units of work. The server then uses various protocols, such as hashing algorithms and/or executing artificial intelligence and machine learning models to identify similar and/or related units of work. The server then merges/links the nodes corresponding to the similar/related units of work. The server also monitors all user activities. When a user or a software system/service accesses electronic content on his, her, or its electronic device, the server identifies a node corresponding to the accessed electronic content and associated unit(s) of work and presents searchable data and actions related to the identified node and any related/linked nodes.
US11741113B2
The measurement guide device is able to easily select the next measurement target on the basis of previously obtained measurement results. The measurement guide device includes a database, a similarity search section, and a next-point proposal section. The database stores a virtual measured signal and a measurement procedure that are obtained by simulation. The similarity search section extracts, from the database, virtual measured signals similar to measurement results obtained by a measurement device, and measurement procedures regarding the virtual measured signals. The next-point proposal section selects at least one measurement procedure from the measurement procedures obtained by the similarity search section, and determines the next measurement point.
US11741099B2
A computer-implemented method of performing queries using Artificial Intelligence (AI) database embeddings includes the operations of generating a plurality of vector embeddings describing a training data from a database for training a machine learning model. A test vector embedding is generated from the plurality of vector embeddings based on training data for unseen data from one or more rows of the database. One or more vectors from the plurality of vector embeddings describing the training data that are a closest match to the test vector embedding are identified. A task is determined based upon the unseen data. The determined task is performed using the trained machine learning model.
US11741098B2
The present invention relates to methods and systems for storing and querying database entries with neuromorphic computers. The system is comprised of a plurality of encoding subsystems that convert database entries and search keys into vector representations, a plurality of associative memory subsystems that match vector representations of search keys to vector representations of database entries using spike-based comparison operations, a plurality of binding subsystems that update retrieved vector representations during the execution of hierarchical queries, a plurality of unbinding subsystems that extract information from retrieved vector representations, a plurality of cleanup subsystems that remove noise from these retrieved representations, and one or more input search key representations that propagates spiking activity through the associative memory, binding, unbinding, cleanup, and readout subsystems to retrieve database entries matching the search key.
US11741092B2
Provided are a method and apparatus for providing a big data analysis service, and a computer readable storage medium. The method for providing a big data analysis service includes: generating, by network data analytics, big data information according to network operation and maintenance data, and sending the big data information to an application through a network exposure function.
US11741085B2
Various embodiments provide methods, systems, apparatus, computer program products, and/or the like for managing, ingesting, monitoring, updating, and/or extracting/retrieving information/data associated with an electronic record (ER) stored in an ER data store and/or accessing information/data from the ER data store, wherein the ERs are generated, updated/modified, and/or accessed via a graph-based domain ontology.
US11741075B2
A tracker computer does not contribute content for inclusion in: a distributed ledger, a transaction, and a blockchain that records the transaction. In an embodiment that reduces network bandwidth needed by a blockchain network, the tracker computer receives, from first client computers, requests to track execution of transactions in a blockchain network that has multiple ledger computers and does not include the tracker computer. The tracker computer subscribes to the ledger computers for status notifications from the execution of the transactions. The tracker computer receives status notifications that indicate status of the transactions that occurred after the clients' subscribing for status notifications. The tracker computer records the status of the transactions. The tracker computer pushes the status of the transactions to the first client computers. From second client computers, the tracker computer receives pull requests for status of the transactions in the blockchain network. To the second client computers, the tracker computer sends the status of the transactions as already recorded by the tracker computer.
US11741071B1
System and methods are provided for performing table navigation operations on a display, wherein the table comprises rows and columns and at least one cell that contains more information than presented on the display. Disclosed embodiments include receiving a scroll signal for scrolling the table, wherein the scroll signal results from a motion of a user on the display; in response to a vertical component in the motion, causing the table to scroll vertically; in response to a horizontal component in the motion, causing the table to scroll horizontally; receiving an enhancing scroll signal resulting from an enhancing motion for revealing hidden information within the at least one cell on the table; and in response to the enhancing scroll signal, revealing at least a portion of the hidden information within the at least one cell.
US11741068B2
Methods and apparatus to estimate cardinality of users represented across multiple bloom filter arrays are disclosed. Examples includes processor circuitry to execute and/or instantiate instructions to generate a first composite Bloom filter array based on first and second Bloom filter arrays. The processor circuitry is to generate a final composite Bloom filter array based on the first composite Bloom filter array and a third Bloom filter array. Different ones of the first, second, and third Bloom filter arrays representative of different sets of users who accessed media. The first, second, and third Bloom filter arrays including differential privacy noise. The processor circuitry to estimate a cardinality of a union of the first, second, and third Bloom filter arrays based on the final composite Bloom filter array.
US11741050B2
Techniques are disclosed relating to managing distributed storage of data for various entities according to classifications for these entities. A database node of a distributed storage system may receive, from a first entity of a plurality of entities, a request to store a set of data. The database node may further obtain metadata associated with the first entity, wherein the metadata specifies one of a plurality of classifications for the entities. The database node may provide the set of data to one or more of a plurality of caches for storage. The caches may be located in two or more availability zones and are configured to store the set of data based on the classification for the first entity identified in the metadata associated with the first entity. The database node may also store the set of data in a shared object storage coupled to the database node.
US11741043B2
This invention provides a generalized electronic computer architecture with multiple cores, memory distributed amongst the cores (a core-local memory). This arrangement provides predictable, low-latency memory response time, as well as a flexible, code-supplied flow of memory from one specific operation to another (using an operation graph). In one instantiation, the operation graph consists of a set of math operations, each accompanied by an ordered list of one or more input addresses. Input addresses may be specific addresses in memory, references to other math operations in the graph, or references to the next item in a particular data stream, where data streams are iterators through a continuous block of memory. The arrangement can also be packaged as a PCIe daughter card, which can be selectively plugged into a host server/PC constructed/organized according to traditional von Neumann architecture.
US11741041B2
A computer includes a processor, a PCIe-compatible interface bus that includes a root that is connected to the processor, and a routing complex that is connected to the root and is controlled by the processor. The computer also includes a first interface slot that is connectable to the root by the switches, a second interface slot that is connectable to the root by the switches, and an extended interface slot that is connectable to the root by the switches. The switches are configured based on properties of a first peripheral device to define a first switching configuration when the first peripheral device is connected only to the first interface slot and to define a second switching configuration when the first peripheral device is connected to both of the first interface slot and the extended interface slot.
US11741039B2
A PCIe device and a method of operating the same are provided. The PCIe device may include a throughput calculator configured to calculate a throughput of each of a plurality of functions, a throughput analysis information generator configured to generate throughput analysis information indicating a result of a comparison between a throughput limit and the calculated throughput, a delay time information generator configured to generate a delay time for delaying a command fetch operation for each function based on the throughput analysis information, a command lookup table storage configured to store command-related information and a delay time of a function corresponding to a target command, the command-related information including information related to the target command to be fetched from a host, and a command fetcher configured to fetch the target command based on the command-related information and the delay time of the corresponding function.
US11741028B1
Innovative techniques to efficient stripe ordered writes across multiple socket-to-socket links. The ordered writes may be PCIe ordered writes. Each socket-to-socket write (or remote write) for an address may be converted into two transactions. The first transaction may ensure that coherency for the address is ensured. The second transaction may be the actual request transaction to write the data of the address. In so doing, when multiple remote writes are involved, the remote writes may be distributed over multiple socket-to-socket links to maximize bandwidth.
US11741027B2
The present disclosure relates to a method for improving the reading and/or writing phase in storage devices including a plurality of non-volatile memory portions managed by a memory controller, comprising: providing at least a faster memory portion having a lower latency and higher throughput with respect to said non-volatile memory portions and being bi-directionally connected to said controller; using said faster memory portion as a read and/or write cache memory for copying the content of memory regions including more frequently read or written logical blocks of said plurality of non-volatile memory portions. A specific read cache architecture for a managed storage device is also disclosed to implement the above method.
US11740994B2
Techniques and structures to provide secure data transfer between entities in a multi-user on-demand computing environment. An electronic device may comprise at least one physical memory device, one or more processors coupled with the at least one physical memory device, the one or more processors configurable to create a scratch destination organization within the computing environment, receive, via a user interface, a metadata selection comprising a plurality of metadata resources, extract the plurality of metadata resources from an origin organization within the computing environment into a metadata bundle, and deploy the metadata bundle in the scratch organization. Additional subject matter may be described and claimed.
US11740978B2
In an approach for in-band selective data snapshot using fifth generation (5G) radio link control (RLC) channels for edged cloud application backups, a processor creates one or more RLC channels to transfer network data packets in a telecommunication network using a network slicing technology. A processor allocates the one or more RLC channels to one or more applications in a user device for dedicated packet routing requirements. A processor maps the corresponding RLC channels and applications with corresponding identifiers, respectively. A processor monitors the one or more applications for backups. A processor, in response to receiving an application's backup request, creates a copy of a datastore associated with the application based on changes monitored in the one or more applications.
US11740977B2
Embodiments for balancing cloud resource capacity for cross-node movement of files in a scaled out backup system, and for dynamically allocating cloud storage resources in a multi-node network having a file system. A process determines a destination node with dedicated cloud storage capable of storing a file selected for long term retention. It transfers the file to the cloud storage of the destination node while maintaining metadata of the file in the cloud tier local storage of the destination node, such as by using remote procedure calls between the destination and source nodes. It then updates a global namespace of the file system with a handle indicating a current location of the file as the cloud storage of the destination file, thus allowing access to the file through the metadata stored in the local storage of the source node.
US11740976B2
Techniques for generating a crash-consistent clone of file(s) stored by a distributed file system are described herein. To generate the crash-consistent clone, a coordinator node may identify multiple nodes (e.g., at least a first node and a second node) of the distributed file system that are storing different portions of data of the file. The coordinator node may then send a first command to the multiple nodes to cause each of the multiple nodes to quiesce the file and clone the different portions of the data to generate the crash-consistent clone of the file. The coordinator node may then receive, from the multiple nodes, a status associated with generating the crash-consistent clone of the file. Based at least in part on the status, the coordinator node may send a second command to the multiple nodes to cause each of the multiple nodes to unquiesce the file.
US11740965B2
A memory system includes a non-volatile memory and a controller that includes a toggle encoder configured to encode first data having a first bit length and a first number of toggles, into second data having a second bit length longer than the first bit length and a second number of toggles smaller than the first number of toggles, and transmit the second data to the non-volatile memory. The memory system may further include a toggle decoder configured to decode third data received from the non-volatile memory into fourth data, the third data having the second bit length and the second number of toggles and the fourth data having the first bit length and the first number of toggles.
US11740963B2
Apparatus and methods are disclosed, including using a memory controller to monitor at least one parameter related to power level of a host processor of a host device, and dynamically adjusting at least one of a clock frequency and a voltage level of an error-correcting code (ECC) subsystem of the memory controller based on the at least one parameter to control power usage of the host device.
US11740962B2
Apparatus for quantum error correction is disclosed. The apparatus includes an array of processing cores, each processing core comprising: a processor on a first chip; and a processor cache on the first chip; and a bus for interconnecting neighbouring processing cores in the array of processing cores; wherein each processing core includes: control code which, when executed by the processor, causes the processor to access a processor cache of at least one neighbouring processing core.
US11740960B2
A method of correcting one or more bit errors in a memory device includes retrieving a codeword from a memory device. The codeword includes a data and an error correcting code. The method further includes determining whether the one or more bit errors are present in the retrieved codeword and correcting the retrieved codeword for the one bit error in response to determining one bit error is present in the retrieved codeword. The method also includes flipping a bit of the retrieved codeword in response to determining a plurality of bit errors is present in the retrieved codeword and correcting the retrieved codeword for the plurality of bit errors based on the bit-flipped codeword.
US11740958B2
Systems and devices can include a physical layer (PHY) that includes a logical PHY to support multiple interconnect protocols. The logical PHY can include a first set of cyclic redundancy check (CRC) encoders corresponding to a first interconnect protocol, and a second set of CRC encoders corresponding to a second interconnect protocol. A multiplexer can direct data to the first set or the second set of CRC encoders based on a selected interconnect protocol. The logical PHY can include a first set of error correcting code (ECC) encoders corresponding to the first interconnect protocol and a second set of ECC encoders corresponding to the second interconnect protocol. The multiplexer can direct data to the first set or the second set of ECC encoders based on the selected interconnect protocol. In embodiments, different CRC/ECC combinations can be used based on the interconnect protocol and the link operational conditions.
US11740946B2
A gateway in a computing system for interfacing a host with a subsystem for acting as a work accelerator to the host, the gateway having: an accelerator interface for enabling the transfer of batches of data to the subsystem at pre-compiled data exchange synchronisation points attained by the subsystem; a data connection interface for receiving data to be processed from storage; and a gateway interface for connection to a third gateway. The gateway is configured to store a number of credits indicating at least one of: the availability of data for transfer to the subsystem at a pre-compiled data exchange synchronisation point; and the availability of storage for receiving data from the subsystem at a pre-compiled data exchange synchronisation point. The gateway uses these credits to control whether or not synchronisation barrier is passed by transmitting synchronisation requests upstream to the third gateway or simply acknowledging the requests received.
US11740945B2
A temperature-aware task scheduling method, system, and computer program product, includes learning a condition to accept a task to the GPU based on a prior execution of the task on the GPU according to a varying thermal characteristic of the GPU.
US11740939B2
A data linkage system includes an API platform that provides an API for acquiring data, which is based on data stored in a data storage system for storing data collected by a data collection system and held by an information system, from the data storage system. The API platform includes servers that execute processing to acquire the data from the data storage system in response to a request for use of the API for each classification based on at least one of a predicted processing time level, which indicates duration of a predicted time for the processing to acquire the data in response to the request for the use of the API, and a predicted response data amount level, which indicates a predicted data amount responding to the request.
US11740937B2
A parallel process apparatus connecting electronic controllers via buses includes: a process request acceptance section that accepts process requests to the electronic controllers; and a process execution section that, while multiple process requests are simultaneously accepted, arbitrates the multiple process requests being accepted, and parallelizes multiple processes in accordance with the multiple process requests.
US11740928B2
A computer-implemented method according to one aspect includes receiving a request to perform a transaction in persistent memory; determining a correlation between volatile memory address locations in a volatile transaction cache and persistent memory locations in the persistent memory; performing the transaction within the volatile memory address locations of the volatile transaction cache; identifying modified volatile memory address locations in the volatile transaction cache that have been written during the transaction; logging, within the persistent memory, data within the modified volatile memory address locations; copying the data within the modified volatile memory address locations to corresponding persistent memory locations in the persistent memory, utilizing the determined correlation; and removing the logged data from the persistent memory, in response to determining that the copying has completed.
US11740927B2
The present solution is generally directed to dynamic state-driven centralized processing that manages remote procedure calls. In particular, the present solution can reduce the number of remote procedure calls by selecting and applying multiple processing scripts for a single electronic transaction based on a real-time condition, and provide dynamic-state-driven processing.
US11740926B2
A system and method for securing virtual cloud assets in a cloud computing environment against cyber threats. The method includes: determining a location of a snapshot of at least one virtual disk of a protected virtual cloud asset, wherein the virtual cloud asset is instantiated in the cloud computing environment; accessing the snapshot of the virtual disk based on the determined location; analyzing the snapshot of the protected virtual cloud asset to detect potential cyber threats risking the protected virtual cloud asset; and alerting detected potential cyber threats based on a determined priority.
US11740925B2
Method and apparatus for online migration of multi-disk virtual machine into different storage pools
A method and apparatus for online migration of a multi-disk virtual machine into different storage pools are provided. The method includes: constructing disk trees by using each active disk to be migrated of a virtual machine and a plurality of snapshot disks that are correspondingly generated based on each active disk to be migrated, so as to record a generation time sequence of a plurality of disks in the disk tree; migrating a memory snapshot file; and determining a target storage pool corresponding to each active disk to be migrated, and migrating a plurality of disk trees into corresponding target storage pools respectively according to the generation time sequence of the disk to be migrated in the disk tree.
US11740919B2
An information handling system includes a processor and NIC coupled to the processor via a communication interface. The NIC includes a network port. The processor instantiates a virtual network including at least two virtual switches and a virtual machine. The NIC receives a first flow from a first virtual switch, the first flow directing data packets received on the network port and destined for the virtual machine to a second virtual switch, and receives a second flow from the second virtual switch, the second flow directing the data packets to the virtual machine. The NIC further receives a data packet on the network port, determines that the data packet is destined for the virtual machine, and routes the data packet to a virtual function associated with the virtual machine based on the first and second flows, without first routing the first data packet to either of the virtual switches.
US11740917B2
A system and method for customizing communication processing within a communication platform that includes configuring a service handler, which comprises of at least setting execution code of the service handler; setting an association between the service handler and a communication event of the communication platform; detecting the occurrence of the communication event of a communication facilitated through the communication platform; invoking the service handler in response to the event, which comprises: executing the execution code in a serverless execution environment and generating a service handler response; and augmenting the communication in accordance with the service handler response.
US11740893B2
According to an aspect of an embodiment, operations for trend monitoring of code repositories and related information are provided. The operations include identifying a set of repositories from a collection of repositories hosted on one or more web-based repository hosting systems and collecting repository metadata for each repository. The operations further include generating a set of topic tags by using one or more natural language processing-based methods and collecting a set of statistics associated with each of the generated set of topic tags. The operations further include generating a set of presentation data based on one or more of the identified set of repositories, the collected repository metadata, the generated set of topic tags, and the collected set of statistics. The operations further include controlling a user device to display the generated set of presentation data onto an electronic User Interface of the user device.
US11740889B2
A software update apparatus includes a communication unit that sends a request for downloading update data to a center, a storage unit that stores the downloaded update data, a control unit that executes, based on the update data, a control for installing, or installing and activating update software on one or more target electronic control units from among a plurality of electronic control units connected to each other via an in-vehicle network, and a determination unit that determines whether the vehicle is stopped and can be maintained in a stopped state. When a determination result of the determination unit is positive, the control unit restricts operations of the target electronic control units and executes the control for installing, or installing and activating.
US11740887B2
Some embodiments of the invention provide a method of upgrading software defined networking (SDN) modules executing on a host computer. While a first version of the SDN modules is executing on the host computer to perform traffic processing, the method loads a second version of the SDN modules alongside the first version of the SDN modules such that the first and second versions of the SDN modules are executing on the host computer at the same time. The method saves runtime states from the first version of the SDN modules, and transfers responsibility for performing traffic processing from the first version of the SDN modules to the second version of the SDN modules. The method then restores the saved runtime states to the second version of the SDN modules.
US11740870B2
A Multiple Accumulate (MAC) hardware accelerator includes a plurality of multipliers. The plurality of multipliers multiply a digit-serial input having a plurality of digits by a parallel input having a plurality of bits by sequentially multiplying individual digits of the digit-serial input by the plurality of bits of the parallel input. A result is generated based on the multiplication of the digit-serial input by the parallel input. An accelerator framework may include multiple MAC hardware accelerators, and may be used to implement a convolutional neural network. The MAC hardware accelerators may multiple an input weight by an input feature by sequentially multiplying individual digits of the input weight by the input feature.
US11740863B2
A voice-controlled question answering system that is capable of answering questions using both a knowledge base and a search engine. The knowledge base is used to answer questions when answers to those questions are contained in the knowledge base. If an answer using the knowledge base is unavailable, and if the question is suitable for answering using an unstructured search approach, the system may obtain an answer using a search engine. The search engine results may be processed to obtain an answer to the question suitable for output using a voice user interface.
US11740854B2
Embodiments disclosed herein include one or more playback devices, server systems, and/or computing devices, individually or in combination determining that an item is present within an area comprising a playback device, wherein the item has corresponding media content associated therewith, and in response to determining that the item is present within the area comprising the playback device, causing the playback device to play the media content corresponding to the item, wherein the media content comprises one or both of audio content or video content.
US11740848B2
There is provided an application that acquires data of an icon from an external apparatus. Some embodiments provide a non-transitory storage medium storing an application that provides a print setting screen for allowing a user to make a print setting used to generate a print command provided for printing in a printer by a driver in a computer, wherein the application, when executed by the computer, causes the computer to acquire data of an icon representing the printer from an external apparatus different from the computer via a network, and display the acquired icon on a display unit of the computer.
US11740842B2
A cloud server offering a first cloud print service is capable of storing print data obtained from the outside, transmitting a registration request to a second cloud print service different from the first cloud print service, acquiring print data from the second cloud print service registered based on the registration request, and storing the print data acquired from the second cloud print service and the print data received from the outside through a different method. The stored print data is transmitted to a printing apparatus.
US11740841B2
Disclosed is a method to enable printing on legacy devices. The method includes discovering a legacy device that does not have a universal record that enables the legacy device to provide services to a mobile device through a network, appending the universal record for the legacy device, transmitting the universal record for the legacy device to a controller, receiving, at the controller and from the mobile device, a request for services which can be provided by the legacy device, transmitting, from the controller and based on the universal record for the legacy device, data associated with the legacy device to the mobile device to yield transmitted data and transmitting, based on an acceptance of the transmitted data by the mobile device, a service request from the mobile device to the legacy device for providing a service to the mobile device.
US11740827B2
The present disclosure relates to a method, an electronic device, and a computer program product for recovering data. For example, a method for recovering data is provided. The method may comprise acquiring metadata corresponding to to-be-recovered target data, the metadata comprising at least a first part of metadata corresponding to a first set of data blocks and a second part of metadata corresponding to a second set of data blocks. The method may further comprise acquiring, based on the first part of metadata, the first set of data blocks from a first backup storage device in a plurality of backup storage devices that store the target data. The method may further comprise acquiring, based on the second part of metadata, the second set of data blocks from a second backup storage device in the plurality of backup storage devices. In addition, the method may further comprise recovering the target data based on at least the first set of data blocks and the second set of data blocks. As such, the utilization of the backup storage devices can be improved and the time for data recovery can be shortened.
US11740823B2
In a multi-node storage system, a node's capacity has an upper limit, and capacities provided by nodes are smaller than a capacity of a global pool. A volume having a capacity larger than the capacity of one node is created by the node. A write error occurs when an amount of data larger than the capacity of the node is written. A storage system reduces the frequency of such a write error. A global pool is based on a plurality of local pools of a plurality of storage nodes that constitute a node group. In any of the storage nodes, a capacity relationship is maintained where a used capacity of a volume created by the storage node is equal to or less than an available capacity of a local pool of the storage node. A storage management unit manages the node group and selects the storage node.
US11740817B2
A system enables entities to access a single platform in order to utilize electronic data storage for storing different types of information. One or more computers may operate an electronic data storage processing network that entities can access when updating information in electronic data storage. The electronic data storage processing network may operate a plurality of electronic data storage processing modules, which can include an aggregator module, a formatter module, an operator signer module, and a validator module. Based on the specific use case for which electronic data storage is utilized, recordable data that is to be added to the electronic data storage can be processed by the appropriate aggregating, formatting, signing, and validating functions provided by the electronic data storage processing modules.
US11740813B2
A memory system including a non-volatile memory device storing data; and a controller configured to receive a request for an input/output operation regarding the data from a host processor to perform the input/output operation. After receiving a delegated task which is distinguished from the input/output operation, the controller is further configured to perform the delegated task independently and store a result of the delegated task in the non-volatile memory device.
US11740801B1
This disclosure provides techniques for managing memory which match per-data metrics to those of other data or to memory destination. In one embodiment, wear data is tracked for at least one tier of nonvolatile memory (e.g., flash memory) and a measure of data persistence (e.g., age, write frequency, etc.) is generated or tracked for each data item. Memory wear management based on these individually-generated or tracked metrics is enhanced by storing or migrating data in a manner where persistent data is stored in relatively worn memory locations (e.g., relatively more-worn flash memory) while temporary data is stored in memory that is less worn or is less susceptible to wear. Other data placement or migration techniques are also disclosed.
US11740798B2
Methods and systems for a networked storage system are provided. One method includes predicting an IOPS limit for a plurality of storage pools based on a maximum allowed latency of each storage pool, the maximum allowed latency determined from a relationship between the retrieved latency and a total number of IOPS from a resource data structure; identifying a storage pool whose utilization has reached a threshold value, the utilization based on a total number of IOPS directed towards the storage pool and a predicted IOPS limit; detecting a bully workload based on a numerical value determined from a total number of IOPS issued by the bully workload for the storage pool and a rising step function; and implementing a corrective action to reduce an impact of the bully workload on a victim workload.
US11740793B2
A data storage system having non-volatile media, a buffer memory, a processing device, and a data pre-fetcher. The data pre-fetcher receives commands to be executed in the data storage system, provides the commands as input to a predictive model, obtains at least one command identified for pre-fetching, as output from the predictive model having the commands as input. Prior to the command being executed in the data storage device, the data pre-fetcher retrieves, from the non-volatile memory, at least a portion of data to be used in execution of the command; and stores the portion of data in the buffer memory. The retrieving and storing the portion of the data can be performed concurrently with the execution of many commands before the execution of the command, to reduce the latency impact of the command on other commands that are executed concurrently with the execution of the command.
US11740789B2
Methods, apparatus, and processor-readable storage media for automated storage capacity provisioning using machine learning techniques are provided herein. An example computer-implemented method includes obtaining a user-provided input comprising an identification of an amount of storage capacity to be provisioned from a storage system; determining an amount of time for which the amount of storage capacity to be provisioned will last in connection with the storage system by processing the user-provided input in connection with historical data pertaining to storage utilization using one or more machine learning techniques; outputting, to the user, the determined amount of time for which the amount of storage capacity to be provisioned will last; and performing one or more automated actions based at least in part on feedback from the user in response to the outputting of the determined amount of time for which the amount of storage capacity to be provisioned will last.
US11740778B2
Disclosed herein are various embodiments for detecting predefined accessibility patterns for modifying a user interface of a mobile device. In an embodiment, a plurality of pre-defined accessibility patterns each of which correspond to one or more user interactions by a user with the mobile device are determined. Sensor data corresponding a set of one or more of the user interactions is received receiving, from one or more sensors of the mobile device, and a first pre-defined accessibility pattern that corresponds to the set of one or more of the user interactions received form the one or more sensors is identified. A modification to the user interface of the application based on the first pre-defined accessibility pattern is determined, wherein the modification to the user interface is configured to ease a difficulty associated with the first pre-defined accessibility pattern. The user interface is modified accordance with the modification.
US11740775B1
A computer-implemented method includes detecting a distinct area within an image, comparing detected features of the distinct area within the image to reference features corresponding to a reference image, and determining that the detected distinct area matches the reference image based on the comparison between the detected features and the reference features. The method further includes receiving an indication that the user selects the detected distinct area within the image, retrieving contact information corresponding to the reference image, and causing the client device to display an interface allowing the user to contact the entity.
US11740769B2
A screenshot method includes: receiving a first input performed on a first display interface; obtaining a target long preview screenshot of the first display interface in response to the first input; receiving a second input performed on the target long preview screenshot; in response to the second input, obtaining a target screenshot of a second display interface, where the second display interface is a display sub-interface of the first display interface; and generating a long screenshot according to the target long preview screenshot and the target screenshot.
US11740755B2
A computer system while displaying an augmented reality environment, concurrently displays: a representation of at least a portion of a field of view of one or more cameras that includes a physical object, and a virtual user interface object at a location in the representation of the field of view, where the location is determined based on the respective physical object in the field of view. While displaying the augmented reality environment, in response to detecting an input that changes a virtual environment setting for the augmented reality environment, the computer system adjusts an appearance of the virtual user interface object in accordance with the change made to the virtual environment setting and applies to at least a portion of the representation of the field of view a filter selected based on the change made to the virtual environment setting.
US11740750B2
An input sensing circuit includes a base film. A plurality of first sensors are disposed on the base film. A plurality of second sensors are disposed on the base film. An input sensing driver is configured to sense a capacitance value between a first sensor of the plurality of first sensors and a second sensor of the plurality of second sensors. A pressure sensing part is in contact with the first sensor and the second sensor and includes a synthetic resin and a conductive material.
US11740749B2
A touch sensor integrated display device is provided comprising gate lines and data lines formed on a substrate to be intersected with each other, a plurality of pixel electrodes formed at intersections between the gate lines and the data lines, and a common electrode formed to overlap the plurality of pixel electrodes through an insulating film disposed between the common electrode and the plurality of pixel electrodes, wherein the common electrode includes at least two touch electrodes, each of which is connected to at least one of signal lines arranged in one of a first direction and a second direction crossing the first direction.
US11740748B2
A touch module comprises a substrate and at least one group of touch patterns formed on one side of the substrate, wherein each group of the touch patterns comprises a conductive bridge, an insulating support portion, and a touch electrode portion. The touch module has good bending capacity.
US11740745B2
A liquid crystal display device 10 includes pixel electrodes 11g that are spaced apart from each other, touch electrodes 14, each of which forms a capacitance with a finger, which is a position input body performing position input, to detect a position of input by the finger, which is the position input body, a touch line 15 that is sandwiched between adjacent pixel electrodes 11g and is connected to the touch electrodes 14, and at least two source lines 11j that extend parallel to the touch line 15. The source lines 11j transmit image signals to the pixel electrodes 11g. The source lines 11j are disposed such that one of the two pixel electrodes 11g is sandwiched between the touch line 15 and one of the two source lines 11j and another one of the two pixel electrodes 11g is sandwiched between another one of the two source lines 11j and the touch line 15.
US11740743B2
The present disclosure relates to a display device, a touch panel and a manufacturing method thereof. The touch panel includes a substrate and a touch layer. The touch layer is disposed on a side of the substrate, and includes a first touch area and a border area surrounding the first touch area. The border area includes at least one second touch area, the second touch area includes a plurality of button portions. The button portions include at least one mutual-capacitance button portion, and the mutual-capacitance button portion includes a first touch electrode, a second touch electrode, and a dummy electrode disposed in a same layer, and there is a gap between the first touch electrode and the second touch electrode. The dummy electrode is disposed in the gap between the first touch electrode and the second touch electrode, and separated from the first touch electrode and the second touch electrode.
US11740738B2
A display device includes a display panel that displays an image, an input sensing layer disposed on the display panel and that senses an input applied thereto from outside of the display device, a display driver that receives an image signal and drives the display panel at a first driving frequency or a second driving frequency lower than the first driving frequency, and a sensing driver that drives the input sensing layer. The display panel displays the image in a plurality of frames, each including a first period and/or a second period. The sensing driver drives the input sensing layer in the first period of each of the frames when the display panel is driven at the first driving frequency, and drives the input sensing layer in the second period of each of the frames when the display panel is driven at the second driving frequency.
US11740736B2
Techniques for implementing and/or operating an electronic device including a display pixel layer, which writes a display image during an active period and continues displaying the display image during a blanking period, and a touch sense layer, which generates a first touch image during the active period and a second touch image during the blanking period. The electronic device further includes a controller that determines a first noise metric indicative of display-to-touch noise resulting during the active period based on the first touch image, determines a second noise metric indicative of display-to-touch noise resulting during the blanking period based on the second touch image, and instructs the touch sense layer to not generate a third touch image during a subsequent active period in response to the first noise metric being greater than a noise threshold and the second noise metric not being greater than the noise threshold.
US11740724B2
The present disclosure provides systems and methods that leverage machine learning to perform user input motion prediction. In particular, the systems and methods of the present disclosure can include and use a machine-learned motion prediction model that is trained to receive motion data indicative of motion of a user input object and, in response to receipt of the motion data, output predicted future locations of the user input object. The user input object can be a finger of a user or a stylus operated by the user. The motion prediction model can include a deep recurrent neural network.
US11740722B2
The present invention relates to automotive interface systems and methods. In one embodiment, an automotive interface system includes a steering wheel and an integrated interpolated variable impedance array that comprises a grid of sensing elements. The sensing elements are configured to power on simultaneously and to simultaneously generate multiple currents along multiple current paths in response to sensing a touch wherein the amount of current generated by a sensing element of the grid is directly proportional to the force applied by the touch. The automotive interface system also includes an analog-to-digital converter (ADC) and a processor communicatively coupled to the interpolated variable impedance array that are configured to receive the multiple currents along multiple current paths and determine a location, a duration, an area, and a force of the touch from the multiple currents along multiple current paths.
US11740708B2
An input device may include a housing, a scroll wheel having an arresting surface, and a lever pivotable about a pivot axis between first and second lever arms of the lever for moving a first free end portion of the first lever arm to engage or disengage the arresting surface. The input device may further include a motion converter in engagement with a second free end portion of a second lever arm. The motion converter configured to convert a rotational movement of a rotary member of the motion converter into an output motion to move the second free end portion of the second lever arm so as to pivot the lever about the pivot axis for engaging or disengaging the first free end portion of the first lever arm and the arresting surface of the scroll wheel.
US11740707B1
A portable information handling system is assembled and disassembled by a keystone assembly that couples at an upper surface of the portable housing to overlap a keyboard assembly that covers processing components disposed in the portable housing. The keyboard assembly includes a membrane having plural input sensors and a capacitive touch sensor that interface with a communications hub, such as a USB communications hub coupled to the membrane, that communicates both the keyboard inputs and touchpad inputs to a motherboard through first and second contacts that support a differential serial pair.
US11740701B2
This application provides a haptics structure and a method for fabricating the same, a touch display panel and a touch display device. The haptics structure includes: a base substrate; a platelike deformer on the base substrate; and a strain gauge structure. The deformer includes a first transparent electrode, a second transparent electrode and an electrostrictive material layer between the first transparent electrode and the second transparent electrode, and the electrostrictive material layer is deformed when a voltage is applied between the first transparent electrode and the second transparent electrode. The strain gauge structure is located on a side of the deformer away from the base substrate, and is configured to measure a deformation amount of the deformer.
US11740694B2
Various embodiments include processing devices and methods for managing multisensor inputs on a mobile computing device. Various embodiments may include receiving multiple inputs from multiple touch sensors, identifying types of user interactions with the touch sensors from the multiple inputs, identifying sensor input data in a multisensor input data structure corresponding with the types of user interactions, and determining whether the multiple inputs combine as a multisensor input in an entry in the multisensor input data structure having the sensor input data related to a multisensor input response. Various embodiments may include detecting a trigger for a multisensor input mode, entering the multisensor input mode in response to detecting the trigger, and enabling processing of an input from a touch sensor.
US11740693B2
In various embodiments, a method for processing video streams is described. A plurality of video streams for transmission to a display device are received. The plurality of video streams have respective initial image quality levels. An estimated gaze location of a user of the display device is estimated. At least one video stream of the plurality of video streams is processed to have a modified image quality level based on the estimated gaze location. The modified image quality level is less than a corresponding initial image quality level. The plurality of video streams are transmitted to the display device.
US11740690B2
A method by a wearable device is described. The method includes receiving geometric information from a controller. The geometric information includes a point cloud and a key frame of the controller. The method also includes receiving first six degree of freedom (6DoF) pose information from the controller. The method further includes synchronizing a coordinate system of the wearable device with a coordinate system of the controller based on the point cloud and the key frame of the controller. The method additionally includes rendering content in an application based on the first 6DoF pose information.
US11740679B2
Devices and techniques are disclosed herein for predicting and optimizing energy usage of a device during low-power operation. In an example, a method can include storing a duration of a plurality of low-power intervals of a device, determining a probable duration of a next low-power interval of the device based on the durations of the plurality of low-power intervals, determining a low-power state of the device for the next low-power interval based on the probable duration, upon initiating the next low-power interval, saving state information of one or more sub-systems of the device to provide first state information in response to the low-power state, and upon initiating the next low-power interval, reducing a power state of the one or more sub-systems.
US11740676B2
An integrated circuit may include multiple instances of a component (e.g. a processor) and a control circuit. The instances may be configured to operate in various modes. Some of the modes are incapable of presenting a worst-case load on the power supply. The control circuit may be configured to monitor the instances and detect the modes in which the instances are operating. Based on the monitoring, the control circuit may request to recover a portion of the voltage margin established for worst-case conditions in the instances. If the instances are to change modes, they may be configured to request mode change from the control circuit. If the mode change causes an increase in the current supply voltage magnitude (e.g., to restore some of the recovered voltage margin), the control circuit may cause the restore and permit it to complete prior to granting the mode change.
US11740669B2
An electronic apparatus including at least one heat generating component and an immersion cooling system is provided. The immersion cooling system includes a box body and a condensation module. The box body is adapted to accommodate a coolant, and the heat generating component is disposed in the box body to be immersed in the coolant in a liquid state. The condensation module includes a pipeline and a condensate, and the pipeline passes through the box body and is adapted for the condensate to flow. At least one parameter of the condensate may be changed to lower a boiling point of the coolant to a predetermined value by lowering the temperature in the box body with the condensate. In addition, an operating method of the electronic apparatus is also provided.
US11740667B2
A latch mechanism for securing an expansion card assembly in a computer chassis includes a lever, a stop member, a rotary latch, a first biasing structure, and a second biasing structure. The lever includes a latching end and an opposing pinned end. The stop member extends from the pinned end. The rotary latch is connected to the latching end and includes a receiving chamber and a hook structure. The hook structure includes a notch for receiving a stop pin. The first biasing structure extends from the lever into the receiving chamber and is configured to urge the rotary latch into a locked position. The second biasing structure is configured to urge the lever about the pinned end to an open position.
US11740666B2
Methods and apparatus to operate closed-lid portable computers are disclosed. An example portable compute device includes: a microphone; a speaker; a first camera to face a first direction; and a second camera to face a second direction, the second direction opposite the first direction. The compute device further includes communications circuitry; a first display; a second display separate from the first display; and a hinge to enable the first display to rotate relative to the second display between an open position and a closed position. At least a portion of the second display is capable of being visible when the first display is rotated about the hinge to the closed position. The portion of the second display is multiple times longer in a third direction than in a fourth direction perpendicular to the third direction, the third direction extending parallel to an axis of rotation of the hinge.
