| Document | Document Title |
|---|---|
| US11741126B2 |
Bilateral assertion model and ledger implementation thereof
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. |
| US11741124B2 |
Data ingestion by distributed-computing systems
Techniques for data ingestion by a distributed-computing system are provided. In one embodiment, data received from one or more data sources is processed at a management node of the distributed-computing system. The data is generated by one or more components of an information processing system external to the distributed-computing system. The data is stored at the management plane. The management plane selects, from a plurality of data cores, a data core to ingest the data. The plurality of data cores are stored across one or more data plane containers of a data plane of the distributed-computing system. The management plane processes the data to generate one or more event records corresponding to the data. The one or more event records are sent to the selected data core, which causes the data plane to store the one or more event records in the selected data core. |
| US11741123B2 |
Visualization and exploration of probabilistic models for multiple instances
Embodiments facilitating data exploration in a computing environment by a processor. A multidimensional dataset may be received. The multidimensional dataset may be processed according to booting operation parameters. A visualization and exploration of an interactive representation of one or more probabilistic models for each one of a set of instances using the multidimensional dataset. |
| US11741122B2 |
Vehicle data management device, vehicle data management system, and method of managing vehicle data
A vehicle data management device includes a data acquisition unit and a data conversion unit. The data acquisition unit is configured to acquire, from each of a plurality of in-vehicle devices mounted on a corresponding vehicle of a plurality of vehicles, a vehicle identification information that is set based on at least a model of the vehicle, and a first data that is contained in a communication frame and is indicative of a vehicle information. The data conversion unit is configured to convert the first data into a label and a second data based on a conversion map that contains a label identification information for identifying the label corresponding to the first data, and a conversion information for converting the first data into the second data. The conversion map contains at least one label identification information and at least one conversion information for each vehicle identification information. |
| US11741119B2 |
Canonical data model for distributed data catalog and metadata exchange
Systems, methods, and computer-readable media are provided for data catalogs, metadata repositories, data discovery, and data governance, and in particular, for a canonical model-driven active metadata exchange for distributed data catalogues. Disclosed implementations include an application independent metadata repository with a Canonical Data Model (CDM). The CDM maintains a single set of use case agnostic mappings between data sources and the CDM. The physical mappings of a particular entity in the CDM are used to determine the different applications that are mapped to it and what objects or data structures that are exposed by that particular data source. Other embodiments may be described and/or claimed. |
| US11741112B2 |
Identification of intent and non-intent query portions
Methods and systems for improved categorization of queries are disclosed. In one aspect, a search query is received and determined to match a pattern having an uncategorized variable placeholder portion. In response to determining the search query matches the pattern, the pattern is used to identify a first portion of the search query based on the first portion of the search query corresponding to the uncategorized variable placeholder portion of the pattern. The search query is categorized by assigning, to the search query, a category associated with the first portion of the search query. Search results are generated for the search query using the category associated with the first portion of the search query. |
| US11741108B2 |
System and method of intelligent detection of data model fieldname lineage and context of private individual data in business integration processes
An information handling system operating a private individual data integration protection system comprising a processor receiving a query, submitted electronically, involving a request about private individual data and parsing elements the query, the processor correlating the query with private individual data manipulated within a business integration process modeled and deployed with a business integration application management system identifying data set field names via metadata and labels from the modeled business integration process matching private individual data identified in the query as being manipulated from a source input dataset to a destination dataset by operation of the business integration process, and transmitting a responsive report on the private individual data matching the received query indicating manipulation of the matching private individual data during the executed business integration process. |
| US11741106B2 |
Graph data representation systems and methods for eligibility determination and/or monitoring
Embodiments of the present disclosure provide methods, apparatus, systems, computing devices, computing entities, and/or the like for processing an inclusion of an entity for an event. In accordance with one embodiment, a method is provided that includes: determining whether a graph representation data object comprises an inbound edge connecting an entity node representing the entity with an event node representing the event; and responsive to determining the graph representation data object comprises the inbound edge, performing an action involving inclusion of the entity for the event. The inbound edge is generated via an inbound edge generator machine learning model configured to: traverse entity and/or inclusion edges of the graph representation data object to identify inclusion and entity edges connected, generate an entity score data object for the entity based at least in part on the inclusion edges, and responsive to the data object satisfying a threshold, generate the inbound edge. |
| US11741105B2 |
Intelligent remote monitoring method for fire-fighting
Disclosed is an intelligent remote monitoring method for fire-fighting, including: S1, pre-loading a protocol parsing configuration file in JSON format; S2, acquiring fire-fighting status information and operation status information of fire-fighting IoT equipment to obtain a data frame of a binary protocol; S3, parsing the data frame according to the configuration file to obtain a JSON data object, and pushing the parsed data of the fire-fighting IoT equipment to a routing layer through data push technology including kafka technology and storing in a fire-fighting database; S4: presetting different application modules according to different application services, and determining a routing direction of the data of the fire-fighting IoT equipment according to rules including a device type and a device status, and routing the data of the corresponding fire-fighting IoT equipment to the corresponding application module through the routing layer for triggering processing of events including alarms and faults, so as to realize remote monitoring of fire-fighting. |
| US11741104B2 |
Data access via multiple storage mechanisms in query execution
A method includes determining a query for execution against a dataset that includes a plurality of records, where values of the plurality of records corresponding to a first subset of the plurality of fields are stored via a first storage mechanism, and values of the plurality of records corresponding to a second subset of the plurality of fields are stored via a second storage mechanism. Execution of the query is facilitated by accessing, via the first storage mechanism, values of at least one first field included in the first subset of the plurality of fields and accessing, via the second storage mechanism, values of at least one second field included in the second subset of the plurality of fields. A query resultant for the query is generated based on the values of the at least one first field and the values of the at least one second field. |
| US11741101B2 |
Estimating execution time for batch queries
A computer-implemented method to estimate an execution time for large query batches. The method includes identifying a batch of queries, where the batch of queries where each query is configured to retrieve data from a database. Selecting a first query and generating an access path for the first query including one or more mini plans. Building a learning model for the one or more mini plans. Estimating an estimated execution time for each of the one or more mini plans. Adding each of the estimated execution times for each of the one or more mini plans to determine a first total estimated time for the first query. Displaying the first total estimated time. |
| US11741099B2 |
Supporting database queries using unsupervised vector embedding approaches over unseen data
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 |
Methods and systems for storing and querying database entries with neuromorphic computers
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. |
| US11741096B1 |
Granular performance analysis for database queries
Granular performance analysis may be performed for database queries. Database query performance may be monitored. For some database queries, performance of portions of the database query may be measure. The measure performance of the portions may be compared with performance goals that correspond to the portions of the database query. Portions that do not meet or exceed the corresponding performance goals may be identified so that an indication of the identified portions may be provided. |
| US11741095B2 |
Method and apparatus for generating structured relation information based on a text input
A method of generating structured relation information in an electronic device may include: classifying a first text input received by at least one application installed on the electronic device, into at least one category; extracting, from the first text input, a first entity representing a context of the first text input; generating structured relation information by associating the first entity extracted from the first text input, with a second entity extracted from at least one second text input stored in the electronic device or a server; and displaying the structured relation information on the electronic device. |
| US11741093B1 |
Intermediate communication layer to translate a request between a user of a database and the database
The system receives a request associated with a database including a query and a type associated with the database. The request is expressed in a language not native to the database. The query includes a command in the language not native to the database. The type associated with the database can include an in-memory database, a NoSQL database, or a relational database. Based on the type associated with the database, the system can create a corresponding command native to the database by translating the query to the corresponding command native to the database. The system can connect to the database, execute the corresponding command native to the database, and receive an output of the corresponding command native to the database. The system can translate the output of the corresponding command native to the database into the language not native to the database and provide the translated output to the user. |
| US11741088B2 |
Nested query analysis tool
Techniques for tracing attributes through queries in a set of nested queries are disclosed. A graphical user interface displays individual sub-queries as separate visual representations. Based on detecting a selection, a system analyzes data underlying the visual representations to identify queries, among the set of nested queries, that are associated with a particular attribute. One selection results in the system analyzing the underlying data to identify an origin query for an attribute, from among the set of nested queries. Another selection results in the system analyzing the underlying data to identify queries, from among the set of nested queries, that use the attribute received from a selected query. Another selection results in the system generating SQL code for a selected subset of queries, among the set of nested queries. |
| US11741080B2 |
Dynamic data editor for data analysis system
A data analysis system uses metadata stored in association with database records to render mirror the data collection user interfaces utilized by the data collection systems to create the data records in the database. To enable this data analysis system functionality, the data collection system stores metadata defining the data collection user interface used to create a particular data record in association with that particular data record in the database. The data analysis system can then access the metadata to render a mirror of the data collection user interface on the fly, so that an operator of the data analysis system can create a new database record or edit a preexisting data record using the same user interface that was utilized to originally create the data record. The metadata typically defines the visual aspects, data parameters, and functional aspects of the data collection user interface. |
| US11741078B1 |
Witness service for ensuring data consistency in a distributed storage system
Systems and methods are provided for efficiently maintaining a transaction sequence witness service to ensure that requests to read data provide consistent results across all storage nodes in a distributed system. When a storage node receives a request for a data object, the node may obtain—from transaction sequence witness service—the latest sequence number associated with the object. If the sequence number indicates the object has been modified in the period of time since the currently stored version was stored, the node can obtain the current version from persistent storage. |
| US11741076B2 |
Adaptive snapshot controller
A method and related apparatus adaptively control snapshot replication of a plurality of server snapshots in a multi-tenant public cloud using snapshot service. A plurality of snapshot requests are received from a plurality of clients in the multi-tenant public cloud and are each associated with a service level agreement (SLA). The SLA includes a corresponding completion deadline and a slippage penalty. A probabilistic model calculates, for active snapshot flows, a completion time for each of the snapshot requests. If any of the predicted completion times exceed their corresponding completion deadlines, a possible MISS event is produced for an associated first snapshot. The snapshot controller component, in response to producing the possible MISS event, minimizes a probability of breaching fulfillment times for the multi-tenant cloud. The slippage penalty is calculated for each of the plurality of snapshot requests. A second snapshot is identified from among the plurality of snapshot requests. |
| US11741075B2 |
Methods and system of tracking transactions for distributed ledger
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. |
| US11741073B2 |
Granularly timestamped concurrency control for key-value store
Systems and methods discussed herein, based on a key-value data store including multiple-tiered sorted data structures in memory and storage, implement granularly timestamped concurrency control. The multiple-tiering of the key-value data store enables resolving the snapshot queries by returning data record(s) according to granularly timestamped snapshot lookup instead of singularly indexed snapshot lookup. Queries return a merged collection of records including updates from data structures in memory and in storage, such that a persistent storage transaction may refer to non-committed updates up to a timeframe defined by the snapshot read timestamp. This way, inconsistency is avoided that would result from merely reading data records committed in storage, without regard as to pending, non-committed updates thereto. The global timestamp further modifies the generation of the local transaction commit timestamp and the local snapshot read timestamp, so as to establish a granularly timestamped concurrency control scheme (over three levels of granularity). |
| US11741070B2 |
System and method for behavioral pattern recognition
Disclosed are systems, methods, and devices for pattern extraction. A graph data structure is generated, reflective of a directed graph having vertices representative of entities and edges representative of relationships between two entities. A subgraph data structure is generated, reflective of a plurality of subgraphs of the directed graph. A similarity matrix data structure is generated by applying a graph kernel to obtain a subgraph similarity matrix including a plurality of entries, each entry providing a score of the similarity between two subgraphs of the plurality of subgraphs. A clustering data structure is generated, reflective of a plurality of groups of the plurality entities upon processing the similarity matrix data structure. For at least a given one of the plurality of groups, a common pattern data structure is generated corresponding to a subgraph that is similar to subgraphs in the given group. |
| US11741068B2 |
Methods and apparatus to estimate cardinality of users represented across multiple bloom filter arrays
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. |
| US11741064B2 |
Fuzzy search using field-level deletion neighborhoods
The disclosure provides an efficient dataset search and/or deduplication that improve the speed and efficiency of dataset record search and/or deduplication over traditional methods. Certain implementations apply field-level deletion neighborhood processing to ordered field permutations of dataset records encoded with hash values. A method includes determining a field-level deletion neighborhood for two or more field combinations of the record by determining field hash values, creating field permutations, determining combined record hash values for each permutation; and associating each record hash value to the unique entity identifier. The method includes searching other entity representation records for matching combined record hash values, and assigning one or more of a unique entity identifier and a duplicate entity identifier to the other entity representation records having the matching combined record hash values. Certain implementations can include removing, from the database, at least one of the other entity representation records having a duplicate record identifier. |
| US11741062B2 |
Data structure management system
A computing device generates a first token for first data content that is associated with a first relationship and a second relationship, and a second token for second data content that is associated with the first relationship and a third relationship, such that the first token and second token are generated based on a frequency of use of data values included in the first and the second data content. The computing device calculates a first similarity score of data values from third data content that is associated with the second relationship and a fourth relationship with data values from fourth data content that is associated with the third relationship and the fourth relationship in response to the first and second token matching. The computing device then performs, in response to the first similarity score satisfying a similarity threshold, a first modification to any of the data content. |
| US11741060B2 |
Methods and systems for scalable deduplication
Methods, computer program products, computer systems, and the like are disclosed that provide for scalable deduplication in an efficient and effective manner. For example, such methods, computer program products, and computer systems can include receiving a data object at an assigned node, determining whether the data object includes a sub-data object, and processing the sub-data object. The assigned node is a node of a plurality of nodes of a cluster, where the data object includes a data segment, and a signature. The signature is generated based, at least in part, on data of the data segment. The processing includes sending the sub-data object to a remote node. The remote node is another node of the plurality of nodes of the cluster. |
| US11741059B2 |
System and method for extracting a star schema from tabular data for use in a multidimensional database environment
The application describes a system and method for extracting a star schema from tabular data for use in a multidimensional database. The system can receive a tabular data including a plurality of columns, and determine a relationship between each pair of the plurality of columns by analyzing actual values in a plurality of rows for each pair of columns. Based on the determined relationships among the plurality of columns and a type of each column, the system can use a heuristic process to identify a plurality of cube elements from the plurality of columns to construct a star schema. A user interface can be provided to display potential problems of the star schema, and one or more alternative approaches for a user to select to extract a star schema from the tabular data. |
| US11741057B2 |
Unified data object management system and the method
The present invention relates to a management system, a search method, and a browsing method of a unified data object using a tag object. A unified data object management system and method may efficiently access and manage the data object by storing and managing the unified data objects including a file, non-file data, or dynamic data on the basis of the tag object and then providing a search result based on the tag object when a search command is entered by a user. |
| US11741056B2 |
Methods and systems for allocating free space in a sparse file system
A method for processing requests includes receiving a request to write data, in response to the request, identifying a sparse virtual space segment using an available space tracking metadata hierarchy, and initiating writing of the data to a physical segment, wherein the physical segment is associated with the sparse virtual space segment. |
| US11741055B2 |
Managing file revisions from multiple reviewers
Disclosed are methods and systems for managing file revisions, including revisions of a document. The system may compare various file versions (e.g., revised documents having revisions to a master document from multiple users) with a reference file (e.g., a master document) to obtain the changes (e.g., revisions) in each file version. The system may present the changes from each of the users in a merge interface from which a user may selectively accept or reject the changes from any of the users to update the reference file. |
| US11741050B2 |
Cloud storage class-based variable cache availability
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. |
| US11741046B2 |
Method and apparatus for creating system disk snapshot of virtual machine
A method and apparatus for creating a system disk snapshot of a virtual machine comprises: receiving an instruction for creating a snapshot of a virtual machine; determining existence of a power-on state; renaming a top file in a system disk in response to the received instruction if the power-on state exists; creating a new top file in response to renaming the top file, directing dependency of the new top file to the renamed top file and opening the new top file; determining whether a preceding snapshot is created successfully; using the renamed top file as a first snapshot file if the preceding snapshot is successful; and uploading the first snapshot file to a file management server. Accordingly, when a system disk snapshot is created in a power-on state, the snapshot may be created without stopping the virtual machine, thereby reducing requirements for data back up, storage space, and network bandwidth. |
| US11741044B2 |
Issuing instructions on a vector processor
The present disclosure relates to a mechanism for issuing instructions in a processor (e.g., a vector processor) implemented as an overlay on programmable hardware (e.g., a field programmable gate array (FPGA) device). Implementations described herein include features for optimizing resource availability on programmable hardware units and enabling superscalar execution when coupled with a temporal single-instruction multiple data (SIMD). Systems described herein involve an issue component of a processor controller (e.g., a vector processor controller) that enables fast and efficient instruction issue while verifying that structural and data hazards between instructions have been resolved. |
| US11741043B2 |
Multi-core processing and memory arrangement
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. |
| US11741042B2 |
Scalable 2.5D interface circuitry
A multichip package having a main die coupled to one or more daughter dies is provided. The main die may include embedded universal interface blocks (UIB) each of which can be used to interface with a corresponding daughter die to support high bandwidth parallel or serial communications. Each UIB may include an integrated processor subsystem and associated pattern sequencing logic to perform interface initialization and margining operations. Each UIB may perform simultaneous accesses to a daughter die across one or more channels. Each UIB may also include multiple phase-locked loop circuits for providing different clock signals to different portions of the UIB and a 2× clock phase generation logic. Each UIB may include multiple IO modules, each of which may optionally include its own duty cycle correction circuit. Each IO module may include buffer circuits, each of which may have a de-emphasis control logic for adjusting buffer drive strength. |
| US11741036B2 |
Unified smart connector
Techniques are provided for centrally analyzing data in a cloud environment. Data can be received from a cloud provider and a machine learning model of a unified smart connector is applied to the data in order to create modeled data. An operation status can be determined based on the modeled data and the unified smart connector can independently determine, for example, if additional data is needed, the type of data needed, and the source of the data. |
| US11741033B2 |
Dynamically configurable interconnect in a seamlessly integrated microcontroller chip
Techniques in electronic systems, such as in systems comprising a CPU die and one or more external mixed-mode (analog) chips, may provide improvements advantages in one or more of system design, performance, cost, efficiency and programmability. In one embodiment, the CPU die comprises at least one microcontroller CPU and circuitry enabling the at least one CPU to have a full and transparent connectivity to an analog chip as if they are designed as a single chip microcontroller, while the interface design between the two is extremely efficient and with limited in number of wires, yet may provide improved performance without impact to functionality or the software model. |
| US11741030B2 |
High performance interconnect
A physical layer (PHY) is coupled to a serial, differential link that is to include a number of lanes. The PHY includes a transmitter and a receiver to be coupled to each lane of the number of lanes. The transmitter coupled to each lane is configured to embed a clock with data to be transmitted over the lane, and the PHY periodically issues a blocking link state (BLS) request to cause an agent to enter a BLS to hold off link layer flit transmission for a duration. The PHY utilizes the serial, differential link during the duration for a PHY associated task selected from a group including an in-band reset, an entry into low power state, and an entry into partial width state. |
| US11741028B1 |
Efficiently striping ordered PCIe writes across multiple socket-to-socket links
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 |
Cache architecture for a storage device
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. |
| US11741022B2 |
Fine grained memory and heap management for sharable entities across coordinating participants in database environment
Many computer applications comprise multiple threads of executions. Some client application requests are fulfilled by multiple cooperating processes. Techniques are disclosed for creating and managing memory namespaces that may be shared among a group of cooperating processes in which the memory namespaces are not accessible to processes outside of the group. The processes sharing the memory each have a handle that references the namespace. A process having the handle may invite another process to share the memory by providing the handle. A process sharing the private memory may change the private memory or the processes sharing the private memory according to a set of access rights assigned to the process. The private shared memory may be further protected from non-sharing processes by tagging memory segments allocated to the shared memory with protection key and/or an encryption key used to encrypt/decrypt data stored in the memory segments. |
| US11741013B2 |
Prefetch buffer of memory sub-system
Various embodiments described herein provide for using a prefetch buffer with a cache of a memory sub-system to store prefetched data (e.g., data prefetched from the cache), which can increase read access or sequential read access of the memory sub-system over that of traditional memory sub-systems. |
| US11741009B1 |
Request ordering in a cache
A cache may include multiple request handling pipes, each of which may further include multiple request buffers, for storing device requests from one or more processors to one or more devices. Some of the device requests may require to be sent to the devices according to an order. For a given one of such device requests, the cache may select a request handling pipe, based on an address indicated by the device request, and select a request buffer, based on the available entries of the request buffers of the selected request handling pipe, to store the device request. The cache may further use a first-level and a second-level token stores to track and maintain the device requests in order when transmitting the device requests to the devices. |
| US11740993B2 |
Debug trace of cache memory requests
An apparatus includes a plurality of processor circuits, a cache memory circuit, and a trace control circuit. The trace control circuit may be configured, in response to activation of a mode to record information indicative of program execution of at least one processor circuit of the plurality of processor circuits, to monitor memory requests transmitted between ones of the plurality of processor circuits and the cache memory circuit, and then to select a particular memory request of monitored memory requests using an arbitration algorithm. The trace control circuit may be further configured to allocate space in a trace buffer to the particular memory request, and to store, in the trace buffer, information associated with the particular memory request. |
| US11740991B2 |
Assignment of tasks between a plurality of devices
A method that includes defining a functionality of a system, wherein the system includes at least a first device in a first device category and a second device in a second device category, defining a configuration of the system, determining a plurality of tasks comprised in an application, wherein the application is to be executed by the system, simulating, using a simulation environment, execution of the application in the system when the tasks comprised in the application are assigned to be executed by the first device or the second device, based on the simulation, modifying the assignment of the tasks, distributing the application to the system, and receiving data regarding the execution of the application. |
| US11740989B2 |
Generating performance metrics from events derived from user interface logs
System and methods are described for parsing log data items to find events in the log data items, wherein an event comprises at least a portion of a log data item matching an event definition; aggregating a plurality of performance metric definitions into a single expression; and generating a plurality of performance metrics from the events by applying the single expression to the events. |
| US11740988B2 |
Secure detection and correction of inefficient application configurations
Methods and systems for detecting and correcting inefficient application configurations are presented. In one embodiment, a method is provided that includes receiving, at a first computing environment, a configuration for and execution metrics of an application executed within a second computing environment; identifying, via a machine learning model, a corresponding preferred configuration and expected metrics associated with the corresponding preferred configuration; identifying a difference between at least one of the execution metrics and at least one of the expected metrics; and applying the corresponding preferred configuration to the application within the second computing environment. |
| US11740986B2 |
System and method for automated desktop analytics triggers
The present invention is a method and system for automatedly producing at least one desktop analytics trigger. Upon receiving at least one type of data input, the system analyzes the data input and produces at least one desktop analytics trigger based on the results of the analysis of the data input. The data input can include data on the programs, applications, or information a user utilizes during a task, to allow use of desktop process analytics. This process may be used to either generate a new desktop analytics trigger or update an existing desktop analytics trigger. |
| US11740984B1 |
Testing hardware in a quantum computing system
In a general aspect, quantum computing system performance is tested. Systems and methods for testing hardware in a quantum computing system are described. The methods may include certification/decertification of data produced by the quantum computing system, detection of faults, correction of errors and/or recalibration/replacement of the quantum computing system or a quantum computing subsystem. |
| US11740982B2 |
Service takeover method, storage device, and service takeover apparatus
The present disclosure describes example service takeover methods, storage devices, and service takeover apparatuses. In one example method, when a communication fault occurs between two storage devices in a storage system, the two storage devices respectively obtain running statuses of the two storage devices. A running status can reflect current usage of one or more system resources of a particular storage device. Then, a delay duration is determined according to the running statuses, where the delay duration is a duration for which the storage device waits before sending an arbitration request to a quorum server. The two storage devices respectively send, after the delay duration, arbitration requests to the quorum server to request to take over a service. The quorum server then can select a storage device in a relatively better running status to take over a host service. |
| US11740981B2 |
Method and apparatus for generating log data having increased filterability
A method and system includes generating event logs, storing in a database log data comprising the generated event logs, identifying a first set of log data by searching the log data for a first log data type, the first log data type having a data structure that includes a generic identifier and a specific data, identifying pairs of generic identifiers and associated specific data in the first set of log data, for each generic identifier of the identified pairs identifying a second set of log data that include the generic identifier but not the specific data, wherein identifying the second set of log data is performed by searching the log data for event logs that include the generic identifier, and updating log data stored in the database by adding, for each of the event logs of the identified second set of log data, the specific data associated with the generic identifier. |
| US11740977B2 |
Efficient deduplication based file movement for load balancing in a scaled-out backup system
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. |
| US11740973B2 |
Instruction error handling
An instruction storage circuit within a processor that includes an instruction memory and a memory control circuit. The instruction memory is configured to store instructions of a program for the processor. The memory control circuit is configured to receive a particular instruction from the instruction memory, detect a data integrity error in the particular instruction, and generate and store a corrected version of the particular instruction in an error storage circuit within the instruction memory. A flush of an execution pipeline may be performed in response to the error. In response to a refetch of the particular instruction after the pipeline flush, the instruction storage circuit may be configured to cause the particular instruction to be provided from the error storage circuit to the execution pipeline to permit forward progress of the processor. |
| US11740972B1 |
Migrating data in a vast storage network
Methods and apparatus for use in a storage network operate by: storing, in a first storage unit of a first set of storage units of the storage network, a first encoded data slice corresponding to at least one data object; assigning one or more additional storage units to the storage network to form a second set of storage units, the second set of storage units including the one or more additional storage units; migrating the first encoded data slice from the first storage unit to at least one of the one or more additional storage units of the second set of storage units; and reallocating a mapping of the first encoded data slice from the first storage unit to the at least one of the one or more additional storage units of the second set of storage units. |
| US11740971B2 |
Distributed erasure coded virtual file system
A plurality of computing devices are communicatively coupled to each other via a network, and each of the plurality of computing devices comprises one or more of a plurality of storage devices. A plurality of failure resilient address spaces are distributed across the plurality of storage devices such that each of the plurality of failure resilient address spaces spans a plurality of the storage devices. Each one of the plurality of failure resilient address spaces is organized into a plurality of stripes. Each one or more stripes of the plurality of stripes is part of a respective one of a plurality of forward error correction (FEC) protection domains. Each of the plurality of stripes may comprise a plurality of storage blocks. Each block of a particular one of the plurality of stripes may reside on a different one of the plurality of storage devices. |
| US11740969B2 |
Detecting and recovering a corrupted non-volatile random-access memory
An information handling system includes a memory manager that may detect corruption of a non-volatile random-access memory, and perform a recovery process of the non-volatile random-access memory that includes determining whether a header of the non-volatile random-access memory is corrupted. If the header is not corrupted, then a data region associated with the header may be recovered from recovery data values in a spare store in the non-volatile random-access memory. If the header is corrupted, then the header and the data region may be recovered from default data values. |
| US11740967B2 |
Memory device, memory system, and method of operating the same
A memory device, a memory system, and a method of operating the same. The memory device includes a memory cell array including a plurality of memory cells and a write command determination unit (WCDU) that determines whether a write command input to the memory device is (to be) accompanied a masking signal. The WCDU produces a first control signal if the input write command is (to be) accompanied by a masking signal. A data masking unit combines a portion of read data read from the memory cell array with a corresponding portion of input write data corresponding to the write command and generates modulation data in response to the first control signal. An error correction code (ECC) engine generates parity of the modulation data. |
| US11740966B2 |
Memory device and operating method of the memory device and host device
A memory device, and an operating method of the memory device and a host device are provided. The method of operating a memory device includes receiving a command for requesting an Eye Open Monitor (EOM) operation performance from a host device, receiving pattern data including data and non-data from the host device, performing the EOM operation which performs an error count to correspond to the data, and does not perform the error count on the non-data, and transmitting an EOM response signal including the error count result to the host device. |
| US11740962B2 |
Quantum error correction
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. |
| US11740961B1 |
Data recovery using dynamic segment ordering
Methods, systems, and apparatuses include generating recovery likelihood metrics for undecodable segments in a stripe of data distributed across a redundant array of storage nodes. The recovery likelihood metrics are based on a determination of a likelihood of recovering the undecodable segment. The undecodable segments are ranked based on the recovery likelihood metrics. The undecodable segments are recovered in an order based on the ranking starting with the undecodable segment with the highest likelihood of recovery. |
| US11740957B2 |
Prioritization of error control operations at a memory sub-system
A failure of a first memory access operation is detected at a memory device. Responsive to the detection, a first error control operation and a second error control operation are performed. In response to a determination that the second error control operation has remedied the failed first memory access operation, the second error control operation is associated with a second priority which is higher than a first priority associated with the first error control operation. |
| US11740955B2 |
Method, electronic device, and computer program product for extracting fault information from log files
Embodiments of the present disclosure relate to a method for providing log information, an electronic device, and a computer program product. A method for providing log information includes: determining a first set of semantic segments including fault information from multiple semantic segments into which a set of log files of a target system is divided; extracting key information specific to the target system from the first set of semantic segments; determining, based on the extracted key information, an application scenario involved in the fault information and at least one log file related to the application scenario in the set of log files; determining a second set of semantic segments including the key information from multiple semantic segments into which the at least one log file is divided; and providing the first set of semantic segments and the second set of semantic segments by highlighting the fault information and the key information in the first set of semantic segments and the second set of semantic segments. The embodiments of the present disclosure contribute to improving the efficiency of a user in locating the cause of a system fault, thereby improving user satisfaction. |
| US11740954B2 |
Method, apparatus and system for storing fault data, and computer-readable medium
Provided are a method, apparatus and system for storing fault data, an embodiment of the fault data storage method including: acquiring fault data of a target electrical device; sending a consensus request for the fault data, usable to request that consensus personnel who use the consensus client reach a consensus for the reason why the target electrical device is faulty, to at least one consensus client; respectively receiving a consensus result from each consensus client, the consensus result being formed by the consensus client according to the triggering of the consensus personnel; determining, according to each received consensus result, whether the reason for why the target electrical device is faulty is due to device quality; generating, upon the reason for why the target electrical device is faulty being due to device quality, a first data block which contains the fault data; and storing the first data block into a blockchain. |
| US11740953B2 |
Solder joint damage-prevention mode for a computing device
This document describes techniques and apparatuses including a solder joint damage-prevention mode for a computing device. In general, the computing device may enter the solder joint damage-prevention mode to transfer heat to solder joints and prevent failure mechanisms such as fracture, creep, and/or fatigue. The solder joint damage-prevention mode may rely upon one or more operations, including identifying a state of the computing device in or following which damage to the solder joints has an increased likelihood and, in response, activating a thermal-conditioning system. The thermal-conditioning system may, in general, increase a temperature of the solder joints to improve mechanical robustness of the solder joints. |
| US11740952B2 |
Interconnected framework for distributed data realization
Embodiments of the present disclosure provide a system, including at least one processor and a memory component having instructions stored thereon, which, when executed by the processor, cause the processor to perform operations, including presenting data from a distributed network of data sources via a user interface of a user device, by identifying a set of frames associated with the user, the frames including data from the data sources loaded into frames of a container page, authenticating the set of frames, and generating the container page for display. Operations include facilitating secure communications between the authenticated frames of the container page, by receiving a message from one of the authenticated frames, verifying authenticated status of the sender frame, and transmitting the message to target frames. Operations further include presenting an updated version of the data from the data sources, based on the secure communications, by updating the container page. |
| US11740949B2 |
Distribution of events in edge devices
The disclosed technology is generally directed to communications in an IoT environment. In one example of the technology, a plurality of module twins that respectively correspond to a plurality of modules of edge applications on a plurality of edge devices are stored. The plurality of module twins individually include metadata associated with the corresponding module of the plurality of modules. At least one module of the plurality of modules to be modified by adding a declarative rule is determined, such that the declarative rule causes determining whether an event has been triggered based on a particular event having been determined to have occurred, and, in response to the triggering of the event, communicating the triggering of the event to at least one declarative target. The determined at least one module of the plurality of modules is caused to be modified by adding the declarative rule. |
| US11740947B2 |
Resilient adaptive biased locking in multi-thread concurrent program execution
A computer-implemented method and system for resilient adaptive biased locking. The method includes adding, in a system including an adaptive lock reservation scheme having a learning state, a component comprising a per class counter that counts, collectively, a number of learning failures and a number of revocation failures. An embodiment includes initializing the per class counter upon loading a class with a predetermined value representing at least one of a maximum number of learning failures and cancellation instances associated with the class. An embodiment includes initializing, based on a determination of an operational state of the per class counter for an object transitioning from one of the learning state and a biased state to a flatlock state, a lock word of the object directly to the flatlock state while bypassing the biased state. |
| US11740941B2 |
Method of accelerating execution of machine learning based application tasks in a computing device
The present invention describes a method of accelerating execution of one or more application tasks in a computing device using machine learning (ML) based model. According to one embodiment, a neural accelerating engine present in the computing device receives a ML input task for execution on the computing device from a user. The neural accelerating engine further retrieves a trained ML model and a corresponding optimal configuration file based on the received ML input task. Also, the current performance status of the computing device for executing the ML input task is obtained. Then, the neural accelerating engine dynamically schedules and dispatches parts of the ML input task to one or more processing units in the computing device for execution based on the retrieved optimal configuration file and the obtained current performance status of the computing device. |
| US11740939B2 |
Data linkage system and API platform
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. |
| US11740938B2 |
Methods and systems of scheduling computer processes or tasks in a distributed system
A cloud computer system is provided that includes a plurality of computer devices and a database. The plurality of computer devices execute a plurality of virtual machines, with one of the virtual machines serving as a controller node and the remainder serving as worker instances. The controller node is programmed to accept a request to initiate a distributed process that includes a plurality of data jobs, determine a number of worker instances to create across the plurality of computer devices, and cause the number of worker instances to be created on the plurality of computer devices. The worker instances are programmed to create a unique message queue for the corresponding worker instance, and store a reference for the unique message queue that was created for the corresponding worker to the database. The controller node retrieves the reference to the unique message queues and posts jobs to the message queues for execution by the worker instances. |
| US11740924B2 |
System and method for implementing network experience shifting
Novel tools and techniques are provided for implementing network experience shifting, and, in particular embodiments, using either a roaming or portable hypervisor associated with a user or a local hypervisor unassociated with the user. In some embodiments, a network node in a first network might receive, via a first network access device in a second network, a request from a user device to establish roaming network access, and might authenticate a user associated with the user device, the user being unassociated with the first network access device. Based on a determination that the user is authorized to access data, content, profiles, and/or software applications that are accessible via a second network access device, the network node might establish a secure private connection through a hypervisor or container communicatively coupled to the first network access device to provide the user with access to her data, content, profiles, and/or software applications. |
| US11740923B2 |
Architecture of networks with middleboxes
Some embodiments provide a system for implementing a logical network that includes a set of end machines, a first logical middlebox, and a second logical middlebox connected by a set of logical forwarding elements. The system includes a set of nodes. Each of several nodes includes (i) a virtual machine for implementing an end machine of the logical network, (ii) a managed switching element for implementing the set of logical forwarding elements of the logical network, and (iii) a middlebox element for implementing the first logical middlebox of the logical network. The system includes a physical middlebox appliance for implementing the second logical middlebox. |
| US11740922B2 |
System and method for providing an InfiniBand SR-IOV vSwitch architecture for a high performance cloud computing environment
Systems and methods are provided for implementing a Virtual Switch (vSwitch) architecture that supports transparent virtualization and live migration. In an embodiment, a vSwitch with prepopulated Local Identifiers (LIDs). Another embodiment provides for vSwitch with dynamic LID assignment. Another embodiment provides for vSwitch with prepopulated LIDS and dynamic LID assignment Moreover, embodiments of the present invention provide scalable dynamic network reconfiguration methods which enable live migrations of VMs in network environments. |
| US11740921B2 |
Coordinated container scheduling for improved resource allocation in virtual computing environment
The technology provides for allocating an available resource in a computing system by bidirectional communication between a hypervisor and a container scheduler in the computing system. The computing system for allocating resources includes one or more processors configured to receive a first scheduling request to initiate a first container on a first virtual machine having a set of resources. A first amount of resources is allocated from the set of resources to the first container on the first virtual machine in response to the first scheduling request. A hypervisor is notified in a host of the first amount of resources allocated to the first container. A second amount of resources from the set of resources is allocated to a second virtual machine in the host. A reduced amount of resources available in the set of resources is determined. A container scheduler is notified by the hypervisor for the reduced amount of resources of the set of resources available on the first virtual machine. |
| US11740918B2 |
Method for accessing application logs within virtual machines based on operator-defined criteria
Log information is retrieved from a log of a container running in a virtual machine in response to a request for the log information, by accessing a virtual disk of the virtual machine, reading the log of the container from the virtual disk and preparing the requested log information from the log, and transmitting the requested log information to a virtual machine (VM) management process running in a host computer of the virtual machine for the VM management process to forward to a requestor of the log information. Alternatively, log data of the container running in the virtual machine may be streamed to the VM management process over a virtual socket communication channel that is established between the virtual machine and the VM management process. |
| US11740917B2 |
System and method for platform-integrated custom applications
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. |
| US11740916B1 |
System and method for providing a customized graphical user interface based on user inputs
A system and method that provides customized graphical user interfaces on mobile devices based on user inputs. An exemplary method includes detecting a computing device remotely connected to a remote server over a network and having an active session of a software application running on the remote server. Moreover, the method further includes identifying and selecting one or more hotkey buttons based on the detected software application, transmitting the one or more hotkey buttons to the computing device to be displayed in a customized interface while the software application is active, detecting an activation of the one or more hotkey buttons displayed on the computing device, and executing, by the remote server, an operation for the active software application in response to the activation of the one or more hotkey button by the user. |
| US11740914B2 |
Positioning user interface components based on application layout and user workflows
Technologies are disclosed herein for positioning application windows based on existing application layout and anticipated user workflows. When an existing application window and a recently launched application window are determined to be related to a workflow, and the default position of the recently launched application window is determined to overlap with the existing application window, the recently launched application window may be displayed in a non-default display region to avoid occlusion. By avoiding occlusion, the foldable device may provide a user-friendly application layout, reducing the number of times a user will move, resize, or switch between application windows in the workflow. This in turn may improve device performance and efficiency while reducing errors attributable to user input. The user-friendly layout may also enable a user to view more content at the same time, increasing productivity, reducing eye strain, facilitating operations such as cut and paste, etc. |
| US11740912B2 |
Operation support apparatus, system, method, and non-transitory computer readable medium storing program
An operation support apparatus (100) includes a storage unit (110) configured to store time-series data (111), and operation information (112), a specification unit (120) configured to specify a plurality of change points in a change trend of the states from the time-series data (111), and specify each of a plurality of time windows as one of a plurality of operating modes in the target system, and an operation-set generation unit (130) configured to extract, for each of the plurality of time windows, a set of operations performed at a time included in that time window from the operation information (112), generate an operating-mode operation set (113) in which the operating modes corresponding to the respective time windows are associated with the extracted set of operations, and stores the generated operating-mode operation set (113) in the storage unit (110). |
| US11740910B2 |
Virtual machine boot data prediction
An indication that a virtual machine is starting is received. Requested data blocks associated with the virtual machine are identified. Based on identifiers of the requested data blocks, a trained learning model is used to predict one or more subsequent data blocks likely to be requested while the virtual machine is starting. The one or more subsequent data blocks are caused to be preloaded in a cache storage. |
| US11740904B2 |
Vector friendly instruction format and execution thereof
A vector friendly instruction format and execution thereof. According to one embodiment of the invention, a processor is configured to execute an instruction set. The instruction set includes a vector friendly instruction format. The vector friendly instruction format has a plurality of fields including a base operation field, a modifier field, an augmentation operation field, and a data element width field, wherein the first instruction format supports different versions of base operations and different augmentation operations through placement of different values in the base operation field, the modifier field, the alpha field, the beta field, and the data element width field, and wherein only one of the different values may be placed in each of the base operation field, the modifier field, the alpha field, the beta field, and the data element width field on each occurrence of an instruction in the first instruction format in instruction streams. |
| US11740903B2 |
Computing machine using a matrix space and matrix pointer registers for matrix and array processing
This disclosure relates to methods and mechanisms for matrix computing which include machine embodiments with one or more matrix storage spaces for holding matrices and arrays for computing, where a matrix or an array is accessible by its columns, by its rows, or both, individually, or concurrently. A set of methods and mechanisms to build a large capacity instruction set with multi-length instructions to load, store, and compute with these matrices and arrays are also disclosed. Methods and access control mechanisms with keys to secure, share, lock and unlock regions in the storage space for matrices and arrays under the control of an operating system or a virtual machine hypervisor by permitted threads and processes are also disclosed. Methods and mechanisms to handle long immediate operands for use by shorter instructions using a payload instruction are also disclosed. The structure of the instructions with key instruction fields and a method for determining instruction length are also disclosed. |
| US11740900B2 |
Associatively indexed circular buffer
Some embodiments of the present disclosure provide an associatively indexed circular buffer (ACB). The ACB may be viewed as a dynamically allocatable memory structure that offers in-order data access (say, first-in-first-out, or “FIFO”) or random order data access at a fixed, relatively low latency. The ACB includes a data store of non-contiguous storage. To manage the pushing of data to, and popping data from, the data store, the ACB includes a contiguous pointer generator, a content addressable memory (CAM) and a free pool. |
| US11740893B2 |
Trend monitoring of code repositories and related information
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. |
| US11740892B2 |
Vehicle control apparatus
A vehicle control apparatus including: a storage portion configured to store therein a vehicle control software for controlling a vehicle; an updating portion configured to update the vehicle control software stored in the storage portion, to an update software, and an operation check portion configured, when the update software is stored in the storage portion, to make an operation check as to whether the vehicle operates normally or not, by executing processing of the update software on condition that the vehicle is in a vehicle stopped state in which the vehicle is suppressed from being moved in forward and reverse directions. When it is checked by the operation check portion that the vehicle operates normally with the processing of the update software, the updating portion is configured to update the vehicle control software to the update software. |
| US11740890B2 |
System and method for implementing a platform and language agnostic smart SDK upgrade module
Various methods, apparatuses/systems, and media for automatically upgrading an application are disclosed. A processor creates a dynamic machine learning (ML) model; trains the dynamic ML model and scans for SDK upgrade for the application against the dynamic ML model by implementing ML algorithm for predictions. The processor executes the SDK upgrade in response to detecting that the training of the dynamic ML model is completed to trigger the processor to perform the following automated processes: implement the ML algorithm against the trained dynamic ML model to generate predictive results data for deprecated reference corresponding to the application; evaluate the predictive results data to determine whether there is a match for the deprecated reference; and when it is determined that there is a match for the deprecated reference, automatically replace code and upgrade the application to newer version of the programming language specification. |
| US11740889B2 |
Software update apparatus, software update method, non-transitory storage medium storing program, vehicle, and OTA master
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. |
| US11740888B2 |
Method and system for verification of patch installation
A system and a method are provided for automating a mainframe patch scanning process for verifying that patches for correcting code deficiencies, bugs, and vulnerabilities have been properly installed across various computer network platforms for tracking and operational continuity purposes. The method includes: receiving a software module; assigning risk attributes to the software module, and determining an operating level agreement based on the risk attributes; deploying the software module to at least one destination within a mainframe computing apparatus environment; and obtaining data indicating whether the deployed software module has been installed in accordance with the operating level agreement, by scanning each mainframe logical partition within which the software module is intended to be installed. |
| US11740882B2 |
Modular software integration tools and systems
There is provided a system, including an application configured to cause a computing system to execute a set of instructions. The system also includes a back-end engine configured to render the application compatible for deployment on each of at least two cloud environments, wherein the at least two cloud environments have different architectures or protocols. |
| US11740880B2 |
Partial data type promotion to exploit efficient vectorization in microprocessors
Aspects of the invention include a compiler detecting an expression in a loop that includes elements of mixed data types. The compiler then promotes elements of a sub-expression of the expression to a same intermediate data type. The compiler then calculates the sub-expression using the elements of the same intermediate data type. |
| US11740878B1 |
Creating CLI packages and API playbooks from codified graphical user experience designs
Codified graphical user experience design includes finite state machine (FSM) metadata, logic describing the graphical aspects of the user experience design, and logic describing states of the user experience design and transitions between states. A GUI to API/CLI translator uses the codified graphical user experience design to automatically create corresponding CLI packages and API playbooks. The translator walks the FSM. For each visited state, a state based functional intermediate code package is created including the one or more API call basic blocks associated with API calls to be implemented at that state, and parameter definitions for each API call at that state. For each state transition, conditional intermediate code is created and attached to the API call basic blocks. The state based functional intermediate code packages with attached conditional intermediate code are used to create a CLI package or an API playbook based on the codified graphical user experience design. |
| US11740877B2 |
Application authoring using web-of-sheets data model
Representations of a set of cards are displayed via an application authoring interface. A given card represents one or more screen layouts of an application, and contents of a particular card are based on contents of a data sheet materialized in accordance with a data model which enables automatic instantiation of child data sheets associated with a parent cell within a parent data sheet. In response to detecting an edit operation directed at a particular card, an updated representation of the particular card is displayed at the first application authoring interface, and a screen layout corresponding to the updated representation is rendered at a particular mobile computing device. |
| US11740873B2 |
Codeless specification of software as a service integrations
A computational instance may include, in database tables, representations of computing services provided by remote networks. One or more processors disposed in the computational instance may cause a computing-service-neutral cloud integration application to perform operations including: obtaining a specification related to a remote network, where the specification defines: (i) an integration point for the remote network, (ii) a pagination type associated with the integration point, and (iii) mappings between descriptions of the computing services provided by the remote network and fields of the database tables. The operations may further include requesting and receiving, via the integration point, first descriptions of the computing services; determining, from the pagination type and the integration point, a second integration point for the remote network; requesting and receiving, via the second integration point, second descriptions; and storing, in the database tables, the first descriptions and the second descriptions in accordance with the mappings. |
| US11740863B2 |
Search and knowledge base question answering for a voice user interface
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. |
| US11740855B2 |
Account aware media preferences
Embodiments described herein involve providing media item preferences according to a user account of a user providing the preference, rather than a user account providing the media item. When a user indicates a preference for a media item, the preference are associated with that particular user, rather than with another user whose account the media item may have been accessed and played through when the particular user indicated the preference. As a result, a media preference history associated with the account providing the media item will not be disrupted by other users indicating preferences for the media item. Further, users may build on their respective media preference histories even when listening to music provided by someone else. |
| US11740852B2 |
Eyewear including multi-user, shared interactive experiences
Eyewear providing an interactive augmented reality experience between two users of eyewear devices to perform a shared group task. During a shared group task session, each eyewear user can manipulate virtual objects displayed in a respective virtual scene that is viewable to each use to perform collaboration. The virtual objects can include many different types of objects, such as a building structure that can be jointly created and edited by the eyewear users. |
| US11740844B2 |
Application isolation system
A facility for managing a document conversion environment is described. In various embodiments, the facility includes a native application associated with a native document type and an isolation service. The isolation service determines whether a native application associated with the native document type has started and when it has not started, starts the native application and causes the started native application to load and convert a native document to a common document format, wherein the isolation service starts a single instance of the native application and monitors the single instance of the native application so that it complies with specified a parameter, condition, or setting of operation. |
| US11740842B2 |
Server for providing a cloud print service, control method, and storage medium for managing print data
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 |
System and method of providing universal mobile internet proxy printing
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. |
| US11740838B2 |
Array-based copy utilizing one or more unique data blocks
An information handling system includes a first storage array having a first logical block table with logical block addresses. Each logical block address includes a pointer to an associated data block in a first storage volume of the first storage array. The second storage array includes a second logical block table having the logical block addresses and a second storage volume. The first storage array receives a data read command from the second storage array to a first logical block address, and in response to the data read command, determines that a data block pointed to by the first logical block address in the first storage array is also pointed to by second logical block address that is adjacent to the first logical block address in the first logical block table, and sends the data block and metadata to the second storage array, the metadata indicating that the second logical block address points to the data block. |
| US11740830B2 |
Information processing apparatus
An information processing apparatus in which a controller continues transmission, based on a status in which a response to a writing instruction is received from a first storage device, and a response to the writing instruction is not received from a second storage device, of data to the first storage device, and stops transmission of data to the second storage device, and based on a status in which a second communication IF receives a completion notification of storing of the data that is issued by the first storage device, a first communication IF transmits a completion notification of processing corresponding to the writing instruction. |
| US11740828B2 |
Data expiration for stream storages
The described technology is generally directed towards fine-grained data event expiration in a streaming data storage system. An event to append is given an expiration period, and the expiration time for the events in a data stream or segment of a data stream is the largest expiration time among events in the data stream or segment. Different segments can have different expiration times for their events. In a segment comprising a group of events, a subgroup of expired events prior to a stream cut are deleted by an expiration task. For a subgroup of unexpired events prior to a stream cut, the expiration task retains (does not delete) the subgroup of events. If a scaling operation is performed on a segment, the new successor segment or segments inherit the largest expiration time of the predecessor segment or segments. |
| US11740823B2 |
Storage system and storage control method
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. |
| US11740821B2 |
Cost-aware garbage collection for cloud storage
Embodiments are directed to a cost-aware object selection for cloud garbage collection that deletes completely dead objects and also selects low-live objects up to a carefully selected liveness threshold value. This threshold is dynamically chosen per cloud garbage collection cycle by balancing costs including egress, input/output operations (IOPs), storage cost of cleaning partial live objects, and the storage cost incurred by leaving behind dead data by not cleaning the object. The threshold value is dynamically calculated to accommodate different cost models for different cloud providers and also caters to different costs for different storage tiers. |
| US11740820B1 |
Block allocation methods and systems in a networked storage environment
Methods and systems for a storage environment are provided. One method includes identifying, by a processor, a plurality of block numbers of a fragmented address space for re-allocation, each block number associated with data stored by a file system in a storage device of a storage system; determining, by the processor, compressed data associated with a block number from among the plurality of block numbers; verifying, by the processor, that an indirect block of a hierarchical structure maintained by the file system references the block number associated with the compressed data; and copying, by the processor, the compressed data to a new block, without decompressing the data. |
| US11740814B2 |
Quick activate for memory sensing
Methods, systems, and devices for quick activate for memory sensing are described. An operating mode that is associated with a command sequence having a reduced duration relative to another operating mode may be configured at a memory device. The operating mode may be configured based on determining that a testing procedure does not attempt to preserve or is independent of preserving a logic state of accessed memory cells, among other conditions. While operating in the mode, the memory device may perform a received activate command using a first set of operations having a first duration—rather than a second set of operations having a second set of operations having a second, longer duration—to perform the received activate command. The first set of operations may also use less current or introduce less disturbance into the memory device relative to the second set of operations. |
| US11740813B2 |
Memory system for processing a delegated task and an operation method thereof
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. |
| US11740811B2 |
Reseeding a mediator of a cross-site storage solution
Systems and methods for making a cross-site storage solution resilient towards mediator unavailability are provided. According to one embodiment, a stretched storage system is operable to bring a mediator associated with a primary and secondary distributed storage system back into the role of an arbitrator for peered consistency groups (CGs). A mediator reseed status indicator is maintained for multiple CGs to identify when the mediator's status information for a CG is stale. When the mediator becomes available and a local CG is identified as the subject of a mediator reseed process, the master node of the primary that hosts a master copy of a dataset for the local CG performs the reseed process, including: (i) causing relationship status information for the local CG to be updated on the mediator to the current state maintained by the primary; and (ii) resetting the mediator reseed status indicator. |
| US11740810B2 |
Mirrored memory configuration method and apparatus, and computer storage medium
This application discloses a mirrored memory configuration method and apparatus, and a computer storage medium, and belongs to the field of information processing technologies. The method includes the following: After a computer apparatus is started, if the computer apparatus is currently in an OS state and obtains a mirrored memory establishment request, the computer apparatus may switch from the OS state to a BIOS state through system interruption. Then the computer apparatus configures a mirroring relationship in the BIOS state, and switches to the OS state again after configuring the mirroring relationship, to reconfigure a mirrored memory. |
| US11740807B2 |
Method and system for mapping data protection policies to data clusters
Techniques described herein relate to a method for managing data protection services for data clusters. The method includes identifying, by a mapping module of a data protection manager, a first discovery event associated with a first data cluster; in response to identifying the first discovery event: obtaining first data cluster topology information associated with the first data cluster from the first data cluster; obtaining data cluster data protection information from a data cluster data protection information repository; mapping first protection policies to the first data cluster using the first data cluster topology information and the data cluster data protection information; updating data cluster topology information protection policy mappings using the using the first data cluster topology information and the data cluster data protection information; and initiating performance of first data protection services for the first data cluster based on the first mapped protection policies. |
| US11740806B2 |
Management controller based drive migration
An information handling system may include a processor and a management controller communicatively coupled to the processor. The management controller may be configured to, in response to an encrypted storage resource being coupled to the information handling system: transmitting a request to at least one other management controller for an encryption key associated with the encrypted storage resource; receiving a response from the at least one other management controller, the response including the encryption key associated with the encrypted storage resource; and unlocking the encrypted storage resource with the received encryption key. |
| US11740805B2 |
Selective relocation of data of a subset of a data block based on distribution of reliability statistics
A distribution statistic is generated for a data block of a memory component based on a reliability statistic for memory cells sampled in the data block. The distribution statistic is indicative of at least one of a uniformity or a non-uniformity of read disturb stress on the sampled memory cells. At least a subset of the data block is relocated to another data block of the memory component in view of the distribution statistic. |
| US11740801B1 |
Cooperative flash management of storage device subdivisions
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. |
| US11740796B2 |
Smart data storage tiers for data object transitioning
An object-based data storage service receives a request to store a data object in association with a smart data storage tier. Based at least in part on characteristics of the data object, the object-based data storage service identifies and stores the data object in a first location corresponding to a first data storage tier. The object-based data storage service monitors access to the data object to identify a second set of characteristics of the data object. This second set of characteristics is used to determine that the data object is to be transitioned to a second data storage tier. The object-based data storage service, based at least in part on this determination, stores the data object in a second location corresponding to the second data storage tier. |
| US11740795B2 |
Configurable link interfaces for a memory device
Techniques for configurable link interfaces for a memory device are described. In some examples, memory devices may require periodic link training to support data transfer with a host device at relatively fast rates. However, in some managed memory applications, memory dies of a memory device may have integrated controllers that do not support such link training, and accordingly may not support some clock rates or data rates. To support data transfers between a host device and a memory device at relatively fast clock rates or data rates without link training, a memory die may be fabricated with a configurable link interface that can support different mappings between components and operation according to different clock rates or data rates. In some examples, a memory die may be fabricated in a manner that supports configurable mappings between an array and a data channel interface that are operable according to different multiplexing and serialization. |
| US11740785B2 |
Devices, methods, and graphical user interfaces for manipulating user interface objects with visual and/or haptic feedback
An electronic device, while displaying a first user interface that includes a plurality of activatable user interface objects, detects an input by a contact on the touch-sensitive surface that corresponds to a first activatable user interface object, which is associated with a first control function having a first value as a current value of the control function. In response to an input that meets toggle criteria, the device toggles the first control function between a first state based on the first value for the control function and a second state. In response to an input that meets control adjustment criteria, the device replaces the first user interface with a second user interface for selecting among a set of available values for the control function. In response to movement of the contact across the touch-sensitive surface, a current value for the control function is changed. |
| US11740784B1 |
Extended pull-down gesture to cache content
Methods, systems, and storage media for caching digital content are disclosed. Exemplary implementations may: access a social media platform through a client executing on a user device; generate a feed comprising digital content; cause display of the feed through a user interface on the client executing on the user device; receive a gesture from a user; in response to the received gesture from the user, cache at least a portion of the digital content of the feed; and cause display of the cached digital content on the feed. |
| US11740781B2 |
Single user or few users identification and blocking operable touch sensor device
A touch sensor system includes touch sensors, drive-sense circuits (DSCs), memory, and a processing module. A DSC drives a first signal via a single line coupling to a touch sensor and simultaneously senses, when present, a second signal that is uniquely associated with a user. The DSC processes the first signal and/or the second signal to generate a digital signal that is representative of an electrical characteristic of the touch sensor. The processing module executes operational instructions (stored in the memory) to process the digital signal to detect interaction of the user with the touch sensor and to determine whether the interaction of the user with the touch sensor compares favorably with authorization. When not authorized, the processing module aborts execution of operation(s) associated with the interaction of the user with the touch sensor. Alternatively, when authorized, the processing module facilitates execution of the operation(s). |
| US11740778B2 |
Detecting a pre-defined accessibility pattern to modify the user interface of a mobile device
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. |
| US11740774B2 |
Controlling and displaying zones in a multi-zone system
A multimedia controller for controlling and displaying zones in a multi-zone system is provided. In one example the controller provides a user interface for multiple zones of a media playback system comprising multiple playback devices. The controller identifies respective states associated with each zone of the multiple zones and detects an input to display a list of the multiple zones. In response to detecting the input, the controller determines an order of the multiple zones within the list of the multiple zones and displays, via the user interface, the list of the multiple zones, wherein the list of the multiple zones identifies each zone of the multiple zones in the determined order. |
| US11740771B2 |
Customizing a user interface based on user capabilities
Various embodiments for customizing a user interface based on user capabilities are described herein. An embodiment operates by detecting an interaction performed by a user with a user interface of a mobile device, the interaction being detected on a detection date and time. A biometric of the user is determined based on the interaction with the user interface of the mobile device. An initial identity of the user based is generated on the determined biometric of the user. A usage history for the initial identity of the user is retrieved. The detection date and time is compared to the usage history. The initial identity of the user is verified as an actual identity of the user based on the comparing. The user interface is customized based on the capabilities of the user in interacting with the user interface corresponding to the determined biometric after the verifying. |
| US11740769B2 |
Screenshot method and terminal device
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. |
| US11740765B2 |
System and method for use of browser extension for data exploration in an analytics environment
In accordance with an embodiment, described herein is a system and method for providing a browser extension for exploration in an analytics environment. A data analytics environment can operate at a computer system providing access to a database or data warehouse instance. At a client device, a browser extension can be made available whereby a user can explore a table of interest at an online data content resource, such as at a web site or web page, and instruct the browser extension to import, sanitize, and begin analysis of the table within the analytics environment. The approach can be used, for example, to identify tables or other arrangements of data provided by a web site, and present options to the user to retrieve the data into the analytics environment, for further review or to create visualizations associated with the data. |
| US11740763B2 |
Previewing a new event on a small screen device
Method and apparatus for previewing new events in a computing device having a plurality of applications for managing respective events are described. Individual applications are each represented by an application icon on a screen of a graphical user interface for the device. In response to a new event of a one of the applications, the application's icon is visually modified to notify of the new event. A visual modification may be determined in response to the new event, for example, to preview a content of the event. The visual modification may include a count of all new events that remain to be disposed. On a selection of the visually modified icon, additional previewing may be provided. Activation of the application having a visually modified application icon may be configured to automatically initiate the application at the new event. |
| US11740762B2 |
Equipment management apparatus and equipment management screen generating method
A display displays an equipment management screen in which icons indicating equipment devices and having a first display size are superimposed on a floor configuration diagram of a building at positions corresponding to installation sites of the equipment devices. A display information generator, upon detection of an operation of specifying display of a group to which the equipment device corresponding to the operated icon belongs, identifies all equipment devices belonging to the specified group, changes display sizes of icons corresponding to the identified equipment devices to a second display size larger than the first display size, displays operation buttons for implementing settings of the identified equipment devices at prescribed positions on the equipment management screen in a superimposed manner, and changes display sizes of icons corresponding to equipment devices not belonging to the specified group to a third display size smaller than the first display size. |
| US11740760B2 |
Generating personalized map interface with enhanced icons
Method of generating personalized map interfaces with enhanced icons starts with a processor receiving from a first client device location information including location of first client device. Processor causes map interface to be displayed on first client device that includes a first avatar at a location on the map interface based on the location information and an icon corresponding to an establishment. The processor causes the icon to change to an enhanced icon in response to receiving a first selection from the first client device that indicates a request to save the establishment in a database associated with the first user or determining that the establishment is saved in a database associated with a second user that is associated with the first user. Other embodiments are disclosed. |
| US11740755B2 |
Systems, methods, and graphical user interfaces for interacting with augmented and virtual reality environments
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. |
| US11740754B2 |
Method for interface operation and terminal, storage medium thereof
The present disclosure relates to an interface operation method, terminal, and storage medium. The interface operation method includes: receiving a touch operation in a target touch area of the touch display screen; acquiring an interaction area with at least one target functional element in a current interface, wherein the interaction area is an area of the touch display screen outside the target touch area; and mirroring the interaction area at the target touch area in the current interface. In the single-handed operation mode, the terminal can mirror the interaction area with at least one functional element at the target touch area. |
| US11740746B2 |
Sensor device and display device
The present application discloses a sensor device and a display device. The sensor device includes a substrate, a light control component, a touch control component, and a functional dielectric layer, wherein the light control component and the touch component are disposed on the substrate, the touch component is disposed on the light control component, and the functional dielectric layer is disposed on a side of the touch control component away from the substrate and at least covers the touch control component, and configured to apply an electrostatic force to an external object when the external object is in contact with the functional dielectric layer. |
| US11740739B2 |
Optical module or electronic device
An electronic device using a novel optical module is provided.The optical module includes a first light-emitting element, an optical conversion element, and a first light-receiving element. The first light-emitting element includes a plurality of fluorescent substances and a light-emitting diode. The optical conversion element includes a first optical filter. The light-emitting diode emits first light, and the fluorescent substances can emit second light by being excited by the first light. The first optical filter can form third light having a wavelength range longer than 680 nm from the second light. The first light-receiving element has the function of detecting the third light, and the first light-receiving element functions as a sensor detecting the existence of a shielding object on a light path connecting the first light-emitting element and the first light-receiving element. Furthermore, the second light formed by the optical module can function as a light source of the display device. |
| US11740736B2 |
Electronic display adaptive touch interference scheme systems and methods
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. |
| US11740734B2 |
Detection device and display device
A detection device includes: a first electrode extending in a first direction along a detection face; a plurality of second electrodes extending in a second direction along the detection face, and facing the first electrode; a signal output circuit configured to output a signal to the first electrode; a detection circuit that detects capacitance generated between the first electrode and the second electrodes in accordance with the signal; and a force-sensing element configured to detect force applied to the detection face. A plurality of first electrode blocks each including a plurality of the first electrodes are arranged in the second direction. The signal output circuit is switched between a first mode of outputting the signal to the first electrode blocks at different times and a second mode of outputting the signal to some of the first electrodes and starts operation on the second mode when the force is detected. |
| US11740729B2 |
Assigning device identifiers by host identifier availability
A method for electronic device identifier assignment at a host computing device includes receiving a current local identifier of a separate electronic device and a full unique identifier of the separate electronic device. A host-specific identifier is assigned to the separate electronic device by, based at least in part on determining that the current local identifier of the separate electronic device is included in a set of local identifier values available for assignment, assigning the host-specific identifier to the separate electronic device with a same local identifier value as the current local identifier. Based at least in part on determining that the current local identifier of the separate electronic device is already assigned by the host computing device to a different separate electronic device, the host-specific local identifier is selected from the set of local identifier values available for assignment and assigned to the separate electronic device. |
| US11740728B2 |
Electronic device
A novel electronic device including a flexible display is presented. The electronic device has a flexible display including an organic light emission diodes and a plurality of columnar bodies linked together. Users can transform the shape of the electronic device into a tablet, an eBook, or a hand-held gaming device. The electronic device is configured to resize its main display area in accordance with the selected mode. |
| US11740725B2 |
Devices, methods, and user interfaces for processing touch events
A device with a multi-touch panel displays a user interface, and detects a touch input on the multi-touch panel at a position corresponding to a respective portion of the user interface. In response, the device transmits, to a software application for the respective portion of the user interface, a touch event data structure that describes the touch input, wherein the touch event data structure includes a tap count field that indicates a tap count, indicating how many taps have been sequentially performed at the position of the touch input. |
| US11740719B1 |
Managing touch capabilities of an expandable display device
Apparatus, methods, and computer program products that can are disclosed. One apparatus includes a display device including a display panel including a first panel portion including touch capabilities and at least one second panel portion excluding touch capabilities in which the second panel portion is configured to expand in relation to the first panel portion to create an expanded configuration for the display panel. The apparatus further includes a processor and a memory that stores code executable by the processor to manage the touch capabilities of the first panel portion. Managing the touch capabilities of the first panel portion may include turning ON/OFF the touch capabilities of the first panel portion. Methods and computer program products that include and/or perform the operations and/or functions of the apparatus are also disclosed. |
| US11740716B2 |
Disposition structure of sensor of electronic device
An electronic device includes a housing including a first surface facing a first direction and a second surface facing a second direction opposite to the first direction; a transparent substrate forming at least a portion of the first surface; a display disposed between the transparent substrate and the second surface of the housing and including a third surface facing the first direction and a fourth surface facing the second direction; at least one sensor disposed between a portion of the second surface of the display and a portion of the second surface of the housing; an electrical structure disposed between the sensor and a portion of the second surface of the housing; and a control circuit electrically connected to the electrical structure, wherein the control circuit detects an electrical signal occurring by a pressure from the second direction to a portion of the transparent substrate using the electrical structure. |
| US11740715B2 |
Capacitive touch panel for sensing mechanical inputs to a device
A device including a mechanical input and a touch-sensitive surface for detecting one or more touch inputs and an input from the mechanical input. The touch-sensitive surface can include a first portion for detecting at least the touch inputs, and a second portion for detecting at least the mechanical input. The touch-sensitive surface can include a first portion for detecting at least the touch inputs and the mechanical input. The mechanical input can comprise an electrically conductive material, and the mechanical input can be detected based on capacitance measurements between the mechanical input and the touch-sensitive surface. The device can include a sensing element, the mechanical input can comprise an electrically insulating material, and the mechanical input can be detected based on capacitance measurements between the touch-sensitive surface and the sensing element. The device can include logic to differentiate between the touch inputs and the mechanical input. |
| US11740708B2 |
Input device
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. |
| US11740706B2 |
Keyboard touch electrode module and touch keyboard therewith
A keyboard touch electrode module includes a plurality of same electrode matrices, which are arranged along a lengthwise direction and a widthwise direction and formed by a plurality of series of first electrodes and a plurality of series of second electrodes which interlace with each other. Adjacent two of the electrode matrices in the widthwise direction are mis-aligned. The electrode matrices thereon define a plurality of key projection areas, each of which covers a same key-face electrode pattern. A touch keyboard includes a base, a plurality of keycaps, a plurality of supporting structures connected to and between the base and the keycaps, and the keyboard touch electrode module disposed between the base and the keycaps. The keyboard touch electrode module can senses a non-pressing movement on the keycaps. The keycap can move up and down relative to the base and the keyboard touch electrode module through the corresponding supporting structure. |
| US11740692B2 |
Optical eye tracking
Methods, systems, and devices are disclosed for optical sensing and tracking of eye movement. In one aspect, a method for tracking the movement of an eye includes emitting a first modulated light and a second modulated light toward an eye of a user, wherein the first modulated light and the second modulated light have substantially the same modulation frequency, but the modulation phases of the two modulated lights are substantially opposite to each other; receiving at a photodetector module a returned light including at least a partial retroreflected light from the eye of the user based on the first and second modulated lights; and processing the output signal from the photodetector module to determine positional and dimensional parameters of the eye of the user based at least on the partial retroreflected light corresponding to the first and second modulated lights. |
| US11740690B2 |
Systems and methods for tracking a controller
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. |
| US11740688B2 |
Virtual space experience system
A virtual space experience system capable of preventing unintentional contact between players without inhibiting a sense of immersion is provided. A virtual space image determination unit 35 of a VR system S causes an image of a virtual space to be perceived by a second player to include an image in which a first avatar corresponding to a first player moves so as to generate a gap in a correspondence relationship between coordinates of the first player and coordinates of the first avatar when a trigger event is recognized, and causes the image of the virtual space to be perceived by the second player to include an image of a second avatar corresponding to the second player and a third avatar corresponding to the first player after the recognition. An avatar coordinate determination unit 34 determines coordinates of the third avatar based on the coordinates of the first player. |
| US11740683B2 |
Power management
Methods might include determining whether a particular die of a plurality of dies is expected to initiate a next phase of an operation, setting an expected peak current magnitude of the particular die to the present expected peak current magnitude in response to the expected peak current magnitude of the next phase being less than a present expected peak current magnitude, and setting the expected peak current magnitude of the particular die to the expected peak current magnitude of the next phase in response to the expected peak current magnitude of the next phase being greater than the present expected peak current magnitude if a sum of the expected peak current magnitude of the next phase, and expected peak current magnitudes for each die of the plurality of dies other than the particular die, is less than a particular value. Apparatus might be configured to perform similar methods. |
| US11740682B2 |
System, apparatus and method for loose lock-step redundancy power management
A processor includes a plurality of cores, at least two of which may execute redundantly, a configuration register to store a first synchronization domain indicator to indicate that a first core and a second core are associated with a first synchronization domain, and a power controller having a synchronization circuit to cause a dynamic adjustment to a frequency of at least one of the first and second cores to cause these cores to operate at a common frequency, based at least in part on the first synchronization domain indicator. |
| US11740679B2 |
Adaptive sleep transition techniques
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. |
| US11740678B2 |
Architecture-based power management for a memory device
Methods, systems, and devices for architecture-based power management for a memory device are described. Aspects include operating a first memory bank within a memory device in a first mode and a second memory bank within the memory device in a second mode. The memory device may receive a power down command for the first memory bank while operating the first memory bank in the first mode and the second memory bank in the second mode and switch the first memory bank from the first mode to a first low power mode while maintaining the second memory bank in the second mode. The first low power mode corresponds to less power consumption by the first memory bank than the first mode. In some cases, switching the first memory bank from the first mode to the first low power mode includes deactivating circuitry dedicated to the first memory bank. |
| US11740675B2 |
Power control apparatus for in-vehicle camera and power control method
A power control apparatus for an in-vehicle camera includes a temperature sensor which measures the temperature in a camera unit; a temperature data acquisition section which acquires periodically measured temperature data; a predicted temperature calculation section which calculates a temperature gradient from the acquired temperature data group and, based on the temperature gradient, calculates a future predicted camera unit temperature; a power supply section which supplies power to an image processing section; a temperature determination section which determines whether predicted temperature is within an operation guarantee temperature of camera unit component parts; and a power supply control section which, based on a determination result, issues a control command to start or stop power supply to the component parts from the power supply section, the power supply being started or stopped with appropriate timing using the predicted temperature, thereby enabling expeditious protection of the component parts when at high temperature. |
| US11740672B2 |
Multiport USB power adaptor and control methodology
A multiport USB-PD adaptor including a flyback-converter, a USB controller including a USB-PD subsystem and buck-controller, and multiple buck and bypass-circuits, and methods for operating the same are provided. Generally, the adaptor is operated in a buck-bypass-mode, in which at least one buck-circuit is bypassed and the flyback-converter is operated to generate an input voltage (VIN) to the buck-circuits equal to a requested output voltage (VOUT_C), which is then coupled directly to the associated port. Buck-circuits coupled to other active ports can also be bypassed if the requested VOUT_Cs are the same, or the buck-circuits operated to provide another VOUT_C. If a bypass-circuit unavailable, the adaptor is operated in a variable-buck-input-mode by determining a highest VOUT_C requested on any port and setting VIN to a sum of the highest VOUT_C and an offset voltage. Buck-circuits coupled to active ports are then operated to provide the requested output voltages. |
| US11740669B2 |
Electronic apparatus having immersion cooling system and operating method thereof
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. |
| US11740662B2 |
Methods, systems and apparatus to manage a spatially dynamic display
Methods, apparatus, systems and articles of manufacture are disclosed An example apparatus to update a spatially adjustable display disclosed herein includes a display size monitor to acquire an indication of a size of the spatially adjustable display, a service image comparator to compare the indication of the size to a size model, and a source image adjuster to invoke visual configuration adjustments to an output image of the spatially adjustable display based on parameters identified in the size model. |
| US11740661B2 |
Flexible display device
A flexible display device includes a first non-bending area, a second non-bending area spaced apart from the first non-bending area, and a bending area between the first non-bending area and the second non-bending area; and a protective member on a surface of the flexible display panel, and including a first protective member overlapping the first non-bending area and a second protective member overlapping the second non-bending area, each of the first protective member and the second protective member including an inclined surface inclined with respect to the surface of the flexible display panel overlapping the flat area adjacent to the bending area, and the inclined surfaces do not physically contact each other in a bending state. |
| US11740659B2 |
Electronic device and communication method
An electronic device includes: a display panel including a first display area at a first area, and a second display area at a second area; a plurality of first patch antennas in the first area; a plurality of second patch antennas in the second area; a display driving unit to drive the display panel; a radio frequency (RF) driving unit to drive the first and the second patch antennas; and a main processor to control the display driving unit and the RF driving unit to perform wireless data communication by using the first or the second patch antennas in a first mode in which an image is displayed through the first or second display areas, and to perform wireless data communication by using the first and the second patch antennas in a second mode in which an image is displayed through the first and second display areas. |
| US11740658B2 |
Portable computer display structures
An electronic device housing may have upper and lower portions that are attached with a hinge. At least one portion of the housing may have a rear planar surface and peripheral sidewalls having edges. A display module may be mounted in the housing. The display module may have glass layers such as a color filter glass layer and a thin-film transistor substrate. The color filter glass layer may serve as the outermost glass layer in the display module. The edges of the display module may be aligned with the edges of the peripheral housing sidewalls to create the appearance of a borderless display for the electronic device. The display module may be provided with an opening that allows a camera or other electronic components to receive light. Traces may be provided on the underside of the thin-film transistor substrate to serve as signal paths for the electrical components. |
| US11740652B2 |
Method for synchronizing clocks of at least two devices
A method for synchronizing clocks of at least two devices in a distributed network of a vehicle, comprising: establishing unencrypted communication between the at least two devices to determine a temporal difference between the clocks of the two devices, exchanging messages between the at least two devices via the unencrypted communication, ascertaining a temporal difference between the clocks of the at least two devices using the messages, establishing encrypted communication between the at least two devices to authenticate the exchange of messages, authenticating the messages that were used to ascertain the temporal difference, using the ascertained temporal difference, when the authentication of exchanged messages has been completed successfully. |
| US11740651B2 |
Clock multiplexer device and clock switching method
A clock multiplexer device includes first and second control circuitries and an output circuitry. The first control circuitry generates a first enable signal and a first signal according to a first clock signal and a first selection signal, and determines whether to output the first signal to be a first output clock signal according to a second selection signal and a second enable signal. The first and the second selection signals have opposite logic values. The second control circuitry generates the second enable signal and a second signal according to a second clock signal and the second selection signal, and determines whether to output the second signal to be a second output clock signal according to the first selection signal and the first enable signal. The output circuitry outputs one of the first output clock signal and the second output clock signal to be a final clock signal. |
| US11740648B2 |
Surgical footswitch having elevated auxiliary buttons
A surgical footswitch having elevated auxiliary buttons is provided. In particular embodiments, the surgical footswitch comprises a footswitch base, a treadle mounted on the footswitch base, a first primary button positioned on an upper surface of the footswitch base along a first lateral side of the treadle, a first auxiliary button housing positioned along a lateral side of the first primary button opposite the treadle, and a first auxiliary button mounted on an upper surface of the first auxiliary button housing, wherein an upper surface of the first auxiliary button is elevated in relation to an upper surface of the first primary button. In particular embodiments, the treadle is configured to activate a first function of a surgical console, the first primary button is configured to activate a second function of the surgical console, and the first auxiliary button is configured to activate a third function of the surgical console. |
| US11740647B2 |
Circuit for interconnected direct current power sources
Controlling a power converter circuit for a direct current (DC) power source is disclosed. The power converter may be operative to convert input power received from the DC power source to an output power and to perform maximum power point tracking of the power source. The power converter is adapted to provide the output power to a load that also performs maximum power point tracking. |
| US11740643B2 |
Temperature control device and method, and inspection apparatus
A temperature control device for controlling a temperature of a temperature control object is provided. The temperature control device includes a heating mechanism having a heating source configured to heat the temperature control object, a cooling mechanism having a cooling source configured to cool the temperature control object, an infrared sensor configured to measure the temperature of the temperature control object, and a temperature controller configured to allow a control system including a sliding mode control to control the heating mechanism and the cooling mechanism based on a measurement signal from the infrared sensor and perform a feedback control of the temperature of the temperature control object. |
| US11740641B2 |
Platooning controller, a system including the same, and a method thereof
A platooning controller, a vehicle system including the same, and a method thereof perform control during platooning. The platooning controller includes a processor that, when an outside vehicle cuts in a platooning line, performs platooning control depending on an intention of a user to perform the platooning control and a driving situation with the cut-in vehicle that cuts in the platooning line. The platooning controller also includes a storage that stores the result of performing the platooning control performed by the processor and information about the driving situation. |
| US11740636B2 |
Autonomous vehicle having a thermal infrared camera with replaceable filter
Methods, systems, and apparatus, for an autonomous vehicle navigation maintenance system. In one aspect, an autonomous vehicle monitoring system includes a mounting surface located on an autonomous vehicle, and a thermal imaging system affixed to the mounting surface, the thermal imaging system including a thermal imaging camera, a replaceable filter, and a filter fixture configured to affix the replaceable filter to the thermal imaging camera and aligned with an optical axis of the thermal imaging camera, and where maintenance of the replaceable filter does not include re-calibrating the thermal imaging camera. |
| US11740634B2 |
Systems and methods for configurable operation of a robot based on area classification
A method of operating a mobile robot includes generating a segmentation map defining respective regions of a surface based on occupancy data that is collected by a mobile robot responsive to navigation of the surface, identifying sub-regions of at least one of the respective regions as non-clutter and clutter areas, and computing a coverage pattern based on identification of the sub-regions. The coverage pattern indicates a sequence for navigation of the non-clutter and clutter areas, and is provided to the mobile robot. Responsive to the coverage pattern, the mobile robot sequentially navigates the non-clutter and clutter areas of the at least one of the respective regions of the surface in the sequence indicated by the coverage pattern. Related methods, computing devices, and computer program products are also discussed. |
| US11740633B2 |
Determining occupancy of occluded regions
Techniques are discussed for controlling a vehicle, such as an autonomous vehicle, based on occluded areas in an environment. An occluded area can represent areas where sensors of the vehicle are unable to sense portions of the environment due to obstruction by another object or sensor limitation. An occluded region for an object is determined, along with one or more visible regions proximate the occluded region. Entry and/or exit regions may be determined based on known directions of traffic and/or drivable surface boundaries. Based on a threshold speed, the vehicle can designate portions of the occluded region as pseudo-visible. Additionally, if a dynamic object traverses through the occluded region from the entry region, a portion of the occluded region may be considered pseudo-visible. Pseudo-visibility may also be determined based on movement of an occluded area. The vehicle can be controlled to traverse the environment based on the pseudo-visibility. |
| US11740631B2 |
Systems and methods for an arbitration controller to arbitrate multiple automation requests on a material handling vehicle
An automation arbitration controller system is provided. The automation arbitration controller is configured to arbitrate a multiple of automation requests on a material handling vehicle, which includes a material handling vehicle controller. The automation arbitration controller can be connected to at least one automation controller via an automation communication bus. The automation controller can be configured to send one or more automation requests. The automation arbitration controller can also be connected to a material handling vehicle controller via a vehicle communication bus. The material handling vehicle controller can be configured to send one or more automation requests. |
| US11740630B2 |
Fitness and sports applications for an autonomous unmanned aerial vehicle
Sports and fitness applications for an autonomous unmanned aerial vehicle (UAV) are described. In an example embodiment, a UAV can be configured to track a human subject using perception inputs from one or more onboard sensors. The perception inputs can be utilized to generate values for various performance metrics associated with the activity of the human subject. In some embodiments, the perception inputs can be utilized to autonomously maneuver the UAV to lead the human subject to satisfy a performance goal. The UAV can also be configured to autonomously capture images of a sporting event and/or make rule determinations while officiating a sporting event. |
| US11740629B2 |
Control device for autonomous operating machines, control method for autonomous operating machines, and recording medium having control program for autonomous operating machines stored thereon
A control device for an autonomous operating machine includes: an acquisition unit that acquires first state information of a first autonomous operating machine and second state information of a second autonomous operating machine in a case where the first and the second autonomous operating machines that operate in cooperation with each other select and execute executable operations as needed in order to achieve an object; a generation unit that generates value information indicating a height of a value of execution for achievement of the object regarding each of the operations that can be executed by the first autonomous operating machine by using a value calculation criterion based on the first state information and the second state information; a selection unit that selects a specific operation from among the operations based on the value information; and a control that controls the first autonomous operating machine to execute the specific operation. |
| US11740627B2 |
Automated driving of a motor vehicle
Technologies and techniques for the at least the partially automated driving of a motor vehicle. A first application and at least one redundant second application provide output data depending on motor vehicle operating data and/or environmental data. Vehicle driving data for the at least partially automated driving of the motor vehicle are determined depending on the output data. Vehicle operating data from another vehicle are received, and, depending on the vehicle operating data, the at least one redundant second application switches from an active state to a standby state in which a computer instance of a computer unit used by the at least one redundant second application is at least executed at a lower frequency than in the active state. |
| US11740626B2 |
Redundant pose generation system
Techniques for performing multiple simultaneous pose generation for an autonomous vehicle. For instance, a system that navigates the autonomous vehicle can include at least a first component that determines first poses for the autonomous vehicle using at least a first portion of sensor data captured by one or more sensors and a second component that determines second poses for the autonomous vehicle using at least a second portion of the sensor data. The first component may have more computational resources than the second component and determine poses at a different frequency than the second component. The system may generate trajectories for the autonomous vehicle using the first poses when the first component is operating correctly. Additionally, the system may generate trajectories for the autonomous vehicle using the second poses when the first component is not operating correctly. |
| US11740623B2 |
System and method for implement emulation
A system includes a hand-held electronic device and an adapter mechanically connectable to a mobile machine. The adapter is configured to communicate with an electronic system of the mobile machine via a wired connection and to communicate with the hand-held electronic device via a wireless connection. The hand-held electronic device is configured to present to the user via a user interface a plurality of implement identifiers, receive from the user via the user interface a selection indicating one of the plurality of implement identifiers, and emulate operation of the implement corresponding to the selected implement identifier. |
| US11740621B2 |
Remote diagnosis of energy or resource-consuming devices based on usage data
Systems and methods are provided to retrieve or analyze usage data collected from a device or a facility where the device, optionally with devices are located, and identify useful features for making a diagnosis of the device. The diagnosis can be made before a system failure to reduce down time and inefficient use of the device, or after the system failure to expedite and facilitate diagnosis and repair. In addition to the usage data, such as energy and resource consumption, the system can also obtain information relating to the facility and the device's external environment which can be used for normalizing the usage data. Further, based on the diagnosis, the system can make suitable recommendations for repair, replacement, maintenance and upgrade. |
| US11740619B2 |
Malfunction early-warning method for production logistics delivery equipment
Disclosed is a malfunction early-warning method for production logistics delivery equipment. After a sensor obtains past signal data, performing feature extraction and dimensionality reduction so as to obtain a feature vector; using a growing neural gas (GNG) algorithm to divide normal state data into different operation situations so as to obtain several cluster centers, and calculating the Euclidean distance between the feature vector and the cluster centers obtained from current operation data, so as to obtain a similarity trend; constructing a past memory matrix, using an improved particle swarm algorithm to optimize an LS-SVM regression model parameter, and calculating the residual value of the current state. Finally, combining the residual value and the similarity trend to obtain a risk coefficient, assessing the equipment state, and issuing an early warning for an equipment malfunction. |
| US11740618B2 |
Systems and methods for global cyber-attack or fault detection model
An industrial asset may have monitoring nodes that generate current monitoring node values representing a current operation of the industrial asset. An abnormality detection computer may detect when a monitoring node is currently being attacked or experiencing a fault based on a current feature vector, calculated in accordance with current monitoring node values, and a detection model that includes a decision boundary. A model updater (e.g., a continuous learning model updater) may determine an update time-frame (e.g., short-term, mid-term, long-term, etc.) associated with the system based on trigger occurrence detection (e.g., associated with a time-based trigger, a performance-based trigger, an event-based trigger, etc.). The model updater may then update the detection model in accordance with the determined update time-frame (and, in some embodiments, continuous learning). |
| US11740617B2 |
Methods and systems for performing transient processes
Methods and systems for performing transient processes may include: providing a path and path thresholds for an operational condition as a function of progress of a transient process based on historical data of previously performed transient processes; performing the transient process in a chemical reactor using operational parameters; measuring the operational condition of the transient process as a function of the progress of the transient process; and adjusting one or more of the operational parameters during the progress of the transient process to maintain the operational condition within the path thresholds. |
| US11740612B2 |
Multiscale material selection method for designing mechanical systems
Conventionally material selection of composite structure is performed by using discrete materials available in manufacturer's databases. Thus, tailorable nature of composite materials is not exploited to achieve superior performance. Further, conventional methods perform material selection and sizing separately and do not take into account the influence of sizing on material selection and vice versa. Embodiments of the present disclosure provide systems and methods for multiscale material selection for designing of mechanical systems that incorporates tailoring of material microstructures and sizing to achieve improved solutions. The microstructure properties are obtained by using analytical and computational models for various composite materials. These models compute structure-property relations between bulk material properties and their micro-structural constituents. |
| US11740608B2 |
Computer numerically controlled fabrication using projected information
A method may include projecting, onto a surface within a computer numerically controlled machine, a structured light having a known property. One or more sensors may generate an image of the structured light projected on the surface within the computer numerically controlled machine. One or more characteristics of the surface may be determined by comparing a property of the structured light shown in the image to the known property of the structured light. Examples of characteristics include a size, a distance to the surface, a height, a thickness, an angle of the surface, edges, surface properties, jigs, fiducial alignment markers, patterns encoding data, and visual designs on the surface of the material that are intended for reproductions. A surface map indicating the characteristics of the surface at various locations may be generated to enable, for example, a calibration, alignment, and/or optimization of the computer numerically controlled machine. |
| US11740606B2 |
Servomotor controller
The invention provides a servomotor controller that makes it possible to reduce compensation delay even when a dead band is provided. The servomotor controller includes a motion acquiring unit that acquires a motion of the servomotor, an acceleration amount acquiring unit that acquires an acceleration amount of the servomotor, a compensating unit that compensates a motion of the servomotor, and a compensation start determining unit that determines a start of the compensation by the compensating unit responsive to the motion of the servomotor, wherein the compensation start determining unit has a dead band unit that sets a dead band range which is a range of a predetermined value relative to the motion of the servomotor, and the dead band unit changes the dead band range based on the acceleration amount acquired by the acceleration amount acquiring unit. |
| US11740605B2 |
Movable gantry system configured to interface with jigs of different sizes
A movable gantry system is described. In an example, the movable gantry system is configured to interface with jigs of different types or sizes and/or with different positions of a same jig and/or to perform operations on different parts mounted in such jigs. To do so, the movable gantry system includes an end effector, a gantry, and a computing system. The end effector is mounted within the gantry and provides at least rotational movement to perform operations on a part. The gantry is movable and interfaces with a jig holding the part. Further, the gantry provides translational movement to the end effector. The computing system identifies the gantry and the part and controls the gantry and the end effector, thereby facilitating the operations on the part. |
| US11740604B2 |
Control device
In a master device (control device) that employs a configuration list, setup change is performed easily without requiring a complicated operation with respect to a partial change in the configuration of a slave-side system on a slave side. A control unit (11) of a control device (10) is configured to perform communication for inquiring about device information to an address in an active configuration list through a communication unit (12), and determine to be abnormal when the result of the communication with respect to a common portion of a slave-side system (20) is different from the device information in the active configuration list. |
| US11740601B2 |
Building management system with universal serial bus (USB) building devices
A building system of a building, the building system including an embedded computer, the embedded computer including one or more circuits configured to implement a universal serial bus (USB) host and communicate with peripheral USB building devices via the USB host, receive building data from at least one of the peripheral USB building devices, generate one or more control decisions for one or more of the peripheral USB building devices, and communicate the one or more control decisions to the one or more of the peripheral USB building devices via one or more USB connections. The building system includes the peripheral USB building devices, wherein each of the peripheral USB building devices are connected to the USB host via at least one of a direct USB connection to the embedded computer or an indirect USB connection through another one of the peripheral USB building devices. |
| US11740600B2 |
Computerized method, processing structure and server for controlling a target-motion device based on source-motion object
A computerized method for controlling a target-motion device based on motion of a first source-motion object. The method has the steps of: capturing motion-related data at the first source-motion object, the motion-related data representing the mootion of the first source-motion object; processing, at the first source-motion object, the motion-related data by converting captured motion-related data from a first format to a second format; transmitting the processed motion-related data to a server; forwarding, by the server, the processed motion-related data to the target-motion device; and moving at least a portion of the target-motion device based on at least the processed motion-related data. |
| US11740590B2 |
Automatic time zone detection in devices
Methods, systems, apparatuses, and computer program products are provided for enabling devices to determine the time zone in which they are located. A mobile device may receive location information from one or more sources. Based thereon, the current location of the mobile device may be determined in terms of latitude and longitude. The indication of the current location may be converted to an index value according to a Hilbert curve (or other space-filling curve), and the index value applied to a time zone index file to determine the local time zone. A time zone setting of the mobile device may be updated accordingly. Furthermore, “geofencing” may be used by the mobile device to detect movement towards and through a time zone boundary, leading to a new time zone determination being initiated. |
| US11740588B2 |
Disconnectable crown
A shock-proof device (200) for a movement configured to allow the movement of the horological movement (210) along at least three degrees of freedom. The shock-proof device (200) includes at least one damping element (230) configured to damp the shocks of the horological movement (210) and a crown (100) configured to move between a first position (101) wherein the horological movement (210) is free along at least three degrees of freedom and a second position (102) wherein the horological movement (210) is rigidly connected to the crown (100). |
| US11740586B2 |
Image forming apparatus
An image forming apparatus includes an image forming unit, a fixing unit, a plurality of exterior covers forming an exterior of the image forming apparatus, a fan configured to suck outside air into the image forming apparatus through an air intake port, a temperature sensor configured to detect a temperature of the outside air sucked by the fan, and a partition member disposed upstream the temperature sensor and downstream the air intake port in an airflow generated by the fan, the partition member dividing an air intake path through which the outside air sucked through the air intake port passes into a first path passing through a fixing unit side and a second path passing through a temperature sensor side. |
| US11740581B2 |
Elastic member, cleaning device, and image forming apparatus
An elastic member that comes into contact with a moving body that moves in a predetermined moving direction to scrape off a deposit on the moving body includes: a stress reducer that is provided at a contact end on a side to be in contact with the moving body and reduces vibration of internal stress generated due to contact between the moving body and the elastic member, wherein the stress reducer extends in a direction that is not perpendicular to the moving direction when the elastic member comes in contact with the moving body. |
| US11740579B2 |
Image forming apparatus
An image forming apparatus includes an image bearing member, a developing member, a controller configured to carry out switching control between a first state in which the developing member is caused to act on the image bearing member and a second state in which the developing member is not caused to act on the image bearing member, a transfer member, and a detector configured to read density information of the recording material. The controller detects a fog density on the basis of a difference in density information between a fog non-occurrence region of a non-image region of the recording material in the second state and a fog occurable region of the non-image region of the recording material in the first state. |
| US11740577B2 |
Image forming apparatus with heating device
An image forming apparatus includes an image forming unit to form an image on a sheet. A fixing device heats the sheet and includes a tubular body that presses against the sheet and rotates, and a heat generator contacts an inside surface of the tubular body. The length dimension of the heat generator is aligned with the axial direction of the tubular body. The heat generator has a first row of first heating elements with a first gap between each adjacent pair of first heating elements and a second row of second heating elements. The first and second rows are offset from one another in a width direction corresponding to the sheet conveyance direction. A second gap is between each adjacent pair of second heating elements in the longitudinal direction. The positions of the first gaps are different from positions of the second gaps. |
| US11740573B2 |
Fixing apparatus having stay members for maintaining alignment of rotatable members thereof
A fixing device includes a first rotatable member with a heater, a second rotatable member contacting the first rotatable member and forming a fixing nip, a pressing unit pressing the first rotatable member to the second rotatable member in a pressing direction, a pair of side boards disposed with a space in the widthwise direction, and first, second and third stays supporting the pair of side boards. The first stay is provided upstream of a center of the fixing nip in the pressing direction and upstream of the center in a feeding direction of a recording material. The second stay is provided upstream of the center in the pressing direction and downstream of the center in the feeding direction. The third stay is provided downstream of the center in the pressing direction and at least one of upstream and downstream of the center in the feeding direction. |
| US11740563B2 |
Mask cleaning
A lithography system includes a first load lock chamber configured to receive a mask, a cleaning module configured to clean the mask, a second load lock chamber configured to receive a wafer, an exposure module configured to expose the wafer to a light source through use of the cleaned mask. A direct path is provided between the first load lock chamber and the exposure module allowing the first load lock chamber to directly couple to the exposure module without through the cleaning module. |
| US11740557B2 |
Chemical liquid, chemical liquid storage body, chemical liquid filling method, and chemical liquid storage method
An object of the present invention is to provide a chemical liquid having excellent developability and excellent defect inhibition performance. Another object of the present invention is to provide a chemical liquid storage body, a chemical liquid filling method, and a chemical liquid storage method. The chemical liquid according to an embodiment of the present invention is a chemical liquid containing an organic solvent, a metal impurity, and an organic impurity, in which the metal impurity contains metal atoms, a total content of the metal atoms in the chemical liquid with respect to a total mass of the chemical liquid is equal to or smaller than 50 mass ppt, a total content of the organic impurity in the chemical liquid with respect to the total mass of the chemical liquid is 0.1 to 10,000 mass ppm, the organic impurity contains an alcohol impurity, and a mass ratio of a content of the alcohol impurity to the total content of the organic impurity is 0.0001 to 0.5. |
| US11740554B2 |
Imprint apparatus and method of manufacturing article
The present invention provides an imprint apparatus for forming a pattern in an imprint material on a substrate using an original, comprising: an image capturing unit configured to capture an image of the substrate; and a processor configured to perform, based on fine-detection marks and rough-detection marks in the image obtained by the image capturing unit, an alignment process of the original and the substrate in forming the pattern in the imprint material, and overlay inspection of the substrate and the pattern formed in the imprint material, wherein the processor is configured to change, between the alignment process and the overlay inspection, a rough-detection mark group to be used to specify positions of fine-detection marks in the image obtained by the image capturing unit. |
| US11740552B2 |
Pellicle structure for EUV lithography and manufacturing method therefor
A manufacturing method includes the steps of: (a) preparing a lower layer member having a first base layer, a first protective thin film, and a first CNT thin film; (b) preparing a first upper layer member having a second base layer, a second protective thin film, and a second CNT thin film or a second upper layer member having a second base layer and a second protective thin film; (c) arranging the lower layer member above the first CNT thin film; (d) forming a group member by arranging the second CNT thin film of the first upper layer member or the second protective film of the second upper layer member to be stacked on the first CNT thin film; and € removing the second base layer from the group member. |
| US11740544B2 |
Projector
A projector includes: a white light generator that uses a blue laser as a light source to generate blue light and yellow light based on the blue laser and generates white light including the generated blue light and yellow light; and an optical system that modulates light based on the white light generated by the white light generator with an image display element and projects the modulated light, wherein the white light generator includes: a dichroic mirror that is irradiated with the blue light from the blue laser as the light source; a first condenser lens that focuses blue light being reflected by or passing through the dichroic mirror; a diffusion plate that diffuses the blue light focused by the first condenser lens; a second condenser lens that focuses the blue light passing through or being reflected by the dichroic mirror; and a phosphor that emits yellow light. |
| US11740540B2 |
Mounting assembly for a cabin camera
A mounting assembly for a cabin camera is provided. The mounting assembly includes a camera housing for the camera. The mounting assembly further includes a headliner mount removably coupled to the camera housing. The headliner mount includes a base and one or more retention members hingably coupled to the base. The one or more retention members are movable relative to the base to selectively secure the headliner mount to a headliner of a vehicle. |
| US11740539B2 |
Actuator for camera and camera module including the same
An actuator for a camera includes a first carrier having a guiding rail formed to extend in an optical axis direction and provided at an outer side thereof, the first carrier moves in the optical axis direction; a second carrier moves in a direction perpendicular to an optical axis and accommodated at an inner side of the first carrier; a housing accommodates the first carrier; and a ball between the guiding rail and the housing, and a first interval between a first sector, which is an inner side of the first carrier where the guiding rail is provided, and an outer side of the second carrier is greater than a second interval between a second sector, which is a portion where the guiding rail is not provided in the inner side of the first carrier where the first sector is provided, and the outer side of the second carrier. |
| US11740534B1 |
Coupling prisms for tunable optical metasurfaces
According to various embodiments, a solid-state light detection and ranging (LiDAR) transmitter includes a tunable optical metasurface to selectively steer incident optical radiation long an azimuth axis. In some embodiments, different subsets of lasers in an array of lasers are activated to generate optical radiation for incidence on the metasurface at different angles of incidence on an elevation axis for unsteered deflection by the metasurface at corresponding angles of elevation. In some embodiments, a prism is positioned relative to the tunable optical metasurface to deflect the optical radiation from the optical assembly by the optical radiation source for incidence on the metasurface at an angle of incidence that is between the first steering angle and the second steering angle, such that the optical radiation incident on the metasurface and the steered output optical radiation from the metasurface spatially overlap within the prism. |
| US11740530B2 |
Electro-optic media including oppositely charged particles and variable transmission device incorporating the same
A variable transmission electro-optic medium includes an encapsulated bistable dispersion containing a plurality of electrically charged particles and a fluid, the charged particles being movable by application of an electric field and capable of being switched between an open state and a closed state. The plurality of electrically charged particles may include a first set of charged particles and a second set of charged particles, such that a color of the first set of charged particles is the same as a color of the second set of charged particles, and the first set of charged particles has a polarity that is opposite to a polarity of the second set of charged particles. |
| US11740529B2 |
Controllers for optically-switchable devices
This disclosure relates generally to optically-switchable devices, and more particularly, to systems, apparatus, and methods for controlling optically-switchable devices. In some implementations, the apparatus includes an interface for communicating with window controllers, and the apparatus includes one or more processors. A processor can be configured to cause status information received from a window controller to be processed. The status information can indicate at least a tint status of one or more optically-switchable devices controlled by the window controller. In response to receiving the status information, one or more tint commands can be sent via the interface to the window controller. |
| US11740527B2 |
Electronic devices having electrically adjustable optical shutters
An electronic device has an electrically adjustable shutter. The shutter may be placed in a transparent state or a nontransparent state. The shutter may overlap a portion of a display, may overlap a liquid contact indictor or a structure with text in a device, or may overlap an optical component such as an optical proximity sensor, ambient light sensor, visible light-emitting diode or laser, infrared light-emitting diode or laser, visible light image sensor, or infrared light image sensor. Control circuitry in the electronic device may place the shutter in an opaque state to hide an overlapped component from view or may place the shutter in a transparent state to allow the overlapped component to transmit or receive light. The adjustable shutter may exhibit changes in its transmission spectrum in different modes of operation and may be used as a camera filter or neutral density filter. |
| US11740523B2 |
Display panel and display device
A display panel and a display device are provided. The display panel includes a first substrate and a second substrate arranged oppositely. The first substrate includes a spacer. The second substrate includes: a second base substrate; a data line including, a body portion and a bending portion; and a sub-pixel including a light transmission region. An orthographic projection of the spacer on the second base substrate is adjacent to that of the light transmission region on the second base substrate, the orthographic projection of the spacer on the second base substrate is spaced apart from that of the data line on the second base substrate; an orthographic projection of the bending portion on the second base substrate is bent toward a direction away from the orthographic projection of the spacer on the second base substrate with respect to an orthographic projection of the body portion on the second base substrate. |
| US11740517B2 |
Display, display system, image projection system, and movable object
Provided is a head-up display including a liquid-crystal panel including a display screen, a Fresnel lens which is on an opposite side of the liquid-crystal panel from the display screen, a light-diffusion member between the liquid-crystal panel and the heat-transfer member, a backlight that emits light toward the heat-transfer member, a heat sink disposed along at least one side of the Fresnel lens and one side of backlight, and a mirror that forms a virtual image corresponding to an image displayed on the display screen of the liquid-crystal panel, in a target space, where a light-diffusion structure is provided to a surface of the light-diffusion member facing the liquid-crystal panel. |
| US11740515B2 |
Display device and method of manufacturing the same
A display device includes a display panel and a shock absorbing structure including protrusions and an elastic member. The display panel has a folding area. The protrusions are disposed on the display panel and they may be arranged in a pattern. The elastic member is disposed on the protrusions such that a part of an upper portion of each of the protrusions is impregnated within the elastic member. Methods of manufacturing the display device are also provided. |
| US11740512B2 |
Method of manufacturing liquid crystal layer
An object is to provide a method of manufacturing a liquid crystal layer in which an alignment film is repeatedly used and a liquid crystal compound in a liquid crystal layer can be sufficiently aligned. The method of manufacturing a liquid crystal layer includes: an alignment film forming step of forming an alignment film on a support; a liquid crystal alignment film alignment step of laminating a first liquid crystal composition including a polymerizable liquid crystal compound on the alignment film and aligning the first liquid crystal composition; a liquid crystal alignment layer forming step of polymerizing the aligned first liquid crystal composition to form a liquid crystal alignment layer; a peeling step of laminating and immobilizing a surface of the liquid crystal alignment layer opposite to the alignment film on an adherend and peeling the liquid crystal alignment layer from the alignment film at an interface between the liquid crystal alignment layer and the alignment film; a liquid crystal layer alignment step of laminating a second liquid crystal composition including a polymerizable liquid crystal compound on a surface of the liquid crystal alignment layer from which the alignment film is peeled off and aligning the second liquid crystal composition; a liquid crystal layer forming step of polymerizing the aligned second liquid crystal composition to form a liquid crystal layer; and a liquid crystal layer separation step of separating the formed liquid crystal layer from the liquid crystal alignment layer, in which the liquid crystal layer alignment step to the liquid crystal layer separation step are repeated to repeatedly prepare the liquid crystal layer. |
| US11740511B2 |
Display device capable of generating color of light close to or identical to blue primary color of DCI-P3 color gamut
A display device is provided and includes at least one sub-pixel that is a blue sub-pixel. The sub-pixel includes a transistor and a light emitting unit electrically connected to the transistor. The sub-pixel emits an output light under an operation of the highest gray level, the output light is a final visual light of the blue sub-pixel of the display device, the output light having an output spectrum, an intensity integral of the output spectrum from 380 nm to 493 nm defines as a first intensity integral, an intensity integral of the output spectrum from 494 nm to 580 nm defines as a second intensity integral, a ratio of the first intensity integral over the second intensity integral defines as a first ratio, and the first ratio ranges from 5 to 20. |
| US11740507B2 |
Support bracket, backlight module, and display screen
The present disclosure relates to a support bracket, a backlight module, and a display screen. The support bracket is provided with a mounting cavity penetrating in a given direction, and includes a frame and a projecting member. The frame is connected to a light-emitting assembly in the backlight module. The projecting member is connected to the frame, projects towards the mounting cavity, and supports the light-emitting assembly in the backlight module. The projecting member is provided with a first light-transmission hole, and an axial direction of the first light-transmission hole is parallel to the given direction. |
| US11740504B1 |
Curved panel and manufacturing method thereof
A curved panel includes a first curved substrate, a second curved substrate, a curved coverlens, and an adhesive structure. The first curved substrate and the second curved substrate are overlapped with each other. First to fourth sidewalls of the first curved substrate correspond to fifth to eighth sidewalls of the second curved substrate, respectively. The first to third sidewalls of the first curved substrate extend beyond the fifth to seventh sidewalls of the second curved substrate, respectively. The second curved substrate is located between the curved coverlens and the first curved substrate. The second curved substrate is bonded to the curved coverlens through an adhesive layer. The adhesive structure is located between the first curved substrate and the curved coverlens and is laterally located between the first sidewall and the fifth sidewall, between the second sidewall and the sixth sidewall, and between the third sidewall and the seventh sidewall. |
| US11740502B2 |
External light use type display body
An external light use type display body including: a light diffusion control layer; a display layer; and a reflective layer. The light diffusion control layer has a regular internal structure that comprises a plurality of regions having a relatively high refractive index in a region having a relatively low refractive index. The reflective layer has a patterned indented structure when at least one cross section cut in a thickness direction is viewed. When the entrance plane is irradiated with light rays that travel on the light ray traveling plane with a predetermined incident angle while being scanned along an intersection line of the light ray traveling plane and the entrance plane, the ratio of the light rays satisfying the following Formula (1) or Formula (2) is 50% or more. θid<θdd−≤θod≤θdd+ (1) θdd−≤θid≤θdd+<θod (2) |
| US11740499B2 |
Display device including a surface-modified adhesive area and a method of manufacturing the same
A display device includes: a display module including a first area and a second area at least partially surrounding the first area in a plan view; an external member disposed on the display module; and an adhesive layer configured to couple the display module to the external member, wherein a coupling strength between the second area and the adhesive layer is greater than a coupling strength between the first area and the adhesive layer. |
| US11740494B2 |
Integration of photonic components on SOI platform
An electro-optically active device comprising: a silicon on insulator (SOI) substrate including a silicon base layer, a buried oxide (BOX) layer on top of the silicon base layer, a silicon on insulator (SOI) layer on top of the BOX layer, and a substrate cavity which extends through the SOI layer, the BOX layer and into the silicon base layer, such that a base of the substrate cavity is formed by a portion of the silicon base layer; an electro-optically active waveguide including an electro-optically active stack within the substrate cavity; and a buffer region within the substrate cavity beneath the electro-optically active waveguide, the buffer region comprising a layer of Ge and a layer of GaAs. |
| US11740487B2 |
Methods and systems for programmable optical depth modulation via field evolving cavities with polarization clock
Some implementations of the disclosure are directed to modulating a number roundtrips that light travels within a cavity to modulate optical depth. In one implementation, a display system includes: a display configured to emit light corresponding to an image; a first optical component positioned in front of the display, the first optical component configured to pass the light to a field evolving cavity (FEC); and the FEC, where the FEC includes a cavity entrance and a cavity exit, the cavity entrance configured to receive the light passed by the first optical component, the FEC configured with a polarization clock that modulates a number of round trips the light travels within the FEC, between the cavity entrance and the cavity exit, by changing a polarization of the light during each round trip. |
| US11740486B2 |
Lens driving device
A lens driving device includes fixing bracket, first support frame sleeved on the fixing bracket, second support frame sleeved on the first support frame, rotation assembly configured to make the fixing bracket rotate relative to the first support frame about a first direction and the first support frame rotate relative to the second support frame about a second direction, driving assembly for driving fixing bracket to rotate relative to first support frame about the first direction and driving the first support frame to rotate relative to the second support frame about the second direction, flexible printed circuit board, first elastic support components, and second elastic support components. The lens driving device increases spacing between adjacent two of crossing portions of the shape memory wires so that the shape memory wires have enough space for the movement, preventing the shape memory wires from being interfered with each other during the movement. |
| US11740484B2 |
Image shake correction device and imaging device
An image shake correction device includes a movement restrictor that restricts movement of a movable member in directions X, Y, θ, and Z. The movement restrictor includes a movement prevention member that is fixed to a base of a support member and prevents the movable member from moving in the direction Z while sandwiching the movable member in cooperation with the support member, a hole portion formed in the support member, and an insertion member that is formed in the movable member and is inserted into the hole portion. A wide width portion of the insertion member has a size that overlaps with the base of the support member even in a state in which an abutting portion of the insertion member is positioned in any position in the hole portion. |
| US11740483B2 |
Method of diffractive optical assembly, and diffractive optical assembly
A design method of a diffractive optical assembly, and a diffractive optical assembly are provided. The design method comprises: designing a first diffractive optical element according to a target light field; simulating the first diffractive optical element to obtain a first light field difference between the simulation light field of the first diffractive optical element and the target light field; and designing a second diffractive optical element according to the first light field difference. |
| US11740477B2 |
Electronic device, method for controlling electronic device, and non-transitory computer readable storage medium
An electronic device according to the present invention includes: a processor; and a memory storing a program which, when executed by the processor, causes the electronic device to: detect an inclination of a display surface; receive a user operation; and perform control to display, as a display range, a portion of an image on the display surface, change a position of the display range in response to a change in the inclination of the display surface, and change the position of the display range in response to a user operation, wherein a second movement amount in which the display range moves in response to the change in the inclination of the display surface is corrected based on a first movement amount in which the display range is moved by the user operation. |
| US11740473B2 |
Flexible displays for VR/AR headsets
A headset for virtual reality imaging is provided. The headset includes a first display configured to generate multiple light beams from a central portion of a field of view in an image provided to a user, a first optical element configured to provide the light beams forming a central portion of the field of view through an eyebox of the headset that limits a volume including a pupil of the user, and a second display configured to provide a peripheral portion of the field of view for the image through the eyebox, wherein the second display includes multiple light emitting pixels arranged in a two-dimensional surface. A system and a method for using the above headset are also provided. |
| US11740469B2 |
Eyepiece for head-mounted display and method for making the same
A method, includes providing a wafer including a first surface grating extending over a first area of a surface of the wafer and a second surface grating extending over a second area of the surface of the wafer; de-functionalizing a portion of the surface grating in at least one of the first surface grating area and the second surface grating area; and singulating an eyepiece from the wafer, the eyepiece including a portion of the first surface grating area and a portion of the second surface grating area. The first surface grating in the eyepiece corresponds to an input coupling grating for a head-mounted display and the second surface grating corresponds to a pupil expander grating for the head-mounted display. |
| US11740463B2 |
Scanning device
Example methods, apparatuses and systems are disclosed for providing a device for capturing a barcode image within an augmented reality environment. An example method includes detecting a target object within a field of view of an augmented reality viewing device. The method further includes rendering an image of a scanning device within the field of view of the augmented reality viewing device, and rendering a scanning area within the field of view of the augmented reality viewing device. Further, a camera associated with the augmented reality viewing device captures an image of a barcode located on the target object. Corresponding apparatuses, systems, and computer program products are also provided. |
| US11740458B2 |
Projection device and projection method for head mounted display based on rotary MEMS fast scanner
A projector system in a head mounted display (HMD). The projector system includes a microscopic mirror. A microelectromechanical system (MEMS) is coupled to the microscopic mirror. The MEMS is configured to tilt the microscopic mirror at a varying scan angle in a first periodic fashion along a single scanning axis. A rotary platform is coupled to the microscopic mirror. The rotary platform is configured to rotate the microscopic mirror about a rotation axis in a second periodic fashion. A light emitter is configured to direct light into the mirror. The light emitter is configured to be modulated based on the position of the microscopic mirror due to the microscopic mirror being tilted along the scanning axis and rotated about the rotary axis. |
| US11740455B2 |
Pupil steered display
A display device may include a plurality of tiled spatial light modulators (SLMs) imparting image information upon respective light beams to obtain image beams. Pupil steering optics are configured to steerably direct the image beams towards a same or different exit pupil locations within an eyebox of the display device, providing exit pupil replication and/or an expanded field of view. An eye tracking system provides location information of the user's eye, enabling the pupil steering optic to direct at least some of the image beams to a desired exit pupil location. |
| US11740453B2 |
Apparatus configured to fly light-absorbing material, apparatus configured to model three-dimensional modeled object, and method of flying light-absorbing material
An apparatus configured to fly a light-absorbing material, includes a unit configured to irradiate a light-absorbing material absorbing light with a laser beam corresponding to a light absorption wavelength of the light-absorbing material to fly the light-absorbing material. When a preceding beam radiation region and a following beam radiation region overlap, the following beam radiation region is irradiated with the laser beam such that a beam centroid position is outside the preceding beam radiation region. |
| US11740452B2 |
Optical device
An optical device includes: a base that includes a main surface; a movable unit that includes an optical function unit; and an elastic support unit that is connected between the base and the movable unit, and supports the movable unit so that the movable unit is movable along a first direction perpendicular to the main surface. The elastic support unit includes a lever, a first torsion support portion that extends along a second direction perpendicular to the first direction and is connected between the lever and the movable unit, and a second torsion support portion that extends along the second direction and is connected between the lever and the base. A torsional spring constant of the first torsion support portion is greater than a torsional spring constant of the second torsion support portion. |
| US11740445B2 |
Advanced optical designs for imaging systems
An eye-mounted device includes a contact lens and an embedded imaging system. The front aperture of the imaging system faces away from the user's eye so that the image sensor in the imaging system detects imagery of a user's external environment. The optics for the imaging system has a folded optical path, which is advantageous for fitting the imaging system into the limited space within the contact lens. In one design, the optics for the imaging system is based on a two mirror design, with a concave mirror followed by a convex mirror. |
| US11740440B2 |
Optical imaging system
An optical imaging system includes a first lens, a second lens, a third lens, a fourth lens having negative refractive power, a fifth lens having positive refractive power, a sixth lens having a convex image-side surface, and a seventh lens, disposed sequentially from an object side. The optical imaging system satisfies −5.0 |
| US11740431B2 |
Housing of an image capturing device
A housing of an imaging unit is disclosed. The housing comprises an outer surface and an inner surface, wherein the inner surface of the housing defines a lens channel sized to receive a lens barrel. Further, the inner surface of the housing defines a helical step in the lens channel, wherein the helical step protrudes outwardly into the lens channel, and wherein the helical step is angled at a first predetermined pitch. Further, the inner surface of the lens channel defines a glue pocket, in the lens channel, which extends from the inner surface of the housing to the outer surface of the housing such that a first edge surface, defining a portion of a periphery of the glue pocket, is coplanar with the helical step. |
| US11740428B2 |
Optical element driving mechanism
The present disclosure provides an optical element driving mechanism, which includes a movable part, a fixed assembly, and a driving assembly. The movable part is configured to be connected to an optical element. The fixed assembly has a first opening, and the movable part is movable relative to the fixed assembly along a first axis. The driving assembly is configured to drive the movable part to move between a first position and a second position relative to the fixed assembly, so that the optical element selectively overlaps the first opening. |
| US11740426B2 |
Optical element, optical system and optical device
An optical element includes: a glass substrate; an optical function portion made of a resin; and a bonding portion that bonds the glass substrate and the optical function portion to each other. The bonding portion has a glass transition point of 85° C. or lower. The glass transition point of the bonding portion may be 50° C. or lower. |
| US11740422B2 |
Interconnect system
A system for managing connections for optical fibers that extend from a cable comprises a tray and a tray mount. The tray includes a body having at least one tray mount receiver. The tray mount comprises a base that defines an interface for cooperating with the at least one tray mount receiver, and comprises a clamshell tube configured to receive the optical fibers. The clamshell tube is movable between an open position and a closed position. The tray mount is configured couple the optical fibers to the tray without additional tools. |
| US11740419B2 |
Optical subassembly
Provided is an optical subassembly, which is compact, is easy to manufacture, and has satisfactory high-frequency characteristics. The optical subassembly includes: an eyelet including a first surface, a second surface and a plurality of through-holes; a plurality of lead terminals; a relay substrate including a lead connection surface and a first bonding surface and having first and second conductor patterns formed across the lead connection surface and the first bonding surface; a device mounting unit including a second bonding surface having formed thereon third and fourth conductor patterns; and an optical device configured to convert one of an optical signal and the differential electrical signals into the other. The first and second conductor patterns on the first bonding surface are connected to the third and fourth conductor patterns by bonding wires, respectively, and the first and second bonding surfaces have normal directions in the same direction. |
| US11740416B2 |
Optoelectronic device
An optoelectronic element is located in a package. The package includes a first optical block and a second optical block that are attached to each other by a bonding layer. One of the first and second optical blocks is attached to lateral walls of the package by glue. The material of the bonding layer is configured to induce less stress to the first and second optical blocks than the glue. |
| US11740413B1 |
Duplex optical connector with laterally repositionable connectors and pull boot release
A duplex optical connector includes a holder, a pair of optical connectors rotatably disposed in the holder, a cable boot slidably attached to the holder, and a clip removably attached to the holder. The clip functions to maintain a lateral position of the optical connectors relative to the holder and transfer applied force on the pull boot into actuating force on the connector latches. Connector openings formed in the holder are elongated in the lateral direction to provide separate use and polarity reversal connector positions, wherein the connectors non-rotatably engage the holder in their use position and rotatably engage the holder in their polarity reversal position. |
| US11740411B2 |
Optical couplers and hybrids
An optical circuit for routing a signal includes a coupler and first and second waveguides. The coupler has an input for the signal and has first and second outputs. The first waveguide has a first optical connection to the first output, and the second waveguide has a second optical connection to the second output. Both waveguides have the same propagation length. The first and second waveguides include different widths at the respective optical connections to the respective outputs. This coupler can be used with another input couplers, two additional waveguides, and two 2×2 output couplers to provide a 90-degree hybrid for mixing signal light and local oscillator light in a coherent receiver or the like. |
| US11740409B2 |
Photonic device
A photonic device includes an optical coupler, a waveguide structure, a metal-dielectric stack, and a protection layer. The optical coupler is over a semiconductor substrate. The waveguide structure is over the semiconductor substrate and laterally connected to the optical coupler. A top of the waveguide structure is lower than a top of the optical coupler. The metal-dielectric stack is over the optical coupler and the waveguide structure. The metal-dielectric stack has a hole above the optical coupler. The protection layer lines the hole of the metal-dielectric stack. |
| US11740407B2 |
Etched facet coupling for flip-chip to photonics chip bonding
Disclosed are integrated photonics systems including a coupling strategy to couple light in and out of optoelectronic flip-chips bonded to a photonics chip. The refined tolerances for flip-chip assembly and angled facets defined on both chips at optical couplings improve optical performance. |
| US11740405B2 |
Optical multiplexing circuit and light source
To reduce the size while being able to accurately monitor light of a plurality of wavelengths. An optical multiplexing circuit includes: a plurality of branching units each configured to divide light output from a corresponding one of a plurality of input waveguides; a multiplexing unit configured to multiplex beams each being one beam of the light divided by each of the plurality of branching units; an output waveguide configured to output the light multiplexed by the multiplexing unit; and a plurality of monitoring waveguides each configured to output another beam of the light divided by each of the plurality of branching units, wherein at least one monitoring waveguide of the plurality of monitoring waveguides includes a bent waveguide constituted by a rib-shaped waveguide. |
| US11740403B2 |
Optical fibers with high-temperature write-through coatings
An optically transparent protective coating is described that remains stable at elevated temperatures associated with optical fiber-based sensor applications and is sufficiently transparent to allow for conventional fiber Bragg gratings (FBGs) to be formed by directly writing through the coating. In particular, vinyl group-containing silicone polymers have been found to provide the UV transparency required for a write-through coating (WTC) and promising mechanical properties for protecting the optical fibers, while also being able to withstand elevated temperatures for extended periods of time. |
| US11740401B2 |
Method of manufacturing light emitting module
A method of manufacturing a light emitting module includes: providing an intermediate that includes a light guide having a first principal face and a second principal face opposing the first principal face, a plurality of light sources disposed on the second principal face of the light guide, and a wiring layer disposed on the second principal face and electrically connected to the plurality of light sources; allowing the plurality of light sources to emit light and measuring optical characteristics of the emitted light; and forming an optical characteristic correcting element in the intermediate based on the measured optical characteristics. |
| US11740391B1 |
Fluid lens operational feedback using sensor signal
Disclosed devices may include a membrane having a membrane curvature, a substrate, an enclosure (defined at least in part by the membrane and the substrate) enclosing a fluid, a peripheral structure configured to adjust the membrane curvature, and a sensor configured to provide a sensor signal that is a function of the membrane curvature. The device may also include a controller configured to control the membrane curvature using a control signal. For example, the control signal may be provided to at least one actuator. The controller may receive a sensor signal from the sensor and modify the control signal based on the sensor signal. Examples also include associated methods and systems. |
| US11740380B2 |
Minimal electronic sensor collars
This disclosure presents an apparatus and system for lowering the cost of implementing a downhole sensor system using attachable collars. In some aspects, the attachable collar includes a transmitter component, while supporting electronics are included with a main collar, thereby reducing the cost of the attachable collar. The supporting electronics can send a transmission signal, a control signal, a synchronization clock signal, a selected transmission frequency, a sensor orientation and selection, and other instructions to the transmitter in the attachable collar. The receiver in the main collar can receive the output, as reflected by the subterranean formation, and transform the output to subterranean formation evaluation measurements. The measurements can be communicated to other systems. In some aspects, the attachable collar can include the receiver and the main collar can include the transmitter. In some aspects, additional attachable collars can be included on the drill string to increase the transmitter-receiver spacing. |
| US11740375B2 |
Methods for simultaneous source separation
A multi-stage inversion method for deblending seismic data includes: a) acquiring blended seismic data from a plurality of seismic sources; b) constructing an optimization model that includes the acquired blended seismic data and unblended seismic data; c) performing sparse inversion, via a computer processor, on the optimization model; d) estimating high-amplitude coherent energy from result of the performing sparse inversion in c); e) re-blending the estimated high-amplitude coherent energy; and f) computing blended data with an attenuated direct arrival energy. |
| US11740373B2 |
Estimation of mechanical properties of transversely isotropic media
Systems and methods for determining mechanical properties of anisotropic media are disclosed. A method for determining mechanical properties of an anisotropic media includes obtaining log data of the anisotropic media, the log data corresponding to measurements of the anisotropic media collected with a logging tool; determining values for a plurality of first stiffness components of a stiffness matrix based on horizontal and vertical velocities derived from the log data; determining an upper bound for a second stiffness component of the stiffness matrix based on the values for the plurality of first stiffness components; estimating a value for the second stiffness component based on the determined upper bound; determining a mechanical property of the anisotropic media based on the estimated value of the second stiffness component; and providing the determined mechanical property. |
| US11740371B2 |
Device and method for measuring dynamic evolution of three-dimensional disturbed stress under mining disturbance
The present invention discloses a device for measuring dynamic evolution of a three-dimensional disturbed stress under mining disturbance, comprising an outer steel cylinder. Three three-direction sensing units are arranged on the outer steel cylinder. Any two of three stress measurement directions of each three-direction sensing unit are perpendicular to each other. Nine stress measurement directions of the three three-direction sensing units are different. The present invention also discloses a method for measuring dynamic evolution of a three-dimensional disturbed stress under mining disturbance. In the present invention, stresses are measured from three perpendicular directions which are inclined, so the difficulty in measuring a three-dimensional stress in a borehole is overcome; and a spatial stress value is measured by three three-direction sensing units, and thus the size and direction of a disturbed principal stress in the borehole are calculated. |
| US11740370B2 |
Radiation detection system and radiation detection method for neutron capture therapy system
Provided is a radiation detection system for improving the accuracy of a neutron beam irradiation dose for a neutron capture therapy system. The neutron capture therapy system includes a charged particle beam, a charged particle beam inlet for passing the charged particle beam, a neutron generating unit for generating the neutron beam by means of a nuclear reaction with the charged particle beam, a beam shaping assembly for adjusting flux and quality of the neutron beam, and a beam outlet adjoining to the beam shaping assembly, the radiation detection system includes a radiation detection device arranged within the beam shaper or outside the beam shaping assembly, the radiation detection device is used for real-time detection of the overflowing neutron beam by the neutron generating unit or the generated γ-ray after the nuclear reaction of the charged particle beam with the neutron generating unit. |
| US11740367B2 |
Radiation detectors for scanning systems, and related scanning systems
A radiation scanning system comprises a radiation detection sub-assembly, and a routing sub-assembly coupled to the radiation detection sub-assembly. The radiation detection sub-assembly comprises a first substrate electrically connected to the radiation detection sub-assembly, and a second substrate electrically connected to the first substrate. The radiation scanning system further comprises one or more radiation shields between the first substrate and the second substrate, and one or more semiconductor dice electrically connected to the second substrate on a side of the second substrate opposite the first substrate. Related radiation detector arrays radiation scanning systems are also disclosed. |
| US11740366B2 |
GPS based location determination using accurately mapped polygonal areas
GPS-based position reporting suffers from probabilistic error. The system and methods discussed herein reduce uncertainty by mapping a geometric figure that encompasses a GPS-based reported location and that bounds corresponding predetermined-as-more-probable true locations (MPTL's) among possible locations for the source of the reported location. The mapped figure is overlaid on a relatively accurate mapping of substantially adjacent polygonal areas. Areas of overlap are used for picking among the areas, the polygonal area most likely to be occupied by the source. In one embodiment, the polygonal areas are closely packed parking spots in a parking lot, garage or other like structure, the source is a customer's mobile phone and an attendant is tasked with quickly delivering ordered goods to the customer's parking spot. |
| US11740365B2 |
Positional error prediction device, prediction model generation device, positional error prediction method, prediction model generation method, and program
This positional error prediction device (1) is provided with: a satellite position acquisition unit (154) which acquires a receivable position of a satellite on a target date at a target time and a target point at which a positional error prediction is performed; a relative relationship value acquisition unit (151) which acquires a value of the relative relationship between the position of the satellite and an observation start position of the satellite at the target point; and an error prediction unit (155) which predicts, on the basis of the relative relationship value and a positional error prediction model generated in advance, a positional error on the target date at the target time and the target point. |
| US11740360B2 |
Light detection and ranging (LiDaR) scan smoothing
Among other things, techniques are described for identifying, in a light detection and ranging (LiDAR) scan line, a first LiDAR data point and a plurality of LiDAR data points within a vicinity of the first LiDAR data point. The techniques may further include identifying, based on a comparison of the first LiDAR data point to at least one LiDAR data point of the plurality of LiDAR return points, a coefficient of the first LiDAR data point, wherein the coefficient is related to image smoothness. The techniques may further include identifying, based on a comparison of the coefficient to a threshold, whether to include the first LiDAR data point in an updated LiDAR scan line, and then identifying, based on the updated LiDAR scan line, a location of the autonomous vehicle. |
| US11740357B2 |
System, method, and apparatus for detecting and characterizing ground motion
A system includes a ground-based area, an electromagnetic (EM) interrogation device having an EM emitter that directs an EM beam at the ground-based area. The EM interrogation device includes a detector array that receives reflected EM radiation from the EM beam, and a controller having a ground movement description module that determines a movement profile of the ground-based area in response to the reflected EM radiation. |
| US11740355B2 |
Adjustable beam pattern for LIDAR sensor
A LIDAR sensor for an autonomous vehicle (AV) can include one or more lasers outputting one or more laser beams, one or more non-mechanical optical components to (i) receive the one or more laser beams, (ii) configure a field of view of the LIDAR sensor, and (iii) output modulated frequencies from the one or more laser beams, and one or more photodetectors to detect return signals based on the outputted modulated frequencies from the one or more laser beams. |
| US11740354B2 |
Methods of linearizing non-linear chirp signals
Systems and methods of linearizing a signal of a light detection and ranging (LiDAR) sensor are described herein. A system receives a portion of a non-linear chirp signal. The portion of the non-linear chirp signal is sampled at a sampling frequency to generate data points corresponding to the portion of the non-linear chirp signal. A profile of the non-linear chirp signal is generated based on the data points. The non-linear chirp signal is linearized based on the profile of the non-linear chirp signal. |
| US11740353B2 |
Systems, methods, and apparatuses for alerting users to maintain physical distancing
A method for alerting a user on an electronic device is described. The method includes identifying a signal at an ultrasound transmission frequency received at a first electronic device from a second electronic device. Further, the method includes receiving timing information corresponding to an exchange of an ultrasound transmission between the first electronic device and the second electronic device. Furthermore, a first distance value between the first electronic device and the second electronic device is computed by performing a time of flight estimation using the timing information. Furthermore, the first distance value is refined by using an output of a machine learning model to determine a second distance value. Furthermore, the method includes generating an alert based on the comparison of the second distance value with a predefined threshold distance value. In some examples, the alert can be indicative of a violation of a physical distancing norm in an environment. |
| US11740350B2 |
Ultrasonic sensor
Object detection may include transmitting, by a first device, a first pulse into an environment using a wide field configuration of an ultrasonic sensor array, detecting a presence of an object in the environment based on a detected echo based on the first pulse. In response to detecting the presence of the object, a targeted configuration of the ultrasonic sensor array is determined, and a second pulse is transmitted into the environment based on the second pulse, wherein a characteristic of the object is determined based on a detected echo from the second pulse. |
| US11740348B2 |
Apparatus and method for detecting objects
An apparatus for nautical tracking, where the apparatus detects at least one object. The apparatus further determines radar information associated with the at least one object, and calculates a first velocity vector associated with the at least one object. The apparatus further determines information associated with a tidal current of the water body, and calculates a second velocity vector based on the information associated with the tidal current. The apparatus further compares the first velocity vector and the second velocity vector in order to classify an object of the at least one object as a target, and further notifies a user of the target. |
| US11740347B2 |
Object tracking in an area of distributed sensors
A sequence of motion observations of a moving object are received from a first set of sensors. A first sequence of distance ratios are calculated based on the first sequence of motion observations. First transects are generated based on the first sequence of distance ratios. A first motion track of the moving object is produced based on: the first transects; and a map. A second set of sensors are determined employing the map. A second sequence of motion observations of the moving object are received from the second set of sensors. A second sequence of distance ratios for second pairs of the second set of sensors based on the second sequence of motion observations. Second transects are generated based on the second sequence of distance ratios. A second motion track is produced based on the first motion track, the second transects, and the map. |
| US11740346B2 |
Motion detection and localization based on bi-directional channel sounding
In a general aspect of the examples described, motion is detected based on bi-directional channel sounding. In an example, a first set of channel information is obtained from a first device. The first set of channel information is based on a first set of wireless signals transmitted from a second device through a space at a first time in a timeframe. A second set of channel information is obtained from the second device. The second set of channel information is based on a second set of wireless signals transmitted from the first device through the space at a second time in the timeframe. The first and second sets of channel information are analyzed to detect a category of motion or a location of detected motion in the space during the timeframe. |
| US11740345B2 |
Dithering FMCW radar parameters to mitigate spurious signals
A method for a radar system includes transmitting, by a transmit channel of the radar system, a frame comprising first, second, and third chirps. Each chirp has a chirp start frequency, and the chirp start frequency of the transmitted chirps is dithered. The method also includes receiving, by a receive channel of the radar system, a frame of reflected chirps based on the transmitted frame, and generating a digital intermediate frequency (IF) signal. |
| US11740344B2 |
Dynamical object oriented information system for sustaining vitality of a target system
A method for monitoring and sustaining vitality of a target system (TS) dynamically by providing an object oriented information system (OOIS) for TS, receiving and monitoring information of surrounding environment of TS and information within TS by sensory units; creating received and monitored information wave packets (RMIWP); transform RMIWP into one or more processed information wave packets (PIWP) by translating frequencies of RMIWP into a common frequency; storing PIWP in ordered time sequence, space and logical classifications; recognizing strategic events (SE) based on stored PIWP, refining details of SE, recognizing a criteria for maximum vitality of TS, recognizing future plans (FP) based on SE and evaluating vitality of OOIS and recognizing a FP with maximum vitality, converting FP into steps in time and space for a motor unit for moving TS, monitoring movement of TS, comparing outcome with the criteria, and dynamically selecting a FP with maximum vitality. |
| US11740342B2 |
Method and apparatus for selecting a ranging anchor based on characteristics of communication between a connection anchor and a mobile electronic device
A first anchor of a first type communicates with a mobile electronic device. A characteristic of the communications between the first anchor of the first type and the mobile electronic device is determined. One or more second anchors each of a second type is selected based on the characteristic of the communications. A respective distance to the mobile electronic is determined based on each of the selected one or more second anchors each of the second type. |
| US11740341B2 |
Systems and methods for ultrasound beamforming
A system for ultrasound beamforming is provided, including a sampled analog beamformer, an array of ultrasound transducers, and a high voltage amplifier coupled to the sampled analog beamformer and the array of ultrasound transducers. The sampled analog beamformer includes a sampled analog filter for filtering an incoming analog signal and adding a fractional delay, and transmitting a filtered analog ultrasound signal. The array of ultrasound transducers further transmits the filtered analog ultrasound signal. The high voltage amplifier drives transducers in the array of ultrasound transducers. |
| US11740340B2 |
Techniques for amplification of return signal in LIDAR system
A light detection and ranging (LIDAR) apparatus includes an optical circuit including an optical source to transmit an optical beam, a first optical component to generate a local oscillator from the optical beam, a first optical amplifier to amplify a return signal to generate an amplified return signal, wherein a power level of the local oscillator is comparable to a power of amplified spontaneous emission of the first optical amplifier, and an optical detector operatively coupled to the first optical amplifier, the optical detector configured to output an electrical signal based on the amplified return signal and the local oscillator. |
| US11740339B2 |
Ranging system
A ranging system includes: a source generating a wideband incident wave that is transmitted toward a target and that is reflected by the target to form a reflected wave; a feedback detector to detect the reflected wave to generate a detected signal; an operator configured to perform low-pass filtering on the detected signal at an adjustable filtering bandwidth to generate a filtered signal, and calculate cross-correlation of a feedback signal that originates from the filtered signal and a reference signal that corresponds to the incident wave to generate a cross-correlation result; and a controller calculating a distance to the target based on an operation output that originates from the cross-correlation result. |
| US11740335B2 |
Identifying and/or removing false positive detections from LIDAR sensor output
A machine-learned (ML) model for detecting that depth data (e.g., lidar data, radar data) comprises a false positive attributable to particulate matter, such as dust, steam, smoke, rain, etc. The ML model may be trained based at least in part on simulated depth data generated by a fluid dynamics model and/or by collecting depth data during operation of a device (e.g., an autonomous vehicle. In some examples, an autonomous vehicle may identify depth data that may be associated with particulate matter based at least in part on an outlier region in a thermal image. For example, the outlier region may be associated with steam. |
| US11740334B2 |
Circuit and method for combining SPAD outputs
A combining network for an array of SPAD devices includes: synchronous sampling circuits, wherein each synchronous sampling circuit is coupled to an output of a corresponding SPAD device and is configured to generate a pulse or an edge each time an event is detected; and a summation circuit coupled to an output of each of the synchronous sampling circuits and configured to count a number of pulses or edges to generate a binary output value. |
| US11740333B2 |
Pulse energy plan for light detection and ranging (lidar) devices based on areas of interest and thermal budgets
Example embodiments relate to pulse energy plans for light detection and ranging (lidar) devices based on areas of interest and thermal budgets. An example lidar device includes a plurality of light emitters configured to emit light pulses into an environment in a plurality of different emission directions. The lidar device also includes circuitry configured to power the plurality of light emitters. Further, the lidar device includes a plurality of detectors configured to detect reflections of light pulses emitted by the plurality of light emitters. In addition, the lidar device includes a controller configured to (i) determine a pulse energy plan based on one or more regions of interest in the environment and a thermal budget and (ii) control the circuitry based on the pulse energy plan. The pulse energy plan specifies a pulse energy level for each light pulse emitted by each light emitter in the plurality of light emitters. |
| US11740332B2 |
Lidar sensor and control method thereof
Provided is a lidar sensor having a driving motor of which the entire portion is covered under an inclined surface of a scan mirror having an opened bottom surface and an A-shaped cross-section. A rotating shaft of the driving motor may be connected to the bottom of a backing surface disposed under the inclined surface, a magnet may be disposed at the bottom of one or more of the backing surface and a support surface which are connected to the inclined surface of the scan mirror, and a hall sensor may be disposed at the bottom surface of the lidar sensor corresponding to the position where the magnet is disposed. |
| US11740331B2 |
VCSEL array LIDAR transmitter with small angular divergence
A light detection and ranging (LIDAR) transmitter includes a plurality of light emitters that generate a plurality of optical beams. A first lens is positioned in an optical path of the plurality of optical beams at a distance from at least one of the plurality of light emitters that is less than a focal length of the first lens. The first lens converges the plurality of optical beams to a converged optical beam having a beam waist. A second lens is positioned in the optical path of the converged optical beam. The second lens projects the converged optical beam to a target range. The position of the second lens and an emission width of at least one of the plurality of light emitters are configured to provide a desired field-of-view of the LIDAR transmitter at the target range. |
| US11740330B2 |
Holographic light detection and ranging
A light detection and ranging system arranged to scan a scene comprises a light source arranged to output light having a first characteristic. A spatial light modulator is arranged to receive the light from the light source and output spatially-modulated light in accordance with computer-generated holograms represented thereon. A holographic controller is arranged to output a plurality of holograms to the spatial light modulator. Each hologram is arranged to form a corresponding light footprint within the scene. The holographic controller is further arranged to change the position of the light footprint within the scene. A light detector is arranged to receive light having the first characteristic from the scene and output a light response signal. The plurality of computer-generated holograms comprise a first plurality of holograms arranged to provide a first scan and a second plurality of holograms arranged to provide a second scan. In embodiments, the first plurality of holograms and second plurality of holograms are interleaved. |
| US11740327B2 |
High resolution and computationally efficient radar techniques
Methods, systems, computer-readable media, and apparatuses for determining one or more attributes of at least one target based on eigenspace analysis of radar signals are presented. In some embodiments, a subset of eigenvectors to use for forming a signal or noise subspace is identified based on principal component analysis. In some embodiments, the subset of eigenvectors is identified based on estimating the total number of targets using a discrete Fourier transform (DFT) or other spectral analysis technique. In some embodiments, a DFT is used to identify areas of interest in which to perform eigenspace analysis. In some embodiments, a DFT is used to estimate one attribute of a target, and eigenspace analysis is performed to estimate a different attribute of the target, with the results being combined to generate a multi-dimensional representation of a field of view. |
| US11740325B2 |
Vehicle-mounted radar calibration device and method
The present invention relates to the technical field of vehicle maintenance and device calibration, and discloses a vehicle-mounted radar calibration device and method. The vehicle-mounted radar calibration device includes a bracket apparatus and a radar calibration component. The radar calibration component is configured to be installed on the bracket apparatus and includes a base board. After calibration on the vertical plane of the base board is completed, the radar calibration component is configured to reflect a radar wave, emitted by a vehicle-mounted radar of a to-be-calibrated vehicle, to the vehicle-mounted radar, to calibrate the vehicle-mounted radar. In the present invention, after the vertical plane of the base board is calibrated, the radar calibration component is used to reflect the radar wave emitted by the vehicle-mounted radar to the vehicle-mounted radar. |
| US11740324B2 |
Channel combining and time-division processing circuit of dual-plane pulse doppler radar seeker
The disclosure discloses a channel combining and time-division processing circuit of a dual-plane pulse Doppler radar seeker. The circuit includes a time-division control circuit configured to receive a time-division control signal, control input of an elevation difference channel signal and an azimuth difference channel signal, combine the elevation difference channel signal and the azimuth difference channel signal and output a combined difference channel signal, and a hybrid bridge circuit configured to receive a sum channel signal, combine channels for the sum channel signal and the combined difference channel signal and output signals on a combined channel. With the circuit of the disclosure, signals received from a sum channel, an azimuth difference channel and an elevation difference channel can be combined into received signals from two channels for processing with one received signal processing channel hardware omitted. |
| US11740323B2 |
Power control for improved near-far performance of radar systems
A radar system includes a transmitter, a receiver, and a processor. The transmitter transmits continuous wave radio signals. The receiver receives radio signals that includes the transmitted radio signal reflected from targets in an environment. The targets include a first target and a second target. The first target is closer than a first threshold distance from the vehicle, and the second target is farther than the first threshold distance from the vehicle. A processor is configured to process the received radio signals. The processor is configured to selectively process the received radio signals to detect the second target. The processor selectably adjusts operational parameters of at least one of the transmitter and the receiver to discriminate between the first target and the second target. |
| US11740322B2 |
Head mounted display device and position device thereof
A head mounted display device and a positioning device thereof are provided. The positioning device includes a first sensor, a second sensor, a third sensor, a first hinge sensor, and a controller. The first sensor and the second sensor have a fixed relative location. The third sensor is disposed on a first flexible member of the head mounted display device. The first hinge sensor is disposed on a first connecting portion configured to connect a main body portion and the first flexible member, wherein the first hinge sensor is configured to sense a first movement state of the first flexible member. The controller is configured to calculate a first relative location information of the first sensor, the second sensor, and the third sensor, and to calibrate the first relative location information according to the first movement state. |
| US11740320B2 |
Simplified cell location information sharing for positioning purposes
Disclosed are techniques to determine a position of a user equipment (UE). In an aspect, the UE receives a plurality of positioning reference signals (PRS) from a plurality of cells. The UE determines a plurality of time of arrivals (TOA) of the plurality of PRSs, and prunes the plurality of TOAs based on the plurality of PRSs. The UE then derives a time difference of arrival (TDOA) vector from the pruned TOAs. The TDOA vector includes multiple TOA related measurements of multiple cells. The UE prunes the TOAs such that the cells represented in the TDOA vector are sufficiently geographically dispersed to determine the position of the UE at least in 2D. |
| US11740317B2 |
Communication device and non-transitory computer readable storage medium
A communication device comprising: a plurality of wireless communication sections; and a control section configured to control a repetition process of repeatedly performing a measurement process, on a basis of a reliability parameter calculated through the measurement process, and control a selection process of selecting a representative wireless communication section each time the measurement process is repeated in the repetition process, the measurement process including transmission of a signal from the representative wireless communication section, reception of the signal by the plurality of wireless communication sections, and calculation of the reliability parameter with regard to at least any of the wireless communication sections. |
| US11740316B2 |
Head-mountable device with indicators
A head-mountable device can include multiple microphones for directional audio detection. The head-mountable device can also include a speaker for audio output and/or a display for visual output. The head-mountable device can be configured to provide visual outputs based on audio inputs by displaying an indicator on a display based on a location of a source of a sound. The head-mountable device can be configured to audio outputs based on audio inputs by modifying an audio output of the speaker based on a detected sound and a target characteristic. Such characteristics can be based on a direction of a gaze of the user, as detected by an eye sensor. |
| US11740311B2 |
Magnetic resonance imaging apparatus, image processing apparatus, and image processing method
A volume rendering image is obtained based on a 3D MRI image by automatically performing appropriate opacity setting. A three-dimensional image of a subject is received, a distribution of pixel values of the three-dimensional image is calculated, a pixel value of a predetermined feature amount is calculated based on the distribution of the pixel values, and opacity is set for each of the pixel value included in the three-dimensional image based on the pixel value of the feature amount. Accordingly, the opacity can be set automatically. The volume rendering image of the three-dimensional image is generated using the opacity. |
| US11740309B2 |
Systems and methods for dynamically extending magnetic resonance imaging of a subject
Systems and methods are provided herein for determining whether to extend scanning performed by a magnetic resonance imaging (MRI) system. According to some embodiments, there is provided a method for imaging a subject using an MRI system, comprising: obtaining data for generating at least one magnetic resonance image of the subject by operating the MRI system in accordance with a first pulse sequence; prior to completing the obtaining the data in accordance with the first pulse sequence, determining to collect additional data to augment and/or replace at least some of the obtained data; determining a second pulse sequence to use for obtaining the additional data; and after completing the obtaining the data in accordance with the first pulse sequence, obtaining the additional data by operating the MRI system in accordance with the second pulse sequence. |
| US11740305B2 |
MR imaging using an accelerated multi-slice steam sequence
The present disclosure is directed to controlling a magnetic resonance imaging system for generating magnetic resonance image data from an object under examination, in which magnetic resonance raw data is captured, and at least one multi-slice STEAM pulse sequence is generated. The multi-slice STEAM pulse sequence comprises one excitation module for each slice, in each of which are generated a first slice-selective RF excitation pulse and a second slice-selective RF pulse, and one readout module for each slice for acquiring magnetic resonance raw data, which readout module comprises a third slice-selective RF pulse and further sequence elements for spatial encoding and for receiving RF signals. Between the excitation module and the readout module of a first slice is implemented at least one excitation module or one readout module for another slice. |
| US11740296B2 |
Device and method for measuring resistance of pressurized separator
The present invention relates to a device and method which can measure, in real time, the resistance, depending on pressure changes, of a separator that is immersed in an electrolyte, and enables analysis of the resistance properties of a separator reflecting the real operating state of a secondary battery. |
| US11740293B2 |
Battery cell monitor
A battery cell monitor circuit includes a first serial transceiver, a second serial transceiver, and a command decoder. The command decoder is configured to cause the first serial transceiver or the second serial transceiver to transmit a response to a battery monitoring command based on a response direction field included in the battery monitoring command. |
| US11740287B2 |
Semiconductor device and semiconductor device examination method
A semiconductor device of the embodiment includes a plurality of scan chains, a shift clock control circuit, and a shift clock generation circuit. The plurality of scan chains each include a plurality of scan flip-flops. The shift clock control circuit outputs, to each of the plurality of scan chains, a control signal that non-inverts or inverts a scan clock signal. The shift clock generation circuit is provided to each of the plurality of scan flip-flops and generates a non-inverted scan clock signal or an inverted scan clock signal based on the control signal, the non-inverted scan clock signal being obtained by non-inverting the scan clock signal, the inverted scan clock signal being obtained by inverting the scan clock signal. |
| US11740286B2 |
Scan testing using scan frames with embedded commands
Testing of integrated circuits is achieved by a test architecture utilizing a scan frame input shift register, a scan frame output shift register, a test controller, and a test interface comprising a scan input, a scan clock, a test enable, and a scan output. Scan frames input to the scan frame input shift register contain a test stimulus data section and a test command section. Scan frames output from the scan frame output shift register contain a test response data section and, optionally, a section for outputting other data. The command section of the input scan frame controls the test architecture to execute a desired test operation. |
| US11740282B1 |
Apparatuses and methods for monitoring health of probing u-bump cluster using current divider
An apparatus includes an input probe configured to be placed on a first cluster of u-bumps disposed on a semiconductor die, output probes configured to be respectively placed on multiple clusters of u-bumps disposed on the semiconductor die, the multiple clusters being separately connected to the first cluster. The apparatus further includes a space transformer and printed circuit board (PCB) portion including a current source configured to supply a current to the input probe placed on the first cluster, resistors having a same resistance and being connected to ground, and tester channels at which voltages are respectively measured, the tester channels being respectively connected to ends of the output probes respectively placed on the multiple clusters and being respectively connected to the resistors. The apparatus further includes a processor configured to determine whether the input probe is properly aligned with the first cluster, based on the measured voltages. |
| US11740280B2 |
Electric component with fail safe element
An electric component with a fail safe element is disclosed. In an embodiment a component includes a functional element and a fail safe element electrically interconnected therewith, wherein the fail safe element is configured to ensure a minimum resistance or a minimum conductivity of the component in the event of a failure of the functional element. |
| US11740273B2 |
Method and system for testing radiation susceptibility
A radiation susceptibility testing method includes transmitting radiation waves to a device under test, measuring the device under test to obtain a first voltage according to the radiation waves, outputting a reference voltage to a coupling device so that the coupling device generates a second voltage according to the reference voltage, adjusting the reference voltage to approximate the second voltage to the first voltage, storing the adjusted reference voltage, and outputting the second voltage to the device under test according to the adjusted reference voltage to simulate the impact of the radiation waves to the device under test. |
| US11740272B2 |
Integrated impedance measurement device and impedance measurement method thereof
Systems, devices, and methods are described herein for measuring an impedance of a DUT using an integrated impedance measurement device. A system includes a plurality of measurement circuits, a FFT processor, and a controller. The measurement circuits are coupled to the DUTs. Each measurement circuit is configured to generate a clock signal for a respective DUT, detect a voltage of the respective DUT, and generate first voltage related data using the clock signal and the voltage. The FFT processor is coupled to the measurement circuits. The FFT processor is configured to convert the first voltage related data into second voltage related data using a fast Fourier transform for each measurement circuit. The controller is coupled to the measurement circuits and the FFT processor. The controller is configured to calculate an impedance using the second voltage related data for each measurement circuit and output the impedance to each DUT. |
| US11740271B2 |
Insulation resistance monitoring device
Provided is an insulation resistance monitoring device that enables measurement of insulation resistance using a mega tester without removing the insulation resistance monitoring device. The insulation resistance monitoring device that monitors the insulation resistance of an object to be measured such as a motor includes: a current detecting unit that is connected between the power supply line and the ground line of the motor and detects a current flowing through the insulation resistance of the motor; a voltage generating unit connected between the power supply line and the ground line of the motor; and a switch for opening and closing the connection path between the power supply line or the ground line of the motor and the voltage generating unit, wherein the off resistance when the connection path is opened is 100 MΩ or more. |
| US11740266B2 |
Systems and methods for monitoring energy-related data in an electrical system
A method for monitoring energy-related data in an electrical system includes processing energy-related data from or derived from energy-related signals captured by at least one intelligent electronic device in the electrical system to identify at least one variation/change in the energy-related signals. The method also includes determining if the at least one identified variation/change meets a prescribed threshold or thresholds, and in response to the at least one identified variation/change meeting the prescribed threshold or thresholds, characterizing and/or quantifying the at least one identified variation/change. Information related to the characterized and/or quantified at least one identified variation/change is appended to time-series information associated with the energy-related data, and characteristics and/or quantities associated with the time-series information are evaluated to identify at least one potential load type associated with the characterized and/or quantified at least one identified variation/change. |
| US11740264B1 |
High temperature current sensor for power electronics
An enclosed low temperature cofired ceramic current sensor with planar signal pads incorporating shield plates protecting an inner positioned circumference offset herringbone wound coil connected to a pair of bottom signal pads, and a central axis stacked power conductor connected to a pair of bottom power pads outside of the top and bottom shield plates. |
| US11740262B2 |
Submetering system
A current sensor includes a first component and a second component shaped to fit together to create a combined unit with multiple openings through the combined unit. The opening is bounded on a first side by the first component and on a second side by the second component. The first component and the second component are configured to be fitted together around current-carrying conductors passing through the openings. The first component includes first portions of an inductive energy harvesting device and a current sensing device, both proximal to the first side of the opening. The second component includes second portions of the inductive energy harvesting device the current sensing device, both proximal to the second side of the opening. The inductive energy harvesting device may include a split-core ferrite current transformer and the current sensing device may include a Rogowski coil. |
| US11740260B2 |
Pogo pin-free testing device for IC chip test and testing method of IC chip
A pogo pin-free testing device for IC chip test includes a load board, a ceramic interposer disposed on the load board, and copper core balls. The ceramic interposer has first and second surfaces and connecting points, and the second surface of the ceramic interposer faces the load board. Each connecting point has through holes penetrating the first and second surfaces, and an inner sidewall surface thereof has a metallization layer. The metallization layer is extended to a portion of the first surface and a portion of the second surface. In each of the connecting points, an area of an extending portion of the metallization layer extended to the second surface is less than an area of an extending portion of the metallization layer extended to the first surface. The copper core balls are disposed between the load board and the through holes of each connecting point of the ceramic interposer. |
| US11740258B2 |
Physical quantity sensor, electronic apparatus, and vehicle
The physical quantity sensor includes a substrate having several areas, a movable body, and a detection electrode. The detection electrode straddles the several areas. When setting a first imaginary straight line which is the smallest in an angle formed with an X-axis direction of imaginary straight lines connecting two of end parts on respective areas of the detection electrode, and a second imaginary straight line extending along a principal surface of the movable body in a maximum displacement state around the oscillation axis, the first and second imaginary straight lines fail to cross each other in an area between a first normal line which passes the end part of the first one of the several areas and a second normal line which passes the end part of the last one of the several areas. |
| US11740253B2 |
Automatic analyzer, automatic analysis system, and display method of reagent list
Provided is an automatic analyzer that can perform a reagent preparation/disposal operation comfortably and smoothly as when printing a reagent list such as a reagent preparation/disposal list on paper even without printing the reagent list. The automatic analyzer that performs analysis using a sample and a reagent, the automatic analyzer including: a storage unit that stores reagent information related to a reagent remaining amount or a reagent expiration date of each of reagent containers; and a display unit that displays a reagent list in which reminder information that gives a reminder to an operator is assigned to each of setting positions of the reagent containers based on the reagent information stored in the storage unit. The reagent managing unit updates display of the reagent list such that a reagent container selected by the operator is visually identifiable while the reagent list is displayed. |
| US11740252B2 |
Apparatuses and methods for suspending and washing the contents of a plurality of cuvettes
Apparatuses and methods for washing a plurality of fluid samples are disclosed herein. In an embodiment, a system for washing a plurality of fluid samples respectively located within a plurality of cuvettes includes a rotor configured to rotate the plurality of cuvettes about an axis, a traveler mechanism located beneath the rotor, the traveler mechanism configured to move a plurality of magnets parallel to the axis of rotation of the rotor to position the plurality of magnets so that each cuvette of the plurality of cuvettes is located adjacent to at least one magnet of the plurality of magnets, and a wash system located above the rotor, the wash system configured to at least one of inject fluid into or aspirate fluid from the plurality of the cuvettes, while the plurality of magnets suspend magnetic particles located within each of the plurality of cuvettes. |
| US11740248B2 |
Biomarkers for assessing subjects with multiple sclerosis
Disclosed herein are methods in which an individual with multiple sclerosis (MS) can be classified into one of six subject groups, each subject group predictive for the patient's responsiveness to an interferon-β (IFN-β) therapy. The individual with MS can be classified according to the individual's serum marker levels, e.g., at baseline or following treatment with therapy. Depending on the classification, the individual with MS can be treated with standard therapies (e.g. IFN-β) or one or more alternative therapies with or without IFN-β. |
| US11740241B2 |
Construct including an anchor, an enzyme recognition site and an indicator region for detecting microbial infection in wounds
The disclosed technology relates to chemical entities for the detection of wounds, e.g., chronic wounds or infected wounds, including compositions, substrates, kits, dressing materials, and articles, and systems containing such compounds. The disclosed technology further relates to methods of using these compositions, kits and systems in diagnostic assays, and in the diagnosis and/or detection of chronic or infected wounds based on enzymatic action on specific moieties and/or reaction sites. The disclosed technology additionally relates to detection of pathogenic, e.g., bacterial and/or viral substances, such as enzymes and substrates, at the wound situs. Additional disclosure relates to methods of characterizing wounds based on expression of a plurality of markers and using such information to treat, manage, and follow-up patients suffering from chronic or infected wounds. |
| US11740238B2 |
Compositions and methods of detecting a substance of interest
Disclosed herein are methods and assays for the detection and/or quantification of one or more proteins or substances of interest in a sample, such as a plant, human, insect, microorganism or mammalian sample. |
| US11740236B2 |
Protein for rapid, efficient capture of antigens
The present disclosure relates to proteins comprising a target-binding domain for detection of a target of interest, methods, compositions and kits thereof. |
| US11740231B2 |
Articles of manufacture and methods related to toxicity associated with cell therapy
Provided are methods and articles of manufacture for use with cell therapy for the treatment of diseases or conditions, e.g., cancer, including for predicting and treating a toxicity. In some embodiments, the toxicity is a neurotoxicity or cytokine release syndrome (CRS), such as a severe neurotoxicity or a severe CRS. The methods generally involve detecting a marker by assaying a biological sample from a subject that is a candidate for treatment, optionally with a cell therapy, to determine if the subject is at risk for developing the toxicity, such as neurotoxicity or CRS or severe neurotoxicity or severe CRS. In some embodiments, the methods and articles of manufacture further includes a regent for assaying the biological sample and instructions for determining the percentage or number of cells positive for the marker in the biological sample. |
| US11740227B2 |
Small aperture large electrode cell
A nanopore cell includes a conductive layer and a working electrode disposed above the conductive layer and at the bottom of a well into which an electrolyte may be contained, such that at least a portion of a top base surface area of the working electrode is exposed to the electrolyte. The nanopore cell further includes a first insulating wall disposed above the working electrode and surrounding a lower section of a well, and a second insulating wall disposed above the first insulating wall and surrounding an upper section of the well, forming an overhang above the lower section of the well. The upper section of the well includes an opening that a membrane may span across, and wherein a base surface area of the opening is smaller than the at least a portion of the top base surface area of the working electrode that is exposed to the electrolyte. |
| US11740226B2 |
Designs and fabrication of nanogap sensors
Embodiments of the disclosure provide various nanogap sensor designs (e.g., horizontal nanogap sensors, vertical nanogap sensors, arrays of multiple nanogap sensors, various arrangements for making electrical connections to the electrodes of nanogap sensors, etc.), as well as various methods which may be used to fabricate at least some of the proposed sensors. The nanogap sensors proposed herein may operate as molecular sensors to help identify chemical species through electrical measurements using at least a pair of electrodes separated by a nanogap. |
| US11740223B1 |
Method for in-field determination of water to binder ratio of a concrete mixture
The present disclosure provides methods and apparatus for determining the water content of a fresh concrete mixture. Additionally, the present disclosure provides methods and apparatus for determining the water to binder ratio for a fresh concrete mixture. |
| US11740222B2 |
Magnetic head for a magnetic detector for detecting metal particles, and magnetic detector provided with such a head
A magnetic head for a magnetic detector for detecting metal particles in a hydraulic circuit includes an axial body internally including at least one magnet, at least a first electrode defining an air gap zone located in the magnetic field created by the magnet, such that the circuit creates a particle alignment zone in the air gap, and an electrical connector for electrically connecting the electrodes. The magnet can be a diametrically magnetized magnet. |
| US11740221B2 |
Smart raft system and method for monitoring and improving water quality to mitigate algal blooms
A system, method and computer program product for monitoring and improving water quality to mitigate harmful algal blooms using smart rafts, including a raft made from a mycomaterial; one or more tube-shaped pods formed in the raft and configured to hold seed or media and configured with a root channel at the bottom of the pods extending through a bottom of the raft; and a sensor holder formed in the raft and configured to hold a water quality sensor accessing a water channel extending through a bottom of the raft. Remedial plants are grown in the tube-shaped pods with roots of the remedial plants passing through the water channel into water underneath the raft. |
| US11740216B2 |
Method and apparatus for measuring humidity using an electrochemical gas sensor
A gas detection apparatus and method for measuring humidity using an electrochemical gas sensor. The gas detection apparatus comprises an electrolyte-based electrochemical gas sensor and a controller configured to measure the average humidity value within an ambient environment over a period of time. The average ambient humidity value over the period of time is determined based on the average rate of change over the period of time of the electrolyte concentration within the electrolyte gas sensor of the gas detection apparatus over the period and the average temperature in the ambient environment over the period of time. The gas sensing apparatus may be configured to communicate the average ambient humidity value within the ambient environment to a second electrochemical gas sensor or a second gas detection apparatus within the same ambient environment. |
| US11740211B2 |
LC/MS adduct mitigation by vapor deposition coated surfaces
The present disclosure discusses a method of separating a sample (e.g., small organic acid metabolite) including coating a flow path of a chromatographic system. The coating along the flow path is vapor deposited and prevents or severely decreases metal interactions between the metallic chromatographic system and the sample. |
| US11740210B2 |
Chromatography apparatus
Disclosed is a chromatography system (100) comprising: plural modules (1-25) including at least one pump and a column valve unit (8) connectable to plural chromatography columns; and a controller (600), the controller being operable to control the or each pump and the column valve to perform different chromatographic processes, including chromatography employing just one column, as well as chromatography employing two or more columns by selective valve opening in said unit. The system includes a housing (110) into which the plural modules (1-25) are interchangeably mountable in apertures of one generally vertical face of housing, the modules are adapted for selective fluidic interconnection by tubing substantially at said one face such that in use the modules and tubing occupy a generally vertically extending volume to minimize the footprint of the system. |
| US11740201B2 |
Sensor interrogation
A system includes a system housing including an inlet, at least one gas sensor responsive to a first analyte gas other than oxygen within the system housing and in fluid connection with the inlet, and a sensor responsive to oxygen within the system housing and in fluid connection with the inlet. The sensor responsive to oxygen is formed to be chemically separate from the at least one gas sensor responsive to the first analyte gas other than oxygen. The sensor responsive to oxygen is responsive to a change in the concentration of oxygen arising from creation of a driving force in the vicinity of the inlet to provide an indication of a state of a transport path between the inlet of the system and the at least one gas sensor responsive to the first analyte gas other than oxygen. |
| US11740198B2 |
Formaldehyde detecting sensor and system using the same
[Object] To provide a formaldehyde detecting sensor capable of constantly monitoring formaldehyde selectively and with high accuracy.[Solving Means] A formaldehyde detecting sensor according to the present invention includes: a reaction portion that contains at least a hydroxylamine salt and reacts with formaldehyde to generate an acid; and a response unit that includes an electrode carrying a carbon material, an electrical resistance value of the carbon material varying depending on the acid generated in the reaction portion, in which the hydroxylamine salt and the carbon material are separated from each other. |
| US11740192B2 |
System and method for an acoustically driven ferromagnetic resonance sensor device
A system and method for design and operation an acoustically driven ferromagnetic resonance (ADFMR) based sensor for measuring electromagnetic fields that includes: a power source providing an electrical signal to an ADFMR circuit, sensitive to electromagnetic fields, wherein the ADFMR circuit comprises an ADFMR device. The system detect and measure external electromagnetic (EM) fields by measuring a perturbation of the electrical signal through the ADFMR circuit due to the EM fields. The system and method may function to facilitate the design and operation of a chip-scale ADFMR device usable to measure EM fields. |
| US11740189B2 |
Defining parameters for scan of single crystal structure
A method of defining at least one scan parameter for an x-ray scan of a single crystal structure, the method comprising: determining a target orientation of the structure for the scan; and defining different non-zero levels of x-ray exposure for different parts of a scan area based on either or both of the target orientation and characteristics of the structure; and, defining the scan area so that substantially all x-rays of the scan are directed to the structure in the target orientation. |
| US11740187B2 |
Pavement material microwave density measurement methods and apparatuses
Portable microwave material gauge for determining the quality of a pavement material is provided. The gauge includes an electromagnetic field generator configured to generate an electric field mode that penetrates into the material wherein the material includes a heterogeneous material including at least one of a pavement material and a soil material, a calibration data set, a sensor of size and shape to support the electric field mode and to determine the response of the pavement material to the electric field wherein determining the response includes determining a change in the permittivity as a function of a change in the quality of the material; and an analyzer configured to correlate the sensor permittivity response to the calibration data set wherein correlating the response includes using stored relationships between the material quality and the sensor response using calibration samples having changes in permittivity as a function of quality. |
| US11740186B2 |
Image acquiring method, image acquiring apparatus and wafer inspection apparatus
An image acquiring method, an image acquiring apparatus and a wafer inspection apparatus are disclosed. A line scan camera is disposed above a transfer path of a wafer to continuously acquire partial images having a predetermined size by imaging a scan area including a portion of the transfer path, and the partial images are stored in an image storage unit. A partial image including a predetermined feature point among the partial images is detected by an image analysis unit, and an image merging unit merges a predetermined number of partial images including the detected partial image to acquire an entire image of the wafer. An image inspection unit analyzes the entire image of the wafer to detect defects in the wafer. |
| US11740184B2 |
Fiber web for gas sensor, method for manufacturing same, and gas sensor comprising same
Provided is a fiber web for a gas sensor. In one exemplary embodiment of the present invention, there is provided a fiber web for a gas sensor including nanofibers including a fiber-forming material and a sensing material for reacting with a target substance in a test gas. According to the exemplary embodiment, the fiber web for a gas sensor is capable of identifying the presence or absence of a target substance in a test gas and quantitatively determining the concentration of a target substance, and exhibits improved sensitivity due to having an increased area of contact and reaction with a target substance contained in a test gas. In addition, the fiber web for a gas sensor facilitates the detection of a target substance in a test gas at a low cost and thus can be widely used for the detection of various volatile organic compounds (VOCs) in households, the diagnosis of asthma or esophagitis or the identification of a patient suffering from the same, and the detection of hazardous materials in other fields of industrial safety. |
| US11740180B2 |
Method of measuring diffusion in a medium
Methods for measuring diffusion in a medium. One method includes dissolving a fluorescent sample in a medium, imaging the fluorescent sample with a patterned illumination Fluorescence Recovery After Photobleaching (FRAP) technique, and analyzing a set of microscope images of the photobleached dissolved fluorescent sample with the patterned illumination using a Fourier Transform (FT) FRAP technique. |
| US11740169B2 |
Method for measuring counting rates or measured variables dependent on the counting rates and apparatus for measuring counting rates or measured variables dependent on the counting rates
A method for measuring counting rates or measured variables dependent on the counting rates for determining a density profile of at least two substances with different densities arranged within a container by using a plurality of detectors is provided. The method includes recording respective gamma rays which have penetrated at least partially through at least one of the substances by using the detectors, and generating a respective counting rate or a respective measured variable dependent on the counting rate only on the basis of respectively recorded gamma rays of which the respective gamma energy is greater than or equal to an energy threshold value, the energy threshold value being a minimum of 0.5 times a Compton energy value of a Compton gap of the gamma rays. |
| US11740165B2 |
Material testing machine
A material testing machine is provided. The material testing machine includes a force detector that detects the testing force that acts on the target to be tested; a displacement detector that detects displacement generated in the target to be tested; and a controller that controls the load mechanism. The controller includes: a differential displacement calculator that obtains a differential displacement value from a value of the displacement detected by the displacement detector and a target displacement value that has been set in advance as a test condition; and a display controller that displays, on a display device, a differential displacement graph indicating, in a form of a graph, time-series data of the differential displacement value calculated by the differential displacement calculator. |
| US11740163B2 |
Nanometer size chemical modified materials and uses
A method of separating analytes in a liquid sample includes flowing the liquid sample through a chromatography column configured for use in liquid chromatography. The chromatography column contains a composition that includes a solid support having an exterior surface, a ligand, and a linker. The ligand includes a polyhedral oligomeric silsesquioxane moiety. The linker is covalently bound to both the polyhedral oligomeric silsesquioxane moiety and the exterior surface of the solid support. |
| US11740162B2 |
Contact-type patch, staining method using the same, and manufacturing method thereof
The present disclosure relates to a gel-phase patch that performs a function of assisting in staining during a staining process such as a process of coming into contact with a specimen such as blood to perform a staining function of staining the specimen, a process of fixing the specimen, or a process of forming an optimal pH at a specimen stained by a staining sample. According to an aspect of the present disclosure, a contact-type staining patch includes a staining solution that reacts with a specimen and a gel receptor provided as a gel matrix of a mesh structure in which a pore that accommodates the staining solution is formed and the mesh structure prevents the staining solution in the pore from leaking or degenerating, and having a contact surface that comes into contact with the specimen to transfer some of the staining solution to the specimen. |
| US11740152B2 |
Method and system for detecting and diagnosing fluid line leakage for industrial systems
A method of detecting a leak-induced abnormal condition in a fluid line system having a plurality of heaters includes determining a plurality of temperature characteristics at a plurality of locations of the fluid line system, where each temperature from among the plurality of temperature characteristics is associated with at least one heater from among the plurality of heaters and monitoring, for each of the plurality of heaters, an electrical characteristic of the heater. The method includes determining the leak-induced abnormal condition is present within the fluid line system in response to the electrical characteristic of a given heater from among the plurality of heaters and the temperature characteristic associated with the given heater satisfying a temperature-and-electrical characteristics (TEC) deviation condition and performing a corrective action in response to determining the leak-induced abnormal condition is present. |
| US11740148B2 |
Integrated sensor to monitor fluid delivery
A sensor for use in a fluid flow application is provided. The sensor includes an inlet chamber configured to receive a fluid flow from a first conduit, an outlet chamber configured to provide the fluid flow to a second conduit, and a membrane separating the inlet chamber from the outlet chamber, the membrane including a fluid passage to allow the fluid flow from the inlet chamber to the outlet chamber. The sensor also includes a circuit component disposed on the membrane, having an electrical property configured to change according to a deformation of the membrane, and a conductor formed on a substrate and coupled with the circuit component, to provide an electrical signal based on a change in the electrical property of the circuit component. The membrane includes an epitaxial layer formed on the substrate. Methods for fabricating and using the above sensor are also presented. |
| US11740147B2 |
Triaxial force sensor
A triaxial force sensor 1 includes nine first electrodes 11 to 19, and nine second electrodes 21 to 29 attached to an electrode support 10 in such a manner that the electrode support 10 is interposed between the nine first electrodes 11 to 19 and the nine second electrodes 21 to 29. A pair of first electrodes 14 and 16 are arranged such that a straight line connecting the two is orthogonal to a straight line connecting a pair of first electrodes 12 and 18, and the second electrodes 22, 24, 26, and 28 are arranged such that the respective halves overlap the first electrodes 12, 14, 16, and 18 in plan view. The sensor has a number of components and size, thereby allowing a reduction in manufacturing cost, in the case of detecting forces in orthogonal triaxial directions. |
| US11740141B2 |
Pressure-sensitive element
Provided is a pressure-sensitive element having a relatively wide measurement range of a pressing force and a relatively simple structure while having more sufficient stretchability. A pressure-sensitive element includes a base material, a plurality of conductor wires, a plurality of dielectrics, and a filamentous member. The base material includes an elastic conductor having elasticity and conductivity. Further, the base material has a sheet shape. The plurality of conductor wires are arranged in parallel so as to individually intersect with the elastic conductor in plan view. Further, each of the plurality of conductor wires has a plurality of inflection parts. The plurality of dielectrics are arranged between the elastic conductor and the plurality of conductor wires. The filamentous member elongates so as to intersect with the plurality of conductor wires in plan view. Further, the filamentous member sews the plurality of conductor wires to the base material. |
| US11740140B2 |
Velocity regulation of the calibrator block in a dry block calibrator
The present invention discloses a method for regulating temperature in a temperature calibrator, taking into account also a velocity of the change of the temperature. The characterizing features are the steps of calculating a rate of change of the actual temperature of the temperature calibrator by a derivator, which derivator takes the measured temperature, PVT, by the temperature sensor as its input, and letting a user to specify a maximum rate of change for the temperature, as an input value for the processor; and regulating the temperature of the temperature calibrator by the processor so that the maximum rate of change for the temperature is never exceeded, and so that during temperature regulation, when the temperature error signal decreases as a function of time, also the rate of change of the actual temperature is set to decrease as a function of time. |
| US11740139B2 |
Flow guiding and heat dissipating type dry block temperature calibrator
A flow guiding and heat dissipating type dry block temperature calibrator, which belongs to the temperature calibration field. The temperature calibrator includes a furnace body located in a housing and at least one air flow generating device. The air flow generating device is on one side or at the periphery of the furnace body, and is one or a combination of a gas passage, a flow guiding fan, an air pump and a blower. The air flow generated by the air flow generating device is blown toward a handle of a device being tested that is inserted in the furnace body, such that the handle is cooled, thereby preventing the sensor inside the handle from failing due to high temperature, facilitating the heat dissipation of the internal electronic components of the instrument itself, and extending the service life of the temperature calibrator. |
| US11740138B2 |
Ultrasound catheter
A first tubular body having a first longitudinal axis extending centrally through the tubular body includes at least one delivery port extending through a wall of the first tubular body. A second tubular body having a second longitudinal axis extends through the second tubular body, the first and second longitudinal axes being displaced from each other such that an asymmetrical longitudinally extending gap is formed between an outer surface of the second tubular body and an interior surface of the first tubular body. A temperature sensor forming a thermocouple extending longitudinally within the gap between the first tubular body and the second tubular body. An inner core is positioned within the second tubular body. The inner core includes least one ultrasound element. |
| US11740137B2 |
Multi-sensing PTAT for multiple-location temperature sensing
An integrated circuit that controls distributed temperature sensors in a semiconductor die is described. This integrated circuit may include: memory; a controller (such as a PTAT controller) coupled to the memory; temperature sensors distributed at measurement locations in the semiconductor die (such as remote locations from the controller), where a given temperature sensor includes building blocks (or components) that are common to the temperature sensors; and routing between the controller and the building blocks over an addressable bus, where signal lines for analog signals in the addressable bus are reused when communicating between the controller and different temperature sensors. |
| US11740133B2 |
Temperature sensing system
A temperature sensing device comprising a housing including a display, an extension at least 1.5 inches long extending from the housing, a temperature sensor, and a connector from the sensor to the housing for transmitting the output to the housing. The extension has a proximal section at the housing and an opposed distal section, the distal section being movable relative to the housing. The temperature sensor is at the distal section of the extension for sensing the temperature of a target material and providing an output related to the temperature of the target material. Optionally, the device includes a thermal insulator at the distal section of the extension protecting the temperature sensor from heat from the target material. Optionally, the device includes a light source at the distal section of the extension for aiming the sensor at the target material. |
| US11740125B2 |
Imaging apparatus and spectral density reconstruction method
The present disclosure generally pertains to an imaging apparatus for computed tomography imaging spectroscopy, which has circuitry configured to: obtain object image data being representative of light stemming from an object and being subject to an optical path and to a multiplexing process caused by a diffraction grating; and perform a spectral density reconstruction from an image of the object by inputting the obtained object image data into an spectral density reconstruction algorithm being configured to numerically solve a first equation describing the transformation of the light stemming from the object caused by the optical path into the object image based on a reduction of a dimensionality of a first function indicative of the optical path based on a symmetry of the first function, thereby reconstructing the spectral density of the object. |
| US11740122B2 |
Autonomous discrimination of operation vibration signals
Systems, methods, and other embodiments associated with autonomous discrimination of operation vibration signals are described herein. In one embodiment, a method includes partitioning a frequency spectrum of output into a plurality of discrete bins, wherein the output is collected from vibration sensors monitoring a reference device; generating a representative time series signal for each bin while the device is operated in a deterministic stress load; generating a PSD for each bin by converting each signal from the time domain to the frequency domain; determining a maximum power spectral density value and a peak frequency value for each bin; selecting a subset of the bins that have maximum PSD values exceeding a threshold; assigning the representative time series signals from the selected subset of bins as operation vibration signals indicative of operational load on the reference device; and configuring a machine learning model based on at least the operation vibration signals. |
| US11740121B2 |
Weight checker structure with slidable screen
A weight checker includes a transport unit, a weighing unit, a body, and a frame. The transport unit transports products under inspection. The weighing unit determines the weights of the products under inspection on the transport unit. The body has a screen relating to the weighing performed by the weighing unit. The frame anchors the transport unit and the weighing unit. The frame has rail members that extend in a transport direction of the transport unit. The body is independent of the transport unit and the weighing unit and is mounted to the rail members such that its position in the transport direction TD can be changed. |
| US11740118B2 |
Line volume calibration systems and methods
Provided are systems and methods for line volume calibration, and measurement of fluid samples delivered to an interrogation point. In various embodiments, a known fluid volume comprising a sample line fluid and a secondary fluid is delivered to a fluid boundary sensor. The fluid boundary sensor assists in determining the position of the boundaries between the various fluids, and the positions of these boundaries are used to determine the sample line fluid volume. |
| US11740117B2 |
Method of determining total prove time
Methods for operating a flowmeter diagnostic tool are provided that comprise interfacing the diagnostic tool with a flowmeter (5) sensor assembly (10). A base prover volume (BPV), a desired number of passes per run, and/or a maximum number of allowed runs may be input into the diagnostic tool. Flowmeter data is received. An estimated total prove time (TPT) necessary to pass a predetermined repeatability requirement, an estimated minimum number of runs needed to achieve the calculated TPT, and/or an estimated minimum BPV may be calculated. A standard deviation of the flowmeter sensor assembly flow rate (σ) is calculated, and the number of samples used to calculate a is determined. A meter-specific factor (MSF) is calculated. |
| US11740110B2 |
Sensor-device attachment structure
Provided is a sensor-device attachment structure including: a thin portion that is thinner than other parts of a member; a flexible board; an at least one sensor device installed to the flexible board; a spacer that is formed into a shape of a film having a uniform thickness, that is sandwiched between the thin portion and the flexible board, and that includes a through portion which is formed through the spacer in a thickness direction of the spacer at a position corresponding to the at least one sensor device; and an adhesive that is charged in the through portion, and that bonds the thin portion and the flexible board to each other. |
| US11740107B2 |
Sensor system verifying data related to a movement of an object
A sensor system for sensing movement of an object, including: a first sensor providing a first signal along a first signal path on a semiconductor chip, the first signal being used to determine a first characteristic of the movement; a second sensor providing a second signal along a second signal path on the semiconductor chip, the second signal being used to determine a second characteristic of the movement; and an alarm circuit configured to issue a fault warning when there is a violation of a predefined relationship between the first signal and the second signal based on a missing or additional portion of the first signal or the second signal. |
| US11740102B2 |
Method, apparatus, device and storage medium for determining point of interest area
The present disclosure discloses a method, an apparatus, a device, and a storage medium for determining a point of interest area, and relates to the field of automatic driving. The implementation solution is that the method is applied to an electronic device, and includes: receiving a point of interest area determination request input by a first user, the point of interest area determination request including a target area coverage; and acquiring grid data of at least one block within the target area coverage in response to the point of interest area determination request; acquiring, for each block, positioning data of a second user within each preset time period and number of parent points of interest; clustering corresponding grid data according to the positioning data, the grid data and the number of the parent points of interest; determining at least one POI area in each block according to a clustering result. |
| US11740101B2 |
Method for characterising bends for warning drivers
A method for characterizing the curvature of a road section, including: selecting, from among the points of the section, the points marking a curvature of the section; computing, for each selected point of the section contained between the second and the penultimate one, an indicator of curvature of the section at this point; identifying each bend contained in the road section, each bend including a set of successive selected points of the section; and for each bend contained in the road section, comparing the indicator of curvature of at least one of the points of the bend with a predetermined threshold. If the indicator of curvature computed for at least one of the selected points of the bend exceeds the predetermined threshold, recording, in a database, a data record including at least the set of points of the bend, and an item of data characterizing the curvature of the bend. |
| US11740100B2 |
Systems and methods for providing virtual navigation guidance
Systems, methods, and non-transitory computer-readable media can receive a starting location and a destination location. A route from the starting location to the destination location is determined. A video preview of the route is generated based on map data associated with the route. The video preview depicts one or more vehicles to be taken by a user traversing the route. |
| US11740099B2 |
Methods and systems for generating route data
A device is provided to extract scan lines data from images of a route, said scan line data comprising only a portion of the an image that extends along a scan line, and to store this data in memory together with respective positional data pertaining to the position of the device traveling along the route in a navigable network. This scan line and positional data can be obtained from a plurality of devices in a network and transmitted to computing apparatus, for example, for use in a production of a realistic view of a digital map. |
| US11740098B2 |
System and method for providing charging options based on electric vehicle operator activities
A system and method for providing charging options based on electric vehicle operator daily activities that include analyzing data associated with daily activities of an operator of an electric vehicle and determining at least one travel routine and at least one prospective travel plan that is completed by the operator of the electric vehicle based on the daily activities. The system and method also include determining a current geo-location of the electric vehicle. The system and method further include presenting an electric vehicle charging planner user interface that presents at least one prospective travel path to the at least one predicted point of interest. |
| US11740097B2 |
Method, device and system for managing smell sensibility based on route of moving object
A method of managing smell sensibility according to a route of a moving object includes checking a planned travel route of the moving object, determining whether a bad-smell area is included in the planned travel route, determining whether a bad-smell level of the bad-smell area is equal to or greater than an unpleasantness level of a user of the moving object when the bad-smell area is included, and performing a suppression process for blocking introduction of a bad smell into the moving object when the bad-smell level is equal to or greater than the unpleasantness level of the user and maintaining the planned travel route when the bad-smell level is less than the unpleasantness level of the user. |
| US11740094B2 |
Providing trip status in a vehicle
A computer having a processor and memory storing instructions executable by the processor. The computer is programmed to: determine a total trip parameter associated with a destination of an occupant of a vehicle; determine a progress parameter since an outset of an occupant trip; and control a light output of a status assembly, wherein the output represents the parameters. |
| US11740090B2 |
Atom chip having two conductive strips for an ultra-cold atom inertial sensor, and associated sensor
An atom chip (Ach) for an ultra-cold atom sensor, the atom chip includes a first pair of waveguides, a second pair of waveguides, the projections of the guides along X and the guides along Y′ in the plane XY forming, at their intersection, a first parallelogram with a centre O and having a first surface, a first conductive strip and a second conductive strip arranged such that their respective projection in the plane XY forms, at their intersection, a second parallelogram also with a centre O and having a second surface, the strips being designed to be flowed through by DC currents, an intersection between the first and the second surface being greater than or equal to 40% of the first surface. |
| US11740088B2 |
Microelectromechanical gyroscope and method for compensating an output thermal drift in a microelectromechanical gyroscope
A microelectromechanical gyroscope includes: the support structure; a sensing mass, coupled to the support structure with degrees of freedom along a driving direction and a sensing direction perpendicular to each other; and a calibration structure facing the sensing mass and separated from the sensing mass by a gap having an average width, the calibration structure being movable with respect to the sensing mass so that displacements of the calibration structure cause variations in the average width of the gap. A calibration actuator controls a relative position of the calibration structure with respect to the sensing mass and the average width of the gap. |
| US11740087B2 |
Inertial sensor
A micro vibration body includes a curved surface portion, a recessed portion recessed from the curved surface portion, a bottom surface protruding portion protruding from a bottom surface of the recessed portion, and a through hole in the bottom surface protruding portion. A mounting substrate has a positioning recess, into which the bottom surface protruding portion is inserted, and electrode portions surrounding the inner frame portion. A joining member is in the positioning recess and joins the bottom surface protruding portion with the mounting substrate. The bottom surface is in contact with a region of the mounting substrate around the positioning recess. The bottom surface protruding portion has a tip end surface that is at a distance from the positioning recess. The joining member at least partially enters the through hole and is electrically connected to the conductive layer. |
| US11740082B2 |
Level including removable end caps
A level includes a frame supporting a plurality of vials and having an aperture disposed on an end of the level. The level also includes an end cap assembly detachably coupled to the end of the frame. The end cap assembly includes an end cap and a retainer. A portion of the end cap is received in the aperture and is maintained in engagement with the frame by the retainer. |
| US11740080B2 |
Aerial video based point, distance, and velocity real-time measurement system
A method of determining geo-reference data for a portion of a measurement area includes providing a monitoring assembly comprising a ground station, providing an imaging assembly comprising an imaging device with a lens operably coupled to an aerial device, hovering the aerial device over a measurement area, capturing at least one image of the measurement area within the imaging device, transmitting the at least one image to the ground station using a data transmitting assembly, and scaling the at least one image to determine the geo-reference data for the portion of the measurement area by calculating a size of a field-of-view (FOV) of the lens based on a distance between the imaging device and the measurement area. |
| US11740079B2 |
Method, computer program and device for determining a vehicle spacing for an observation period
The present invention relates to a method, to a computer program comprising instructions and to a device for determining a vehicle spacing for an observation period. The invention also relates to a motor vehicle and to a back end, in which a method according to the invention, or device according to the invention, is used. In a first step, measurement values relating to an average vehicle spacing for a plurality of measurement times are received. These values may be stored for later use. The situation may arise in which an unusable measurement value is identified at an error time. In this case, a vehicle spacing for a current observation period that contains the error time is determined based on a vehicle spacing determined from the recorded measurement values for a previous observation period. |
| US11740078B2 |
Enhanced sensor alignment
Devices, systems, and methods are provided for enhanced sensor alignment. A device may determine a first array of displacement sensors proximate to a first test structure. The device may determine a second array of displacement sensors proximate to a second test structure. The device may apply a test condition to the first array, the second array, the first test structure, and the second test structure. The device may collect a first output from applying the test condition to the first test structure. The device may collect a second output from applying the test condition to the second test structure. The device may generate a first deviation vector associated with the first output. The device may generate a second deviation vector associated with the second output. The device may determine a first design status of the first structure based on the first deviation vector. The device may determine a second design status of the second structure based on the second deviation vector. |
| US11740075B2 |
Dynamic adjustment of structured light for depth sensing systems based on contrast in a local area
A depth camera assembly (DCA) determines depth information. The DCA projects a dynamic structured light pattern into a local area and captures images including a portion of the dynamic structured light pattern. The DCA determines regions of interest in which it may be beneficial to increase or decrease an amount of texture added to the region of interest using the dynamic structured light pattern. For example, the DCA may identify the regions of interest based on contrast values calculated using a contrast algorithm, or based on the parameters received from a mapping server including a virtual model of the local area. The DCA may selectively increase or decrease an amount of texture added by the dynamic structured light pattern in portions of the local area. By selectively controlling portions of the dynamic structured light pattern, the DCA may decrease power consumption and/or increase the accuracy of depth sensing measurements. |
| US11740071B2 |
Optical interferometry proximity sensor with temperature variation compensation
An optical proximity sensor includes a first vertical cavity surface-emitting laser configured for self-mixing interferometry to determine distance to and/or velocity of an object. The optical proximity sensor also includes a second vertical cavity surface-emitting laser configured for self-mixing interferometry to determine whether any variation in a fixed distance has occurred. The optical proximity sensor leverages output from the second vertical cavity surface-emitting laser to calibrate output from the second vertical cavity surface-emitting laser to eliminate and/or mitigate environmental effects, such as temperature changes. |
| US11740061B2 |
Projectiles with insert-molded polymer tips
Aspects of the disclosure are directed to manufacturing an insert-molded expanding projectile. Aspects of the disclosure include locating a portion of a projectile body within a converging tip mold, the projectile body including a metal jacket extending from a tail portion to a nose portion and surrounding an interior solid core. The metal jacket and nose portion may be tapered in a forward direction to an annular forward edge defining an opening to an undercut interior cavity. Melted polymer may be injected into the converging tip mold and allowed to cool thereby forming a polymer tip having a main portion forward of the opening and a tip retention portion filling the undercut interior cavity and having a shape corresponding to the undercut interior cavity to retain the polymer tip in place. |
| US11740060B2 |
Arrow system
A arrow system embodying a glue-in configuration or screw-over configuration of broadhead to arrow shaft connection is provided. The glue-in configuration provides an externally threadless broadhead shank for slidably reception into the complementary and cross-sectionally coextensive lumen of the arrow shaft. The screw-over configuration provides a broadhead with female internal threading that operatively associates with male threading of an insert that interconnects the broadhead to the lumen of the arrow shaft. |
| US11740059B2 |
Target launching machine for skeet shooting
A target launching machine for skeet shooting including a launching device, an accumulator device, a triggering device capable of loading the accumulator device and of releasing it to project the target and a preloader device capable of adjusting a preload of the accumulator device, wherein the preloader device includes a linear actuator and flexible transmission member connecting the linear actuator to the accumulator device. |
| US11740056B2 |
Ballistic helmet with an accessory system
The disclosure provides a ballistic helmet and a method of assembling a ballistic helmet that includes a helmet shell and a harness connected to the helmet shell. The helmet shell includes a front portion and a rear portion. The harness includes a nape pad, a tensioner disposed on the nape pad, a plurality of securement straps, and a tension cable. The plurality of securement straps are connected to the nape pad and are configured to fasten to the rear portion of the helmet shell. The tension cable is selectively adjustable by the tensioner and is configured to fasten to the front portion of the helmet shell. |
| US11740053B2 |
Integrated optical sighting system for firearm
An illuminated reflex optical sighting system integrated directly into a firearm includes a lighting module comprising an illumination source mounted to a body of the firearm at a discrete first mounting location, an optical lens assembly mounted to the body of the firearm at a discrete second location spatially distanced from the first location, and a power source operably coupled to the illumination source. The illumination source is configured and operable to project a reticle onto a lens of the lens assembly for use in aiming the firearm. The illumination source and lens assembly are separately mounted to and independently removable from the body of the firearm thereby providing a low profile sighting system which substantially retains the aspects of the original firearm. The illumination source, power source, and lighting control circuitry may be housed inside the metal rear sight of the firearm in one embodiment. |
| US11740048B2 |
Magnetic gun mount
This disclosure describes a system, and apparatus for securely mounting a firearm, while maintaining to ability to load, unload, and draw the firearm from the mount with a single hand. This is accomplished using a mount that is customized to conform to a specific model of firearm, ensuring a snug fit of the firearm within the mount. Magnetic retention secures the firearm in place in the mount. Modern, magazine fed handguns can be loaded and unloaded simply by moving the slide. Cycling the slide causes it to extract a round from the chamber (if a round is present) when the slide traverses rearward relative to the receiver. A new round is loaded from the magazine when the slide traverses forward relative to the receiver (if a loaded magazine is inserted). |
| US11740046B1 |
Flexible hinge based trigger for a firearm
A mechanism using flexure hinges as part of the trigger and/or safety mechanism of a firearm. Flexure hinges provide relative motion between two stiff members by the elastic deformation of an arbitrarily shaped flexible connector often implemented in metallic and composite materials. The flexure hinges are formed by flexure links connecting two stiff members. The flexure links connect various parts of the trigger assembly, such as a trigger component, including a shoe, plate, or safety, to a housing of the firearm. A method of creating the mechanism provides a trigger component, a housing, and connects the two parts by a flexure link with a flexure hinge. |
| US11740044B2 |
Geolocation-reporting weapon-tracking device
Provided is a method that includes determining a device geolocation based on a satellite signal received by a weapon-tracking device and receiving a sensor reading using a sensor attached to the weapon-tracking device, wherein the sensor is sensitive to a use of the weapon. The instructions include determining that a change in the sensor reading satisfies a change threshold and, in response to a determination that the change threshold is satisfied, transmitting device state data to a wireless signal receiver via a wireless signal, wherein the device state data comprises a device identifier and the device geolocation. The instructions further include storing the device identifier and the device geolocation in a data server in communication with the wireless signal receiver and transmitting a message based on the device identifier and device geolocation to a client from the data server. |
| US11740040B2 |
Adjustable carrier
Disclosed herein is a modified rifle bolt carrier allowing a selectively openable vent/valve at the location where exhaust gas is pressurizing the bolt carrier to control carrier speed under suppressed fire in a first valve position or unsuppressed fire in a second valve position. A valve core is disclosed which may be rotated 180° to a first “open” setting for non-suppressed fire from its position in a “closed” position for suppressed fire, and a third “median” position. The modified bolt carrier will allow an operator of the firearm to adjust for a suppressor without changing the gas block or having to modify or adapt the front end or barrel end of the firearm. |
| US11740039B2 |
Apparatus and method for accelerating an object via an external free jet
An apparatus includes an energy source and an expansion structure. The energy source is configured to convey an amount of energy operable to increase a pressure of a compressible gas disposed in a chamber. The expansion structure is configured to be placed in fluid communication with the chamber and to receive a flow of the compressible gas in response to the increase in pressure. The expansion structure includes an inlet having a first diameter and an outlet having a second diameter greater than the first diameter and is configured to allow the compressible gas to expand as the compressible gas flows from the inlet to the outlet such that a supersonic free jet of the compressible gas exits the outlet. In some instances, the supersonic free jet of the compressible gas can accelerate, relative to the expansion structure, a projectile disposed outside of the expansion structure. |
| US11740036B2 |
Integral heat exchanger mounts
An embodiment of a heat exchanger assembly includes a first manifold adapted for receiving a first medium, a core adapted for receiving and placing a plurality of mediums, including the first medium, in at least one heat exchange relationship, and a core meeting the first manifold at a first core/manifold interface; The mounting structure supports a heat exchanger, and is metallurgically joined to at least one heat exchanger assembly component at a first joint integrally formed with the mounting structure. |
| US11740032B2 |
Method for enhancing thermal energy storage performance of industrial grade hydrated salts based on phase change
Disclosed is a method for enhancing thermal energy storage performance of industrial grade hydrated salts based on phase change, comprising: heating an aqueous system of industrial grade hydrated salts containing 105-130 percent (%) by mass of m0 industrial grade hydrated salt to m0, taking a sample for differential scanning calorimeter testing and recording its melting enthalpy as ΔH1; melting and adding water into, or melting and evaporating the residual aqueous system of industrial grade hydrated salts or the residual industrial grade hydrated salts system with a mass of m1 to increase or decrease the mass by 0.4-0.8% m0 until a melting enthalpy ΔHn of a sample that taken from the residual aqueous system of industrial grade hydrated salts with a mass of mn satisfies ΔH2< . . . <ΔHn>ΔHn+1. |
| US11740031B1 |
High temperature thermochemical energy storage materials
Disclosed are thermal energy storage systems and methods that utilize metal carbonate eutectics that can undergo high temperature reversible reactions to form mixtures of metal oxides. The metal oxides undergo an exothermic reaction with carbon dioxide to form the molten metal carbonate eutectics, and the molten metal carbonate eutectics undergo an endothermic decarbonization reaction to form the metal oxides and carbon dioxide. By carrying out the reversible reactions at a temperature above the melting point of the carbonate eutectic, the systems provide high thermal conductivity and reversible stability for thermal energy storage. |
| US11740025B2 |
Fluidized-bed heat exchanger for conversion of thermal energy to electricity
The present disclosure describes heat exchangers for converting thermal energy stored in solid particles to electricity. Electro-thermal energy storage converts off-peak electricity into heat for thermal energy storage, which may be converted back to electricity, for example during peak-hour power generation. The heat exchanger for converting thermal energy stored in solid particles to electricity enables the conversion of thermal energy into electrical energy for redistribution to the grid. In some embodiments, pressurized fluidized-bed heat exchangers may achieve efficient conversion of thermal energy to electricity by providing direct contact of the solid particles with a gas stream. |
| US11740024B2 |
Melting and/or stirring of molten metals
A method and apparatus for moving molten material within a container are provided. The method comprising: providing apparatus including an electromagnetic mover adjacent a part of the container, wherein the electromagnetic mover has a primary motion axis, the primary motion axis being aligned along the direction of the maximum linear force generated by the electromagnetic stirrer; applying a current to the electromagnetic mover such that changes in magnetic field configuration cause movement of the molten metal within the container; wherein the primary motion axis is inclined relative to the vertical in two different planes; or wherein the longitudinal axis is inclined relative to the vertical in two different planes. The method and apparatus are designed to generate a plurality of different flow zones within the container and/or larger container, the different flow zones differing from one another in terms of their position in the container and/or larger container and/or the different flow zones differing from one another in terms of the relative flow velocities and/or the different flow zones differing from one another in terms of the relative directions of flow. |
| US11740023B2 |
Method for heating a blank and heating system
A method for manufacturing a steel component from a blank is provided. Firstly, a blank is placed in a conveyor system. Then, at least a preselected zone of the blank is preheated while the blank is retained at a predetermined preheating location. Finally, the blank is conveyed through a furnace. A preheating system for heating blanks in a production line is also provided. |
| US11740022B2 |
Furnace controller and method of operating a furnace
A control scheme for a furnace can use real-time and historical data to model performance and determine relationships between different data and performance parameters for use in correcting suboptimal performance of the furnace in real-time. Operational parameters can be logged throughout the cycle for all cycles for a period of time in order to establish a baseline. This data can then be used to calculate the performance of the process. A regression analysis can be carried out in order to determine which parameters affect different aspects of performance. These relationships can then be used to predict performance during a single cycle in real-time and provide closed or open loop feedback to control furnace operation to result in enhanced performance. |
| US11740014B2 |
System and method for natural gas and nitrogen liquefaction with independent nitrogen recycle loops
Liquefier arrangements configured for flexible co-production of both liquid natural gas (LNG) and liquid nitrogen (LIN) are provided. Each liquefier arrangement comprises separate and independent nitrogen recycle circuits or loops, including a warm recycle circuit and a cold recycle circuit with a means for diverting nitrogen refrigerant between the two recycle circuits or loops. The warm recycle circuit includes a booster loaded warm turbine, a warm booster compressor and warm recycle compression whereas the cold recycle circuit includes a booster loaded cold turbine, a cold booster compressor and a separate cold recycle compression. |
| US11740005B2 |
Evaporating unit and refrigerator having the same
An evaporator unit includes an evaporator comprising an evaporation pipe and a plurality of heat exchange fins, through which the evaporation pipe penetrates, and a defrost heater mounted below the evaporator. The defrost heater may include a heating line and a heating pipe in which the heating line is accommodated, and the heating pipe may have a plurality of irregularities extending in a longitudinal direction of the heating pipe. |
| US11739999B2 |
Refrigerator
A refrigerator including an ice making tray in which ice is generated, an ice bucket to store ice separated from the ice making tray, a full ice detection lever to rotate toward the ice bucket to detect whether the ice bucket is fully filled with ice, a manipulation lever manipulated outside the ice maker to move between a first position and a second position, and a stopper to rotate in conjunction with the movement of the manipulation lever and interfere with the rotation of the full ice detection lever. |
| US11739997B2 |
Compressor-assisted thermal energy management system
Systems and methods for compressor-assisted sorption rate. A sorption system includes a sorber that absorbs and desorbs a refrigerant gas, such as ammonia, onto and from a coordinative complex compound. The system includes an evaporator, a condenser, and a compressor. The temperature and pressure of the gas within the sorber are monitored and the compressor is controlled to adjust the pressure to increase the absorption and desorption rates and increase the thermal cycle speed of the sorption system for applications such as laser systems requiring rapid, periodic cooling. |
| US11739996B2 |
System and method for calculation of thermofluid properties using saturation curve-aligned coordinates
A system for controlling or optimizing the performance of a vapor compression system by modifying the actuator commands via an output interface, that realizes thermofluid property functions and their derivatives as spline functions which are represented in a coordinate system that is aligned with a fluid saturation curve. The system includes an interface configured to receive measurement data from sensors, a memory configured to store thermofluid property data and computer-executable programs including a B-spline method, and a processor for performing the computer-implemented method. The processor is configured to take as input two thermofluid property variables, and compute a coordinate transformation in which one axis of the coordinates is aligned with the liquid and vapor saturation curves. In the saturation-curve aligned coordinates, a spline function represents the thermofluid property function, with coefficients and knots stored in memory. The spline function is constructed in a manner such that derivatives of the thermofluid property function may be discontinuous across the saturation curve. |
| US11739995B2 |
Refrigeration cycle device
A refrigeration cycle device includes a heat source, a first use unit, a second use unit, a first connection flow path, and a second connection flow path. The heat source has a compressor and a heat-source side heat exchanger. The first use unit is separated from the heat source unit and has a first use-side heat exchanger. The second use unit is separated from the heat source unit and has a second use-side heat exchanger. The first connection flow path connects the heat source unit to the first and the second use units and causes a first refrigerant to flow. The second connection flow path connects the heat source unit to the first and the second use units and causes a second refrigerant to flow. A specific enthalpy of the second refrigerant is smaller than a specific enthalpy of the first refrigerant. |
| US11739993B2 |
Heat pump and method of operating heat pump to control power to boiler based on expected efficiency of heat pump
A heat pump may include a compressor configured to compress a refrigerant, a first temperature sensor configured to detect an outdoor temperature, a second temperature sensor provided in heating pipes connected to a heating device, and a controller. Based on a first sensing value of the first temperature sensor, the controller may be configured to control a compressor, control power to a boiler, and/or calculate an expected efficiency of the heat pump. Based on the expected efficiency and/or a second sensing value of a second temperature sensor, the controller may be configured to control power to the boiler. |
| US11739992B2 |
Air conditioning system with solar-powered subcooling system
The air conditioning system with solar-powered subcooling system includes a main cooling system having an evaporator, a compressor, a condenser, and an expansion valve configured to operate in a conventional vapor compression refrigerant cycle. The subcooling system includes a compressor, a condenser, and an expansion valve, the compressor being powered by at least one rechargeable battery connected to a photovoltaic solar panel. The main system and the subcooling system are linked by a heat exchanger having a primary coil in the main system between the condenser and the expansion valve and a secondary coil in the subcooling system disposed between the expansion valve and the compressor. The main system and the subcooling system may use the same type of refrigerant, or different refrigerant types. The additional cooling provided to the refrigerant in the main system by subcooling increases the efficiency of the air conditioning system. |
| US11739990B2 |
Chiller with an outdoor unit transferring heat to an indoor unit using carbon dioxide
A heat transport system includes: a refrigerant circuit that seals therein a fluid including HFC-32 and/or HFO refrigerant as a refrigerant and that includes a refrigerant booster that boosts the refrigerant, an outdoor air heat exchanger that exchanges heat between the refrigerant and outdoor air, a medium heat exchanger that exchanges heat between the refrigerant and a heat transfer medium, and a refrigerant flow path switch that switches between a refrigerant radiation state and a refrigerant evaporation state; and a medium circuit that seals carbon dioxide therein as the heat transfer medium. |
| US11739989B2 |
Cooling system with a distribution system and a cooling unit
A cooling system includes a distribution system and a cooling unit. The distribution system is configured to circulate a distribution system refrigerant. The distribution system includes a distribution system pump, a main cooler, a distribution system input conduit, and a distribution system output conduit. The main cooler is configured to receive the distribution system refrigerant from the distribution system pump. The distribution system input conduit is configured to receive the distribution system refrigerant from the main cooler. The distribution system output conduit is configured to receive the distribution system refrigerant from the distribution system input conduit and to provide the distribution system refrigerant to the distribution system pump. The cooling unit is configured to circulate a cooling unit refrigerant. The cooling unit includes a cooling unit pump, an upstream receiver, a condenser, a downstream receiver, and an evaporator. The upstream receiver is configured to receive the cooling unit refrigerant. |
| US11739988B2 |
Flooded evaporator
An evaporator system includes an evaporator chamber 28 having one or more heat exchanger tubes 4 passing therethrough for transmitting a fluid to be cooled through the evaporator chamber 28; and a refrigerant separator configured to separate a two-phase refrigerant into refrigerant vapour and liquid refrigerant, and having a first outlet 32 for the separated vapour refrigerant and a second outlet 30 for the separated liquid refrigerant; the first outlet 32 is arranged for supplying the vapour refrigerant into the evaporator chamber 28 at a location above at least some of the heat exchanger tubes 4, and the second outlet 30 is arranged for supplying the liquid refrigerant into the evaporator chamber 28 at a location below at least some of the heat exchanger tubes 4. |
| US11739987B2 |
Dual integrated air heating system
An air heating apparatus may be mounted on a common base and define a pair of air flow paths. The air heating apparatus may include a housing forming an outer envelope through which the air flow paths extend, with the air flow path being separate from each other at all locations in the interior of the outer envelope. The interior of the housing may be divided into two subhousings defining two separate subchambers. The housing may have inlet and outlet openings extending through the outer envelope for each of the air flow paths of the subchambers. At least two air heating assemblies may each be configured to heat air moving along a separate one of the air flow paths, the air heating assemblies being positioned in the interior of the housing with each of the air heating assemblies being positioned in a respective one of the subchambers of the subhousings. |
| US11739985B2 |
Boron carbide bilayer foam solar evaporator and method for preparing thereof
The present invention provides a solar absorber incorporated bilayer foam solar evaporator for seawater and wastewater purification including a plurality of solar absorbers partially incorporated into a porous polymer framework and partially forming a thermal insulation layer proximal to solar irradiation. In particular, low-cost commercially available B4C powders are embedded into a porous polymer foam in a one-pot method to form a scaffold of boron carbide bilayer foam (BCBF) with good hydrophilic wettability, heat-shielding, and solar-thermal conversion. The boron carbide bilayer foam (BCBF) of the present invention enables a high cost-performance seawater desalination and wastewater purification at a high evaporation rate of 2.8 kg/m2/h with 93% solar evaporation efficiency under 1 sun illumination (or 1 kW/m2). The present invention thereby provides an excellent and cost-effective solar evaporator tool for industrial-level water purification. Following the present method to prepare the BCBF solar evaporator, the fabrication cost can be as low as 3.6 $/m2. |
| US11739984B2 |
Solar energy collection system with symmetric wavy absorber pipe
Various implementations include solar thermal energy collection system comprising a solar energy concentrator, a heat transfer fluid, an absorber pipe. The absorber pipe includes a pipe wall and has a central longitudinal axis. The pipe wall has an inner surface and an outer surface. The inner surface has a first contour defining alternating peaks and troughs along a length of the absorber pipe. The outer surface has a second contour defining alternating peaks and troughs along the length of the absorber pipe. The inner surface defines the entire flow path for the heat transfer fluid through the absorber pipe. The first contour, as viewed through an axial cross section of the absorber pipe, forms sinusoidal waves on each side of and spaced apart from the central longitudinal axis. The sinusoidal waves on each side of the central longitudinal axis are symmetrical with respect to the central longitudinal axis. |
| US11739981B1 |
Isolation valve
An isolation valve including a main body including a fluid passage, a first port connected to the fluid passage, a second port connected to the fluid passage, a third port including an openable and closable valve, the valve connecting the third port to the fluid passage, and a plug removably coupled to the second port. |
| US11739975B2 |
Vent cover
A self-adhering vent cover allows a user to improve the appearance of a vent while facilitating sufficient airflow for the continued use of a heating, cooling, or air-ventilation system. The present disclosure also provides for the distribution of essential oils within an indoor environment via the use of a heating, cooling, or air-ventilation system. |
| US11739972B2 |
Air-conditioning system
An air-conditioning system includes an air-conditioning apparatus that includes a refrigerant circuit in which an indoor unit and an outdoor unit are connected to each other by a refrigerant pipe and inflammable refrigerant flows in the refrigerant pipe, and is configured to supply conditioned air to a plurality of areas corresponding to air-conditioned spaces, an air-conditioning duct that connects the indoor unit to the plurality of respective areas, a plurality of dampers that are arranged in the air-conditioning duct and openable and closable to interrupt or pass the conditioned air supplied to the plurality of respective areas, and a controller configured to control the dampers, in which the controller controls the dampers such that a total floor area of the areas to which the conditioned air is supplied is set as an area equal to or larger than a minimum floor area corresponding to a floor area with which an inflammable region is not formed even when the inflammable refrigerant is leaked. |
| US11739971B2 |
Systems and methods for intelligently controlling a hybrid cascade boiler system
The disclosed technology includes a controller for a cascade boiler system having both condensing and non-condensing boilers. The controller can receive supply water temperature data and return water temperature data to determine a current temperature differential in the system. The controller can determine a current load demand value using the current temperature differential and a set point temperature. If the current load demand value is less than or equal to a first load demand threshold, the controller can output a control signal for a condensing boiler to transition to a heating mode. If the current load demand value is greater than a second load demand threshold, the controller can output a control signal for a non-condensing boiler to transition to a heating mode. |
| US11739968B2 |
Controlling an HVAC system using an optimal setpoint schedule during a demand-response event
A control system includes an energy management system in operation with intelligent, network-connected thermostats located in structures. The thermostats are operable to control heating, ventilation, and air conditioning (HVAC) systems. Control during a demand response (DR) event period may be performed based on an optimal control trajectory of the HVAC system, where the control trajectory is optimal in that it minimizes a cost function. |
| US11739966B2 |
Air-conditioning system and air-conditioning management system
Provided is an air-conditioning system including a plurality of communication devices including an outdoor unit that are interconnected. The outdoor unit has a control unit configured to save all communication data exchanged between the communication devices in a memory processor that can be accessed via a network. |
| US11739964B1 |
HVAC system zoning protection
Methods, systems, and apparatus, including computer programs encoded on computer storage media, for monitoring an HVAC system. One of the methods includes receiving pressure data from one or more sensors monitoring a supply air duct of an HVAC system at a property that indicates a pressure in the HVAC system; determining, using the pressure data, that the pressure satisfies a pressure threshold for the HVAC system; and in response to determining that the pressure satisfies the pressure threshold, adjusting an actuator-controlled damper between the supply air duct and a return air duct or adjusting a fan speed of the HVAC system. |
| US11739962B2 |
Systems and methods for leak detection and management in heating, ventilating, and air conditioning (HVAC) systems
A heating, ventilation, and air conditioning (HVAC) system includes multiple circuit components that enable determining that a refrigerant leak is present in the HVAC system based on a signal. The circuit components then send a first set of instructions to a first set of control systems associated with one or more fans in response to the refrigerant leak being present. The first set of instructions causes the one or more fans to activate. The system then determines that the refrigerant leak signal is no longer present, and initiates a counter to detect when a period of time has passed in response to determining that the refrigerant leak signal is no longer present. The system then sends a second set of instructions to the first control system to cause the fans to return to base operating conditions in response to the counter indicating the period of time has passed. |
| US11739961B2 |
Vapor mitigation system, vapor mitigation controller and methods of controlling, monitoring and mitigating vapors
A vapor management system includes a monitoring service system configured to communicate one or more system parameters with at least one vapor mitigation system. The monitoring service system is further configured to generate a user interface. The user interface is configured to display and permit adjustment of the one or more system parameters. |
| US11739957B2 |
Ventilation fan and ventilation system
A ventilation fan includes a body unit, which has a fan disposed in a body case and a fan controller operable to control an air volume of the fan. The ventilation fan also includes a sensor module having an indoor environment detecting sensor and a module controller operable to control a detecting operation of the indoor environment detecting sensor. The body unit has a module mount on which the sensor module is mounted and another sensor module can be mounted in place of the sensor module. The module mount is connected to the fan controller. The module controller outputs detection information obtained based on a detection result of the indoor environment detecting sensor to the fan controller, which in turn controls the air volume of the fan based on the detection information inputted thereto. |
| US11739955B2 |
Adjustable motor mount
A heating ventilation, and/or air conditioning (HVAC) system includes a support structure having a mounting rail, a first mounting bracket coupled to the mounting rail and configured to be adjustably positioned along a first axis of the mounting rail, and a second mounting bracket directly coupled to the first mounting bracket. The second mounting bracket is configured to support a fan motor mounted thereto, the second mounting bracket is configured to be adjustably positioned along a second axis of the first mounting bracket, and the second axis of the first mounting bracket is transverse to the first axis of the mounting rail. |
| US11739949B2 |
Steam generator and cooking appliance
A steam generator is provided. The steam generator may include a steam chamber, a steam heater to supply heat into the steam chamber, a water supply, through which water to generate steam may be supplied into the steam chamber, one or more interference members disposed in the steam chamber to interfere with a flow of the water introduced through the water supply, and at least one discharge to discharge the steam generated in the steam chamber. The one or more interference members may be disposed under the at least one discharge and above the water supply. |
| US11739948B2 |
Automatic oven with humidity sensor
A method for calculating the humidity level in a cooking apparatus is disclosed. The method includes heating a food load in a cooking cavity of the cooking apparatus and selectively activating a convection fan in the cooking cavity. The method further includes monitoring a humidity signal detected by a humidity sensing apparatus in response to the activation of the convection fan. As a result of the activation of the convection fan, the method may determine an actual humidity level from a plurality of humidity levels based on a change in the humidity signal. |
| US11739946B2 |
Cooking apparatus
A cooking apparatus is provided. The cooking apparatus includes a body, a heating part disposed on an upper surface of the body and configured to heat an object to be heated, and an outlet part arranged on opposite sides of the heating part and configured to allow air to be discharged to an upper side of the body. The outlet part includes an outlet to which air is discharged, and a louver arranged on the outlet and configured to guide an airflow discharged from the outlet part to allow the airflow discharged from the outlet part to mix with an airflow generated by the heating part, thereby forming an ascending airflow directed from a front side to a rear side of the body. |
| US11739945B2 |
Oven appliance spill management system
An oven appliance includes a cabinet having a front portion spaced apart from a back portion and a left side spaced apart from a right side. A cooktop is defined on a top panel of the cabinet and a chamber is defined within the cabinet for receipt of food items for cooking. The oven appliance also includes an air duct extending from an inlet in the chamber to an outlet and an air grille extending across the cabinet adjacent to the cooktop. The outlet is positioned upstream of the air grille such that the outlet is in fluid communication with the air grille. The oven appliance further includes a trough positioned below the air grille such that the trough permits fluid communication between the outlet and the air grille and the trough obstructs fluid communication between the air grille and an interior of the cabinet. |
| US11739941B2 |
Cooking appliance with multi-burner gas oven control
A multi-burner gas oven control system is used in a cooking appliance to control multiple gas burners disposed in one or more cooking cavities of the cooking appliance. Each gas burner has an associated dedicated gas valve that is coupled to a gas supply through a common, shared gas valve, as well as an igniter that is used to ignite the gas supplied to the gas burner. During activation of a selected gas burner, all igniters are activated in connection with activating the shared gas valve and the dedicated gas valve for the selected gas burner. In addition, in some instances individual ignition sensors may be used to both confirm ignition of the selected gas burner and detect ignition of any unintended gas burner. |
| US11739936B2 |
Injection system for turbomachine, comprising a swirler and mixing bowl vortex holes
An injection system for a turbomachine combustion chamber includes a swirler and a mixing bowl. The mixing bowl includes a converging frustoconical portion and a diverging frustoconical portion. The diverging frustoconical portion is connected to the converging frustoconical portion, forming a continuous aerodynamic profile with the converging frustoconical portion. The diverging frustoconical portion is passed through by vortex holes which each includes a circumferential component around a longitudinal axis of the injection system and an axial component along the longitudinal axis of the injection system. |
| US11739930B1 |
Light-emitting fan
A light-emitting fan includes a fan frame, a light-permeable impeller mounted on the fan frame, a first and a second light source assembly. The light-permeable impeller includes a hub and blades. The hub includes a top plate and an annular side plate. The annular side plate is connected to the top plate, the top plate and the annular side plate together form an accommodation space. The annular side plate has an annular side surface facing away from the accommodation space and an inclined incident surface facing away from the annular side surface and non-parallel to the annular side surface. The blades are connected to the annular side surface. The first light source assembly is located in the accommodation space and configured to emit light to the top plate. The second light source assembly is located in the accommodation space and configured to emit light to the inclined incident surface. |
| US11739929B2 |
Illuminable icon with a light guide film and an isolation block
An information handling system may include one or more illuminable icons to present information to a user of the system, such as information regarding a status of the information handling system. An illuminable icon may be lit by a plurality of light sources, and light from the plurality of light sources may be diffused across the illuminable icon by a light guide film. Some illuminable icons may have multiple portions that may be separately illuminated to convey different information to a user. An isolation block may prevent light from light sources configured to illuminate one portion of an illuminable icon from illuminating other portions of the illuminable icon. Thus, light for illuminating icons of an information handling system may be diffused and/or blocked to enhance aesthetic appeal of the icons and to prevent user confusion that may result from bleeding of light from one portion of an illuminable icon to another and/or uneven illumination of an icon. |
| US11739927B2 |
Lamp unit for outdoor use
A lamp unit (100) for outdoor use is provided. The lamp unit comprises a gasket with a step-vise shape configured to provide a sealing effect in two perpendicular directions in order to prevent water ingress. The gasket is further configured to press a reflector (120) towards a lid element (130) in order to minimize the gap between them, thus ensuring a consistent lighting output. |
| US11739926B1 |
Lamp
The invention provides a lamp that includes a power connection part and an illumination part. The power connection part includes a transparent casing, a wire component and a power supply component, where a mounting channel is formed in the transparent casing and includes a first end part and a second end part communicating with the first end part; the first end part and the second end part both penetrate through the transparent casing; and the wire component is inserted in the mounting channel, an accommodating space is arranged in the wire component, the power supply component is arranged in the accommodating space, and a port penetrating through the second end part of the transparent casing is located in the accommodating space. The illumination part comprises a heat dissipation base and a light-emitting component, where the wire component is fixed on the heat dissipation base, the heat dissipation base is mounted on the transparent casing, and a mounting space is formed between the heat dissipation base and the transparent casing; the light-emitting component is embedded on the heat dissipation base, located in the mounting space and outside the wire component, and is electrically connected with the power supply component; and light emitted by the light-emitting component is emitted to the outside of the lamp through the transparent casing, so that a lamp post of the lamp cannot be seen. |
| US11739924B2 |
Fan and light units and associated mounting arrangements for use at a loading dock
Example fan and light units and associated mounting arrangements for use at a loading dock are disclosed. An example apparatus includes a frame including a bar to be pivotally coupled to a support system via a point of attachment on the bar. The apparatus includes a fan and a controller to be coupled to the frame with the bar extending in a first direction away from the controller and toward the point of attachment, the controller to control operation of the fan. The apparatus includes a handle to be connected to a portion of the frame extending away from the controller in a second direction opposite the first direction, the handle spaced apart from a housing of the fan, the handle to be lower than the controller and lower than at least a midpoint of the fan when the apparatus is supported by the support system. |
| US11739921B2 |
Modular lighting device comprising an adjustable mounting mechanism
A modular lighting device may mounted into architectural finished surfaces such as ceilings, walls and floors. The device comprising an adjustable mounting mechanism that allows the lighting device to be fitted to various sized openings in a surface. One version of the modular lighting device includes a plate for receiving a lamp fitting, three mounting brackets, and a locking ring for restraining the mounting brackets to the plate, wherein the modular lightning device is configured such that it can be fitted to different sized openings via radial adjustment of the mounting brackets. |
| US11739920B2 |
Flashlight clamp
A light clamp apparatus includes a clamp configured to affix the light clamp apparatus to an object. The light clamp apparatus also includes a light assembly configured to removably attach to the clamp at least at two different positions on the clamp, the light assembly including a magnet, whereby the light assembly is removably attachable to a surface comprising a ferromagnetic metal. The clamp includes a slide bar comprising a first end and a second end, a first jaw coupled to the first end, and a body slidably receiving the slide bar having a second jaw opposing the first jaw. The clamp further includes a drive assembly for moving the slide bar in a first direction. |
| US11739914B2 |
Photography lamp
The present disclosure provides a photography lamp. The photography lamp includes a housing, an ejector rod, and a bracket. The housing includes a front housing and a mid-frame, an accessory slot is arranged on a side of the front housing, the bracket is arranged on another side of the front housing away from the accessory slot and slidably connected to the front housing; the bracket includes a connecting rod and a pushing rod connected at an included angle. The space occupied by the bracket is reduced, and the structure of the photography lamp is more compact and smaller. |
| US11739908B2 |
Panel light with night light function
The present disclosure provides a panel light with a night light function, including a main surface ring, a night light surface ring, a backing plate, a diffusion ring, a scattering micro-lens ring, a main light bar, a night light bar, a diffusion plate, a light guide plate and a reflective sheet; the main surface ring is a hollow annular cavity, the diffusion ring and the scattering micro-lens ring are disposed inside the night light surface ring, the main light bar is fixedly disposed inside the annular cavity of the main surface ring, the night light bar is disposed in a cavity formed by enclosing the main surface ring and the night light surface ring, and the diffusion plate, the light guide plate and the reflective sheet are successively disposed in the annular cavity of the main surface ring from bottom to top. |
| US11739907B2 |
Light emitting device for use in a light emitting panel
The present invention relates to a light emitting device comprising one or more LED light sources and one or more diffusely transmissive covers. The one or more diffusely transmissive covers extend over the one or more LED light sources to form one or more combinations of an LED light source and a diffusely transmissive cover. For each combination of an LED light source and a diffusely transmissive cover (i) the diffusely transmissive cover is dome-shaped with a vertical cross-section having a closed convex shape and a horizontal cross-section having a polygonal shape, (ii) the diffusely transmissive cover has a width (w) projected in a horizontal plane parallel to a bottom of the diffusely transmissive cover, (iii) the LED light source has a distance (d) to any neighboring LED light source. The width (w) and the distance (d) are perpendicular to each other, and the ratio of the width (w) and the distance (d) is constant. |
| US11739905B1 |
Light assembly providing pillar lamp for motor vehicle
This disclosure relates to a light assembly that provides a pillar lamp for a motor vehicle, and a corresponding method. In some aspects, the techniques described herein relate to a motor vehicle, including: a frame including a pillar; a light assembly mounted to the pillar, wherein the light assembly includes a selectively illuminable light source; a sensor configured to generate signals indicative of a presence of a user of the motor vehicle; and a controller configured to command the light source to illuminate when the signals from the sensor indicate the user is present. |
| US11739903B2 |
Movable shade mechanism for vehicle headlight, and vehicle headlight
A movable shade mechanism for a vehicular headlight and a vehicular headlight capable of reducing the entire weight while enhancing rigidity of a bracket is provided. A movable shade mechanism for a vehicular headlight includes a shade member rotating around a rotary shaft and adjusting a shielding amount of light from a light source, a drive unit to generate power to drive the shade member, a transmission member to transmit power of the drive unit to the shade member, and a plate bracket to hold the rotary shaft and the drive unit, wherein the bracket includes a base that is disposed along a horizontal plane in a vehicle-mounted state and supports the drive unit, and a shade support that is bent upwardly from a rear end of the base in the vehicle-mounted state and supports the rotary shaft. |
| US11739897B2 |
Rechargeable string lights
Solar-powered lighting devices are described, the solar-powered lighting devices including a housing and an electronic cord coupled to the housing. The housing may include a first section coupled to a second section, the first section including a solar panel coupled to an outer surface. The lighting devices may also include a rechargeable battery, a microprocessor, and a user interface to receive user input and transmit the user input to the microprocessor. The electronic cord may be flexible and includes at least one light-emitting diode, wherein the microprocessor is configured to control at least one operating mode of the LED of the electronic cord based on the user input. |
| US11739895B1 |
LED street light
The invention relates to the technical field of lighting, more particularly to a LED street light that includes a main body and a support arm connected to the main body. A female joint is provided at one end of the support arm close to the main body. A male joint is provided at one end of the main body close to the support arm. When installing the LED street light, the male joint and the female joint are mutually inserted to supply power to the main body, without arranging the circuits in the LED street light before installation, which greatly simplifies the installation process and reduces the installation time and the installation difficulty. In addition, due to the reduction of the installation time and installation difficulty, the safety hazards caused by the installation of the LED street lights can also be prevented, and safety is thus improved. |
| US11739891B2 |
Illumination device
An Illumination device includes light emitting devices and an optical system for collimating light emitted by the light emitting devices. A first group of the light emitting devices are arranged in a first array having first gaps, and a first optical system is arranged near the first group of light emitting devices. At least one second group of the light emitting devices are arranged in a second array, and the second array has second gaps. The second optical system is arranged near the second group of light emitting devices. The first and second optical systems are arranged so that, in a distance from the illumination device, light emitted by the first group of light emitting devices, collimated by the first optical system, and light emitted by the second group of light emitting devices, collimated by the second optical system, are superimposed to form a gap-free illumination field. |
| US11739888B2 |
Tunable LED filament
The present invention relates to a color tunable and/or color temperature tunable LED filament (20, 22, 24), said LED filament comprising an elongated carrier (220), said elongated carrier comprising a first major surface (222) and a second major surface (224) arranged opposite to said first major surface, a plurality of LEDs (210) arranged in at least one linear array on said first surface of said elongated carrier, wherein the plurality of LEDs includes LEDs of different colors and/or different color temperatures, a first elongated transparent or substantially transparent layer (230) covering the plurality of LEDs on the first major surface and also at least partly covering said first major surface, and a first elongated light scattering layer (240), arranged to at least partially cover said first transparent or substantially transparent layer. |
| US11739883B2 |
Corrosion sensor for storage tank
Embodiments of disclosure generally relate to corrosion sensors for storage tank applications, using corrosion responsive members and sensors to monitor corrosion in storage tanks, and methods for monitoring corrosion in a storage tank using the corrosion sensors. In one embodiment, a corrosion sensor for a storage tank comprises one or more sensors located on a non-process side of the storage tank and one or more corrosion responsive members located internal to the one or more sensors. The one or more sensors are configured to monitor a change in one or more physical properties of the one or more corrosion responsive members. Data from the corrosion sensor may be monitored locally or transmitted over a network and monitored remotely. |
| US11739881B2 |
Gimbal control method, gimbal and machine-readable storage medium
A gimbal control method includes determining a current state of a follow-configuration button, determining a current follow coefficient based on the current state of the follow-configuration button, and controlling a gimbal to follow a target object according to the current coefficient. The follow-configuration button corresponds to a plurality of states, and each state corresponds to a different follow coefficient. |
| US11739879B2 |
Plugging pinhole leaks in flowlines
An assembly to plug a leak in a flowline includes a plug configured to plug the leak in the flowline, which includes a circumferential surface and a longitudinal axis. A plug insertion subassembly supports the plug. The plug insertion subassembly can move the plug between the circumferential surface and the longitudinal axis of the flowline. An axial positioning subassembly supports the plug insertion subassembly. The axial positioning subassembly can move the plug insertion subassembly along the longitudinal axis of the flowline. A chain-operated rotational positioning subassembly supports the axial positioning subassembly. The rotational positioning subassembly can be attached to the flowline with the leak. The rotational positioning subassembly is movable and can move the axial positioning subassembly on the circumferential surface of the flowline. |
| US11739878B2 |
Telescopic bladder with noise reduction structure
A telescopic bladder with a noise reduction structure is provided. The telescopic bladder has an opening. The telescopic bladder includes a top plate and a plurality of connected annular bodies extending from a periphery of the top plate toward the opening. The annular bodies have a continuous wavy cross-section. An inner surface of at least some of the annular bodies is formed with at least one protrusion. When the telescopic bladder is applied to a pillow, even if the telescopic bladder is inflated or deflated in the middle of the night, there will be no annoying noise, thereby improving the sleep quality effectively. |
| US11739877B2 |
Apparatus for use with a vehicle component venting system
An apparatus for a vehicle component venting system comprises a body having an inlet, an outlet, and a fluid pathway(s) therebetween through which air may pass, and a shield between the inlet and outlet configured to block liquid from passing from the inlet to the outlet. The inlet includes a first set of ports extending from an interior surface of the body through an exterior surface; and the shield and interior surface of the body define a void therebetween. A second set of ports extends through the shield and are in fluid communication with the void and a passageway extending between the shield and the outlet, the first and second sets of ports, the void, and the passageway form the fluid pathway between the inlet and outlet. The ports of the second set of ports are offset from and linearly misaligned with the ports of the first set of ports. |
| US11739871B2 |
Pipe union assembly
A pipe union assembly that includes a female end of a first pipe section and a male end of a second pipe section. The pipe union assembly also includes a quick union nut securable to the female end, a retainer collar securable to the quick union nut and a segmented load ring disposed between the male end of the second pipe section and the quick union nut. The quick union nut, the retainer collar and the segmented load ring cooperate to maintain the male end of the second pipe section inside the female end of the first pipe section. A method of using the pipe union assembly to join a first pipe section and a second pipe section. |
| US11739868B2 |
Dig tubes and fittings for tubulars
A female fitting includes a tube having an end that includes an upset for receiving a male fitting, the upset having an outer circumference and an inwardly extending groove extending around the outer circumference for receiving a clamp or portion of a clamp and the upset having an end face and inner surface, the upset having an undercut between the end face and inner surface for receiving a flange of the male fitting. A male fitting includes a tube having an end part; and a transition between the tube and the end part, the transition comprising a flange extending radially outward from the tube and a radiused corner connecting the flange to the end part. |
| US11739866B2 |
Electric resistance welded steel pipe for torsion beam
An electric resistance welded steel pipe for a torsion beam, in which a chemical composition of a base metal portion contains, in terms of % by mass, 0.05 to 0.30% of C, 0.03 to 1.20% of Si, 0.30 to 2.50% of Mn, 0.010 to 0.200% of Ti, 0.005 to 0.500% of Al, 0.010 to 0.040% of Nb, and 0.0005 to 0.0050 % of B, the balance containing Fe and impurities, wherein: Vc90, defined by the following Formula (i), is from 2 to 150, a mass ratio Ti/N is 3.4 or more, a microstructure of a wall thickness central portion in an L cross section at a base metal 1800 position is a tempered martensite, an average aspect ratio of prior γ grains in the tempered martensite is 2.0 or less, and a tensile strength in the pipe axis direction is from 750 to 980 MPa: log Vc90=2.94−0.75βa Formula (i) βa=2.7C+0.4Si+Mn+0.45Ni+0.8Cr+2Mo Formula (ii). |
| US11739864B2 |
Hose having a tensile strength braided layer
A hose assembly defines a longitudinal axis and includes an inner core tube, a reinforcement layer, a tensile strength braided layer, and a cover layer. The reinforcement layer surrounds the inner core tube and includes one or more filaments of a fiber. The tensile strength braided layer surrounds the fiber reinforcement layer and includes strands that form a braid pattern. A braid angle of the braid pattern is 10° to 40° relative to the longitudinal axis. A coverage value of the braid pattern is 20% to 50% relative to a surface of a layer adjacent the tensile strength braided layer. The cover layer surrounding the braided layer. |
| US11739862B2 |
Tubing component having a cladding of fillet weld, and method for producing a tubing component
Disclosed is a tubing component for the oil and gas industry. The tubing component includes an outer tube and an inner tube within the outer tube, said tubes being so configured to create a space between each other over a specified length. Each end of the inner tube is secured to the internal surface of the outer tube by a frustoconical fillet weld so that said space is leak-tight. The inner tube has a first internal diameter ID along a first length starting from each end of said tube, and a second, smaller internal diameter ID′ along a second length beyond the first length. The tubing component further includes a protective metallic layer extending at least over the fillet weld. Also disclosed is a method for producing this tubing component. |
| US11739861B2 |
Pipe support system with multiple clamps
The present invention relates to an apparatus for and a method of holding high top tension pipeline (101) during pipe-lay from a rolling and pitching vessel (730). In one implementation, a clamp system (711, 712) for supporting a pipe on a vessel includes a first clamp for coupling to the pipe and a second clamp for coupling to the pipe. The second clamp is disposed above the first clamp. At least one of the first clamp or the second clamp is movable relative to the other of the first clamp or the second clamp. |
| US11739860B2 |
Valve position indicators
A rotational valve includes a valve closure element, a shaft, at least one detection element, at least one detection engagement means, at least one first stop and at least one second stop. The shaft is linked to the valve closure element and the shaft can rotate between a closed position and a fully open position. Each detection element comprises an aperture and an indicator element, the shaft extends through the aperture of at least one detection element, and each detection element is in sliding engagement with the shaft. The shaft can rotate relative to the detection element, each indicator element can move between a first and a second indicator position, each indicator element abuts a first stop when in the first indicator position and abuts a second stop when in the second indicator position. |
| US11739856B2 |
Valve for hydrogen tank of fuel cell vehicle
A valve for a hydrogen tank of a fuel cell vehicle includes a first open hole for communicating with a tank-side flow passage, a blocking body for blocking the tank-side flow passage, and a second open hole that allows the tank-side flow passage to communicate with a pipe-side flow passage formed at a pilot plunger. As the pilot plunger ascends in the state in which the first open hole communicates with the tank-side flow passage, the tank-side flow passage is blocked by the blocking body and subsequently communicates with the pipe-side flow passage via the second open hole, thereby reducing the size of a section in which a pressure difference occurs between the flow passages and reducing the time taken to eliminate the pressure difference, thus securing stable supply of hydrogen from a hydrogen tank to a fuel cell. |
| US11739855B2 |
Dual coil low profile solenoid valve with electronic indication
Systems and apparatuses include a solenoid valve including a first coil, a second coil coupled to the first coil, a banjo fitting coupled to the second coil, a spool housing coupled to the banjo fitting so that the first coil and the second coil are selectively rotatable about the spool housing, a spool received within the spool housing, and an armature received within the first coil and the second coil and including a spool actuator coupled to the spool. |
| US11739854B2 |
Valve assembly for an air cushion
An air valve assembly includes a housing defining an internal channel, a plunger member positioned in the internal channel and configured to slide relative to the housing, a biasing member positioned in the internal channel and configured to apply a biasing force onto the plunger member, a sealing member defining a first inflation aperture, the plunger member slidably received by the first inflation aperture, a second deflation aperture defined by the housing and in fluid communication with the internal channel, and a deflation control member slidably connected to the housing, the deflation control member configured to selectively seal the second deflation aperture. |
| US11739849B2 |
Angle valve structure
An angle valve structure includes an angle valve body. The angle valve body is provided with a water inlet channel, a water outlet channel and an accommodation cavity. The accommodation cavity is rotationally provided with a valve core. One end of the valve core exposed outside the accommodation cavity is fixedly connected with a knob. The valve core is provided with a sealing block for sealing the water outlet channel when sealing. The valve core includes a main body part and an elastic arm whose one end is connected with the main body part. One side of the main body part is provided with a mounting slot for placing the sealing block, one side of the elastic arm is provided with an extrusion portion, and the other side of the elastic arm is provided with a contact portion against the sealing block after assembly. |
| US11739847B2 |
Advanced vacuum process control
The invention relates to a vacuum process system for an evacuable vacuum process volume, a vacuum valve, a peripheral unit having a closed-loop and open-loop control unit. The vacuum valve includes a valve seat, with a valve opening and a first sealing surface; a valve closure, with a second sealing surface and a drive unit coupled to the valve closure. The valve closure can be varied to provide different valve opening states. The closed-loop and open-loop control unit can perform multiple execution of a process cycle with control of the peripheral unit at least in part to execute a control cycle providing a deliberate variation or setting of the valve opening state by controlling the drive unit on the basis of a currently determined controlled variable for a process parameter and on the basis of a target variable and can be performed with a certain temporal relation. |
| US11739841B2 |
Infusion pump door seal for vertical intravenous tubes
An infusion pump for delivering an intravenous (“IV”) fluid includes a housing comprising an actuation area that engages a portion of an IV tube. The actuation area includes a first end that receives the IV tube from a fluid container and a second end that provides the IV tube to a patient. The housing also includes a seal section located along a perimeter of at least a portion of the actuation area. The seal section includes a gasket rib positioned along the seal section and a tube channel configured to cradle the IV tube. The example infusion pump also includes a door connected to the housing and configured to engage the gasket rib to enclose the actuation area of the housing. |
| US11739840B2 |
Piston ring
To provide a piston ring for an internal combustion engine, particularly a second compression ring, which has excellent wear resistance and can achieve both lower fuel consumption and efficient combustion. The above-described problem is solved by a piston ring (1) for an internal combustion engine formed so as to have a tapered shape by a peripheral surface (14) that gradually projects outward from a top to a bottom, and a radial cross-sectional shape of a Napier ring. The peripheral surface (14) is constituted by an outer edge end portion (14b) that has a non-tapered shape and comes into sliding contact, as a peripheral sliding surface, with a mating material, an outer peripheral tapered part (14a) formed at a predetermined taper angle (α) above the outer edge end portion (14b), a curved surface part (14c) having a diameter that gradually decreases inward from the outer edge end portion (14b) to a lower end in an axial direction, and a lower end portion (14d) forming a section of the curved surface part (14c). A distance (d2) between a position (A) of the outer edge end portion (14b) and a position (C) of the lower end portion (14d) in a ring axial direction is within a range of 0.001 mm to 0.05 mm, and a contact width (d1) of the outer edge end portion (14b) in the ring axial direction is within a range of 0.01 mm to 0.3 mm. |
| US11739838B2 |
Park lock with dog clutch and ball ramp
Methods and systems are provided for a vehicle park lock. In one example, the park lock may be configured with a first portion having a first set of teeth and a second portion having a second set of teeth configured to engage with the first set of teeth. The first portion may be coupled to a rotating part of the vehicle while the second portion may be coupled to a stationary part of the vehicle. The second portion may include actuating devices to actuate the sliding of the second set of teeth, the actuating devices including a motion source, elastic elements, and one or more ramps. |
| US11739837B2 |
Shift device
In a shift device, as a result of lower sliding projections of a lever moving slidingly against lower sliding plates of soft materials, the slidability of the lever is improved. Moreover, as a result of restricting projections of the lever being abutted against stoppers of the soft materials, noise generated when a sliding motion of the lever is restricted is reduced. Additionally, because the lower sliding plates and the stoppers are formed integrally with each other, the structure can be simplified. |
| US11739833B2 |
Work vehicle and control method for work vehicle
A control method for a work vehicle, includes: acquiring a signal for changing a state of a traveling device, to which power is transmitted via a transmission and a clutch, between forward, neutral, and reverse states; outputting a command for reducing a torque of an output shaft connected to the traveling device in a state where a first clutch is engaged, before a specified time elapses from a time point at which the signal for changing to the neutral state is acquired in a state where the first clutch is engaged; outputting a command for releasing the first clutch after the specified time elapses; and outputting a command for controlling the transmission so that a rotation speed of an input-side element of a second clutch to be engaged next coincides with that of an output-side element of the second clutch in a state where the first clutch is released. |
| US11739832B2 |
Shift by wire system
A shift by wire system may include a shifter assembly that is configured to generate an electrical manipulation signal by a driver's shifting operation, a shifter controller provided in the shifter assembly and configured of transmitting shift information according to the electrical manipulation signal, and an actuator controller which is mounted on a housing coupled with the shifter assembly, connected to the shifter controller, and applies a driving signal according to the shift information to an actuator. |
| US11739828B2 |
Gear transmission unit with a forced lubrication system including one or more lubricant distribution boxes
A gear transmission unit, particularly for a motor-vehicle, is provided with a forced lubrication system for lubricating rolling bearings and/or further inner components of the transmission unit. The unit is provided with one or more accessory elements in the form of lubricant distribution boxes. Each distribution box has a hollow body rigidly connected to the casing of the unit adjacent to a respective channel outlet which supplies a flow of lubricant under pressure. The hollow body defines an inner lubricant distribution chamber and has an inlet connected to the channel outlet and two or more outlets connected to further conduits for channels or chambers, for supplying the flow of lubricant under pressure in parallel to various components to be lubricated inside the transmission casing. |
| US11739827B2 |
Transmission device
A transmission device includes a power-transmission case having a carrier of a reduction gear and a differential case joined to the carrier is supported in a transmission case via case support bearings, a specific planetary gear portion of a planetary gear is disposed on one side of a differential mechanism in an axial direction, and the specific case support bearing is disposed on the other side thereof An oil passage-forming body is provided on an inner wall of the transmission case, the oil passage-forming body comprising an oil collection part that opens upward and can collect lubricating oil splashed up in an area around the specific planetary gear portion within the transmission case accompanying rotation of the power-transmission case, and an oil reservoir part that is continuous from the oil collection part, stores lubricating oil collected by the oil collection part, and supplies the lubricating oil to the specific case support bearing. |
| US11739824B1 |
Waterproof case and continuously variable transmission
In a waterproof case, a contact surface of a specific member that is a case main body or a cover is a surface extending along a predetermined oblique direction inclined relative to a perpendicular plane orthogonal to a die pull-out direction. The specific member includes a circumferential projection that projects from the contact surface in the die pull-out direction, is arranged circumferentially along the contact surface, and presses a sealing member. The circumferential projection includes an outer peripheral side surface and an inner peripheral side surface. In the first region, the circumferential projection has a tapered section in which the outer peripheral side surface is inclined relative to the die pull-out direction. In the second region, the circumferential projection has a tapered section in which the inner peripheral side surface is inclined relative to the die pull-out direction. |
| US11739821B2 |
Torque transmission apparatus having dry-operated separating clutch
A torque transmission apparatus for transmitting a torque between a first drive element and an output element, including a torque converter, having a torque converter input, which is rotatable about a rotation axis (A) and is coupled to the first drive element, and a torque converter output, which can be connected to the output element. A separating clutch arranged outside of the torque converter and effectively between the first drive element and the torque converter, having a clutch input and a clutch output, which can be connected thereto by the action of a clutch actuating apparatus. The clutch actuating apparatus having a pressure means chamber and a pressure means channel (K4) supplying said pressure means chamber with pressure means, and the separating clutch being dry-operated and the pressure means channel (K4) extending through the torque converter at least in portions. |
| US11739818B2 |
Powertrain for electric vehicle
A powertrain for an electric vehicle includes: a planetary gear including a first rotating element, a second rotating element, and a third rotating element, where the first rotating element is connected to a first shaft, the second rotating element is connected to a second shaft, and the third rotating element is connected to a third shaft; a first motor supplying power to the first shaft at all times; and a second motor selectively supplying power to the first shaft and the second shaft. The third shaft is fixedly connected to a transmission housing, and any two shafts among the first, second and third shafts restrain each other. |
| US11739817B2 |
Reduced vibration, shift compensating, continuously variable transmission
An improvement to continuously variable transmissions whereby power is transmitted from a driver axle to a driven axle through a variable transmission mechanism. A plurality of unidirectional sprocket wheels positioned radially around a driver axle within a set of frustoconical members is provided so that the distance from the driver axle can be adjusted. The unidirectional sprocket wheels are connected by a chain to a similar driven axle portion. This low vibration, high torque capable transmission is superior to variable transmissions that rely on friction-based power transmissions that can slip during operation. |
| US11739815B2 |
Gear assembly for use in electric drive transmissions
A gear assembly including: a drive gear adapted to be connected to an output shaft of an electric motor and being rotatable around a transmission axis; a planetary gear assembly including at least one sun gear, two or more planetary gear members rotatably supported on a carrier about respective planetary gear axes and meshing with the at least one sun gear and optionally a ring gear, an input stage connected to the drive gear, and an output stage adapted to be connected to a drive member for rotation of the drive member about the transmission axis; a clutch member adapted for slippingly connecting the ring gear with the carrier or with the drive member; and a brake member adapted for fixedly engaging a part of the planetary gear assembly with a locking part of the gear assembly. |
| US11739812B1 |
High strength single screw rope terminator connector
A cable terminator connector includes a screw and base having a first opening and a second opening. The first and second openings are configured to receive first and second cable portions wherein the screw is threaded into the base thereby pushing the first and second cable portions into the first and second openings and clamping the first and second cables portions into the base. |
| US11739808B2 |
Damper
Provided is a damper capable of securely assembling a cap on an outer circumference of a rod while reducing a diameter of the cap and reducing an outer diameter of a cylinder. A damper has a cylinder, a rod, and a cap attached to an opening of the cylinder. The rod has a piston on its tip side and a mounting portion mounted on the other of a pair of members on its base end side, the cap has a main body that extends in an axial direction of the rod, and the main body is formed with a receiving opening that can receive the rod from an outside in a radial direction thereof. |
| US11739802B2 |
Clutch temperature management in a slip control method and arrangement for a drivetrain including a continuously variable transmission
Clutch temperature management in a slip control method and arrangement for a drivetrain including a continuously variable transmission is described herein. The drivetrain includes a clutch that is so controlled as to slip when a torque higher than the usable torque attempts to pass through. The temperature data from the clutch is used to determine the usable torque. Accordingly, the clutch prevents the prime mover from stalling. |
| US11739797B2 |
Cardan joint spider
A cardan joint spider comprising a body having four right-angled brackets, each bracket presenting two mutually perpendicular arms, the arm of one bracket being assembled to the arm of an adjacent bracket so as to form a cross-shaped spider having four branches. |
| US11739794B2 |
Clamp yoke error proofing device and method
A steering assembly includes a pinion shaft. The steering assembly also includes a yoke defining a space for axially receiving the pinion shaft and defining an access path for receiving a fastener that couples the pinion shaft to the yoke. The steering assembly further includes an error-proofing device fixed to the yoke and having a deflectable portion blocking the access path in an initial position and deflectable upon contact with the pinion shaft to be clear of the access path in a final assembly position to ensure that the pinion shaft is assembled to the yoke at a predetermined axial position. |
| US11739790B2 |
Ball joint for a vehicle, in particular for an off-road vehicle
A ball joint (20) for a vehicle, in particular for an off-road vehicle. The ball joint (20) has a housing (21) and a ball stud (22) which is rotatably and pivotably mounted in the housing (21) and which, with a shaft (23), extends out of an opening of the housing (21). The housing opening is protected against unwanted penetration of dirt and/or moisture by f a seal bellows (25). The seal bellows (25) is surrounded in some areas by a bellows protection (30) in order to prevent damage to the seal bellows (25) due to mechanical influence. |
| US11739782B2 |
Quick—disconnect fastening system
A fastener assembly is provided having a cylindrical shank with a plurality of annular grooves formed along a length of the shank. A plurality of elongated ribs extends perpendicular to the grooves along the length. A fastener disc is provided with a central opening with a diameter less than a cylindrical shank diameter wherein an inner edge of the central opening includes a contact surface. The fastener disc is retained on the fastener portion in a locked position when the contact surface engages one of the plurality of grooves with a friction fit. The fastener disc is rotated to a release position so that the elongated rib contacts the inner edge thereby releasing the contact surface from the grooves. |
| US11739778B2 |
Telescopic tube having a stabilizing structure
Provided is a telescopic tube having a stabilizing structure, including: a first tube having an internal and external end, wherein at least three longitudinal stabilizing lines are protruded from an outer wall of the internal end, and at least one stabilizing line has a blocking surface disposed at one end thereof near the external end; and a second tube having an inner diameter larger than an outer diameter of the first tube and a diameter of an outer periphery of the stabilizing lines, and having an upper and lower end, wherein the upper end is provided with a blocking portion having an opening. The second tube is sleeved outside the first tube, the external end penetrates through the opening to expose outside the second tube, and the internal end remains therein. Therefore, the first tube can be stably slidable inside the second tube due to the stabilizing lines. |
| US11739776B1 |
Clamp having a lock and a release resisting key
A clamp includes a lock and a key. The lock defines a first longitudinal axis, and the key defines a second longitudinal axis. The lock has a clamping body portion, a pair of opposing snap lock arms, and an annular shaped receptacle. Each snap lock arm has a mounting end integrally joined to the clamping body portion. Each snap lock arm is flexible about its mounting end. The annular shaped receptacle is defined by the pair of opposing snap lock arms, being disposed between the pair of opposing snap lock arms adjacent to the mounting ends. The key includes a wedge body portion and a deformable elastic annular head portion. The annular head portion releasably retains the key in the lock. The annular head portion sized to engageably cooperate with the annular shaped receptacle to provide the releasable retention. |
| US11739771B2 |
Failure detection apparatus for a hydraulic system
A failure detection apparatus for a hydraulic system, to a hydraulic, failure detection-capable system, and to a method of operating a failure detection apparatus. The failure detection apparatus comprises a monitoring and failure detection unit that receives first and second pressure values from first and second pressure sensors and comprises a failure detection unit that detects a failure of at least one hydraulically operated device when a 2-tuple of a plurality of 2-tuples is within a first and outside a second predetermined tolerance range of relative pressure values, and wherein the failure detection unit 260 detects a failure of the pump when a 2-tuple of the plurality of 2-tuples is outside the first predetermined tolerance range of relative pressure values. |
| US11739769B2 |
Servo valve flapper and nozzle structure
An integral flapper and nozzle structure for a servo valve assembly whereby the flapper, orifices and nozzles are formed by sheets of metal formed into a single component. |
| US11739755B2 |
Pneumatic type water-free starting self-priming device
Clean version of the Abstract A pneumatic type water-free starting self-priming device includes a driving device, and a gas-liquid separation chamber and an expandable gas-liquid separation chamber respectively arranged on two sides of the driving device. The driving device uses high-speed gas to drive a drive disk to rotate and drive a drive shaft to rotate. The gas-liquid separation chamber uses a telescopic piston shaft rod to generate a pressure difference between the gas-liquid separation chamber and outside to suck in water, so as to realize water suction, gas-liquid separation and water drainage. The expandable gas-liquid separation chamber uses shrinkage or expansion of volumes of inner and outer chambers to generate a pressure difference to suck in water, so as to realize water suction, gas-liquid separation and water drainage. Also, the high-speed gas from the driving device flows through the two chambers, so that air can be discharged quickly. |
| US11739754B2 |
Compressor module having oil separator and electric-powered refrigerant compressor having the same
A compressor module with an pot-shaped compressor casing with a casing bottom and a casing wall which has an outlet for a compressed refrigerant, with a separator device for separating a lubricant mixed in with the refrigerant, the separator device is introduced into a high-pressure chamber of the compressor casing, wherein the separator device has a hollow-cylindrical chamber wall which forms a separation chamber fluidically connected to the outlet, and the a separator is received in the separation chamber to form an annular space. |
| US11739747B2 |
Vibration damping structure for a compressor and a compressor including vibration damping structure
A compressor is provided that is configured to suspend a compressor assembly from a string to significantly expand a speed range in which the compressor may be operated. The compressor may include a shell, and a compressor assembly disposed in the shell. The shell and the compressor assembly may be connected to each other by a string. The compressor assembly may be suspended from the shell by the string, and a tensile force may be generated at the string due to self-weight of the compressor assembly. A frame of the compressor assembly may not directly contact the shell. |
| US11739745B2 |
Compressible fluid micropump system and process
A micropump system (100) for a compressible fluid (102) includes a plurality of micropumps (110), rigid flow duct elements (120), a control unit (130), and one or two printed circuit boards (140). The micropumps have an intake opening (112) and an outlet opening (114). The rigid flow duct elements are connected to a respective micropump via a respective, elastically sealed port (122) and with the micropumps form a flow path (104) for the fluid. The one or two printed circuit boards are arranged and configured to electrically connect the control unit to the plurality of micropumps. Each micropump is rigidly fastened to the one or two printed circuit boards via a respective fastening device. A pressure build-up of the fluid flowing through the plurality of micropumps during the use, which is cascaded due to the plurality of micropumps, is provided at a system outlet (106) of the micropump system. |
| US11739735B2 |
Electric charge dissipation system for a wind turbine blade, wind turbine blade and related method
Provided is an electric charge dissipation system for a wind turbine blade in compliance with lightning protection system and/or with the capacity of mitigating dirt problems in wind turbine generator blades. Also provided is the wind turbine blade including the electric charge dissipation system. Further provided is a method for dissipating electric charges in a wind turbine blade. |
| US11739734B2 |
Fatigue loads in wind turbines and use of operational metadata
The present disclosure relates to methods and systems for determining fatigue loads in a wind turbine. Such a method may comprise obtaining operational metadata representative for an operational situation, and determining whether the operational metadata corresponds to operational metadata from one of a plurality of previously defined operational situations for which fatigue loads are known, the plurality of previously defined operational situations being stored in an operational situations database. If the operational metadata representative for the operational situation substantially corresponds to operational metadata from the stored previous operational situation, then the fatigue loads for the stored previously define operational situation are summed to historically accumulated fatigue loads to determine total accumulated fatigue loads. Methods for registering an operational situation in a wind turbine are also provided. |
| US11739732B2 |
Off-shore wind turbine system and method of installation
An off-shore wind turbine system is assembled using a platform or jack-up vessel, and a first base anchored to the seafloor at a bade assembly off-shore location. A buoyant tower is attached to the first base. A crane provided on the platform or jack-up vessel is used to lift blades and blades, which are then coupled to a turbine held in a nacelle provided at the top of the buoyant tower. The buoyant tower, the nacelle, and the blades are detached from the first base. The buoyant tower, the nacelle, and the blades are towed to a wind farm and connected to a second base provided in the wind farm. The buoyant tower, the nacelle, and the blades are further stabilized using mooring lines spanning between the buoyant towers and other bases provided in the wind farm. The first base and/or the second base include anti-rotation features. |
| US11739731B2 |
Vortex station
This invention relates to a vortex station and method for producing a vortex similar to one of a group consisting of dust-devils and waterspouts. The apparatus comprises a ground platform forming a base for the vortex station, a plurality of vanes to direct an air flow into a vortex station and about the vortex station in a substantially swirling manner, at least one wind turbine disposed near the centre of said vortex station, in a path of a concentrated air flow, wherein the movement of the air in the vortex station is such that an atmospheric buoyancy vortex is created in the centre of the vortex station, a supply of a working fluid (e.g. water) to the vortex station at or near the centre of the vortex station such that the air is of a saturated condition or an at least partially saturated condition with the working fluid (e.g. water), the working fluid (e.g. water) supplied at a sufficient quantity or amount so as to assist with maintaining buoyancy and stability of a vortex created. |
| US11739727B2 |
System and method for wave energy converting device
A system and method for a for a wave energy converter device that is an axisymmetric point absorber which operates in a tension only condition over a large stroke that can operate in the given wave environment so as to eliminate the need for end stops in normal operation whereby the wave energy converter device has a floating hull with an interior Power Take Off (PTO) that uses an impedance control scheme for impedance matching with the wave environment in which it is deployed so as to maximize electrical power output as compared with a passively operating device of similar size. |
| US11739724B2 |
Method and device for self-diagnosing ignition coil of engine of vehicle
A method for self-diagnosing an ignition coil of an engine of a vehicle, which self-diagnoses an error of the ignition coil supplying voltage to a spark plug includes generating, by a self-diagnosis signal generating device included in the ignition coil, a fault flag signal by monitoring a discharge time of secondary current which flows on a secondary coil of the ignition coil, and generating, by a controller, a diagnostic trouble code (DTC) according to a duration of the fault flag signal. |
| US11739719B2 |
Fuel injector interface device and method of use
A fuel injector interface device and associated method include an interface device having a plurality of input leads and a plurality of output leads. The input leads are communicatively linked to the fuel pressure sensor on the common rail of a vehicle fuel injection system. The output leads are communicatively linked to a display device such as a diagnostic scope. Circuitry positioned within the interface device detects the rail pressure signals, filters the signals, and outputs data to the display device representing a graphical depiction of the same. A method of using the interface device includes generating the signals, mapping the signals to an individual fuel injector of the vehicle's engine cylinder and determining fluctuations in the strength of the displayed signals to determine anomalies in a particular fuel injector. |
| US11739715B2 |
Regulator
A regulator may include a main body portion, a pressure regulating chamber, a valve seat, and a piston pressure regulating valve. The piston pressure regulating valve may include a pressure regulating valve element having an end surface that is adjustable into close contact with at least a portion of the valve seat. The piston pressure regulating valve may also include a piston portion surrounding an outer periphery of the pressure regulating valve element. The piston portion may be slidable in an axial direction of a passage of the main body portion and may be biased via a pressure regulating spring disposed in an atmosphere chamber. The pressure regulating valve element may include a step protruding from a fitting portion to the piston portion at an upstream position disposed displaced from a pressure regulating range at an outer peripheral portion of the pressure regulating valve element. |
| US11739714B2 |
Electrically-actuated valve and regulator for electrospray thrusters
Electrical propulsion systems and related methods are generally described. In some embodiments, an electrical propulsion system may include an electrically-actuated valve to selectively permit flow of propellant from a reservoir tank to a thruster. The valve may physically isolate the propellant from the thruster when inactivated, exhibiting a non-wetting surface which may inhibit propellant from passing through the valve towards the thrusters. In some embodiments, a valve may be activated through application of a voltage potential to the valve relative to the propellant, which may change the wettability of the valve, permitting propellant to wet and subsequently pass through the valve. The voltage potential may be adjusted to vary the wettability of the valve, resulting in the valve effectively regulating propellant flow rate. The valve may include a conductive layer, a dielectric or insulating layer, and a non-wetting layer to enhance the non-wetting behavior of the valve. |
| US11739712B2 |
Convergent-divergent flap pair for a variable-geometry turbojet engine nozzle, the flaps of which each comprise a cooling air circulation duct
In a convergent-divergent flap pair for a turbojet engine nozzle of the variable-geometry convergent-divergent type, the convergent flap and the divergent flap including respective ducts for circulation of cooling air connected to one another to allow cooling of each of the flaps. The duct of the divergent flap includes an impingement cooling cavity defined by two walls of lateral ends provided with air passage orifices through which the impingement cooling cavity opens towards the outside. |
| US11739704B2 |
Systems and methods for burner use for lambda control with gasoline engine
A vehicle control system includes: a fuel control module configured to control gasoline fueling of an engine in open loop based on a target engine lambda; and a burner control module configured to control gasoline fueling of a burner based on (a) a target lambda input to a three-way catalyst (TWC) in an exhaust system of the engine and (b) a lambda of exhaust input to the TWC. The burner is coupled to the exhaust system between (a) an output of the engine and (b) an input to the TWC. |
| US11739700B2 |
Aircraft propulsion system with hydrocarbon and hydrogen fuel adaption for reduced condensation trail impact
An aircraft propulsion system includes a hydrocarbon fuel store, a hydrogen fuel store, an engine system capable of producing thrust by combusting hydrocarbon fuel and/or combusting or oxidising hydrogen fuel, a conveying system to convey hydrocarbon and hydrogen fuel from the fuel stores to the engine system and a control system to control the respective flow rates of the fuel within the conveying system. The control system adapts the fractions of the total fuel energy flow rate to the engine system represented by the hydrocarbon and hydrogen fuel energy flow rates in order to reduce climate warming impact caused by at least one of carbon dioxide, water vapour and condensation trails and/or increase climate cooling impact caused by condensation trails produced by the aircraft propulsion system compared to a dual-fuel propulsion system in which a reserve of hydrocarbon fuel is entirely combusted before any of a reserve of hydrogen fuel. |
| US11739692B2 |
Electronic engine controller
An Electronic Engine Controller (EEC) for a gas turbine engine. The EEC is configured to be connected to a solenoid valve, and configured to control the solenoid valve by providing a driving signal to either a first solenoid winding or a second solenoid winding of the solenoid valve, the first and second solenoid windings being magnetically coupled to one another by an armature of the solenoid valve. The armature is movable under the action of the driving signal to operate the solenoid valve. The solenoid winding of the first and second solenoid windings provided with the driving signal is a driving winding and the other solenoid winding of the first and second solenoid windings is a pick-up winding. When the EEC controls the solenoid valve via the driving winding by providing the driving signal thereto, it is further configured to sense a position of the solenoid valve via the pick-up winding by detecting a signal induced in the pick-up winding by the magnetic coupling. |
| US11739686B2 |
Fuel gelling prevention using engine auto start functionality
In some embodiments, a fuel temperature sensor is located proximate to a vehicle component that is expected to experience fuel gelling, such as near or within a fuel filter, in order to obtain temperature information that accurately reflects the likelihood of fuel gelling occurring within the component. The proximate fuel temperature sensor can provide more accurate temperature information for components such as fuel filters that are installed at the periphery of the vehicle, compared to other temperature sensors that measure oil temperatures or other temperatures of centrally located vehicle components. In some embodiments, the vehicle is automatically started when the temperature indicated by the fuel temperature sensor falls below a startup temperature threshold value, and is automatically stopped after a predetermined time period or after the temperature reaches a shutdown temperature threshold value. |
| US11739684B2 |
Engine
An engine including an exhaust bypass valve and an intake bypass valve. The exhaust bypass valve is disposed in an exhaust bypass channel connecting an outlet of an exhaust manifold and an exhaust outlet of a turbocharger to each other. The intake bypass valve is disposed in an intake bypass channel connecting an inlet of an intake manifold and an inlet of the turbocharger. An intake pressure sensor detects a pressure of the intake manifold. If an instruction value indicating an upper limit or a lower limit of the valve opening degree of the intake bypass valve is continuously output for a predetermined time or more, an engine control device determines that an abnormality occurs in at least one of the exhaust bypass valve and the intake bypass valve. |
| US11739682B2 |
Split-cycle internal combustion engine
A split-cycle internal combustion engine is provided with an engine block and an expansion section having a plurality of expansion cylinders and a rotating drive shaft, which is supported by a first portion of the engine block and is operated by the expansion cylinders; the engine is further provided with a compression section having a volumetric compressor with a rotating driven shaft, which is supported by a second portion of the engine block and is distinct and spaced apart from the rotating drive shaft; the volumetric compressor has at least one compression cylinder extending along an axis, which is inclined relative to the axes of the expansion cylinders so as to form an angle. |
| US11739668B2 |
Sealing arrangement
Sealing arrangement for an internal combustion engine for sealing at least one interface of an oil pan assembly, comprising an O-ring for sealing a first interface between an upper edge portion of the oil pan assembly and a bottom side of an engine casing, wherein the O-ring extends in a plane formed by the first interface. The sealing arrangement further comprises at least one molded seal for sealing a second interface between two connectable parts of the engine, wherein the molded seal comprises two seal end portions comprising sealing areas to be sealingly connected to the O-ring. |
| US11739662B1 |
Engine controller for a gas turbine engine
A gas turbine engine is provided having: a turbomachine; a fan section having a fan rotatable by the turbomachine; a nacelle enclosing the fan; and an engine controller positioned within the nacelle. The nacelle defines an inner surface radius (r) along the radial direction inward of the engine controller, wherein the engine controller defines a radial height (Δr) along the radial direction, a total volume (V), and a normalized radius (r′). The normalized radius (r′) is a ratio of the inner surface radius (r) to the total volume (V) to cube root, and wherein these parameters are related by the following equation: 0 . 1 ( r ′ ) - 1 < Δ r r < K ( r ′ ) - 4 / 3 , wherein the normalized radius (r′) is between 1.25 and 8 and K is equal to 40%, or the normalized radius (r′) is between 2.75 and 4.5 and K is equal to 65%. |
| US11739661B2 |
Seal air buffer and oil scupper system and method
A turbine engine strut stage extends through a gaspath upstream of a guide vane stage. A carbon seal system seals a bearing compartment and has: a carbon seal mounted to the case and a seal runner on the spool; and a seal carrier carrying the carbon seal. The engine passes buffer air along a buffer air supply path internally through one or more first struts of the stage of struts. The engine drains oil along an oil drain path internally through one or more second struts of the stage of struts. |
| US11739657B2 |
Method of forming a thermal barrier coating system with engineered surface roughness
A method of manufacturing a substrate (16) with a ceramic thermal barrier coating (28, 32). The interface between layers of the coating contains an engineered surface roughness (12, 24) to enhance the mechanical integrity of the bond there between. The surface roughness is formed in a surface of a mold (10,20) and is infused by a subsequently cast layer of material (16, 28). The substrate may be partially sintered (76) prior to application of the coating layer(s) and the coated substrate and coating layer(s) may be co-sintered to form a fully coherent strain-free interlayer. |
| US11739649B2 |
Woven fibrous preform for manufacturing a fan blade made of composite material
A three-dimensional fibrous preform of a fan blade includes a blade root and a blade airfoil between the blade root and a free end of the preform. The airfoil has an area with two skins and a longitudinal stiffener between the skins and, in a transverse plane, transverse yarns of the skins woven in pairs in the first and in the second skin either side of the stiffener, the yarns of a first pair of the first skin are separated into two unit yarns at the stiffener, the unit yarns being woven separately with longitudinal yarns, the yarns of a second pair of the second skin are separated into two unit yarns at the stiffener, the yarns being woven separately with longitudinal yarns, and a yarn of each pair cross over each other twice in the stiffener. |
| US11739648B2 |
Steam turbine rotor blade and manufacturing method and remodeling method of steam turbine rotor blade
Water droplets that are moved on blade surfaces of a rotor blade are effectively guided toward the blade trailing edge while influence on the strength of the rotor blade is suppressed. A steam turbine rotor blade having a tie-boss for joining to adjacent blades at an intermediate position in the blade length direction is provided. The steam turbine rotor blade includes an airfoil part in which a blade surface is partly hollow as viewed in a section obtained by cutting by an orthogonal plane to a rotation center line of a turbine and a recessed blade surface that is this hollow partial blade surface passes through the blade root side of the tie-boss at least in a region on the pressure side and extends in a strip shape in the blade chord length direction. |
| US11739646B1 |
Pre-sintered preform ball for ball-chute with hollow member therein for internal cooling of turbine component
A ball for a ball-chute in a turbine component, the turbine component, and a method of using the ball, are provided. A ball may include a ball body made of a pre-sintered preform (PSP) material. The ball body has an opening defined therethrough having a first cross-sectional area. A hollow member is fixed within the opening defined through the ball body. The hollow member has a second cross-sectional area smaller than the first cross-sectional area of the opening, and is made of a material having a melt temperature higher than a melt temperature of the PSP material. The method includes positioning the ball and brazing the ball in place. The hollow member maintains fluid communication through the ball after the brazing, and allows customized metering of the coolant flow therethrough. |
| US11739645B2 |
Vibrational dampening elements
A vibrational dampening element is attached to a component and configured to adjust the amplitude of oscillations of the component. The vibrational dampening element includes a mass. The mass includes a main body and a member extending from the main body. A casing that encapsulates the mass. A fluidic chamber defined between the mass and the casing. A first fluidic portion is disposed between a first side of the mass and the casing. The first fluidic portion includes a first accumulator portion directly neighboring the member. A second fluidic portion is disposed between a second side of the mass and the casing. The second fluidic portion includes a second accumulator portion directly neighboring the member. The first accumulator portion is in fluid communication with the second accumulator portion. The vibrational dampening element further includes a primary passage that extends between the first fluidic portion and the second fluidic portion. |
| US11739644B2 |
Turbine stage platform with endwall contouring incorporating wavy mate face
A turbine stage includes a first airfoil and a second airfoil extending respectively from a first platform and a second platform that form an endwall for a flow passage. The endwall has a nominal surface that is axisymmetric about an axis of the turbine stage. The endwall further includes at least one contoured region that is non-axisymmetric with respect to the axis. The at least one contoured region extends from the first platform to the second platform across a platform splitline. The global maximum variation in elevation ΔEW of the endwall is at least 3% of an axial chord length L of the airfoils on the endwall. The maximum variation in elevation ΔMF at the mate facea of the platforms lies in the range 15-60% ΔEW. |
| US11739643B2 |
Method and apparatus for cooling a portion of a counter-rotating turbine engine
A turbine engine having counter-rotating rotors comprising a first rotor, rotating in a first rotational direction, defining a first rotor set of blades axially spaced to define a gap, and a second rotor, rotating in a second rotational direction counter the first rotational direction. The second rotor further including a second set of blades received within the gap of the first rotor. A plurality of fluid passages is formed in the first rotor with an outlet facing the gap. |
| US11739641B1 |
Method for processing the output of a speech recognizer
A method for processing speech, comprising semantically parsing a received natural language speech input with respect to a plurality of predetermined command grammars in an automated speech processing system; determining if the parsed speech input unambiguously corresponds to a command and is sufficiently complete for reliable processing, then processing the command; if the speech input ambiguously corresponds to a single command or is not sufficiently complete for reliable processing, then prompting a user for further speech input to reduce ambiguity or increase completeness, in dependence on a relationship of previously received speech input and at least one command grammar of the plurality of predetermined command grammars, reparsing the further speech input in conjunction with previously parsed speech input, and iterating as necessary. The system also monitors abort, fail or cancel conditions in the speech input. |
| US11739639B2 |
Composite support structure, construction system, and method
A composite support structure, a construction system, and a method, the composite support structure includes a plurality of arc plate rings that are longitudinally arranged along a roadway. A concrete fill steel tube support is arranged on an inner side or an outer side of each arc plate ring. The arc plate ring is formed by splicing a plurality of arc plates. Each concrete fill steel tube support is formed by splicing a plurality of steel pipe sections. The arc plate rings and the concrete fill steel tube supports are capable of jointly supporting walls of the roadway. The support structure has high bearing capability, high construction efficiency of a construction system, and low labor intensity. |
| US11739638B2 |
Travelling-type tunnel hard-rock micro-damage cutting equipment and construction method associated therewith
A travelling-type tunnel hard-rock micro-damage cutting equipment and a construction method associated therewith are provided. The cutting equipment includes: a crawler-type trolley; and a hard-rock drilling construction apparatus, a hard-rock cutting construction apparatus, a self-unloading tipping bucket and a visual operation terminal all arranged on the crawler-type trolley. The hard-rock cutting construction apparatus includes: a cutting manipulation room, a rock-breaking power arm, and a hard-rock cutting device including a hydraulic steel robs, a signal sensor, an infrared lens and a light source assembly. The infrared lens and the light source assembly are arranged at the front end of the hard-rock cutting device, and a working image can be transmitted to the visual operation terminal through the signal sensor. The cutting equipment can accurately and efficiently cut a rock mass, and the cut rock mass can be reused according to secondary processing conditions of rock to improve economic benefits. |
| US11739634B2 |
Dedicated sub for look-ahead applications
A drilling system and a method of drilling a wellbore in an earth formation. A first antenna is disposed at a first location near a drill string. A second antenna is disposed at a second location of the drill string. The first antenna has a first specific moment. One of the first antenna and the second antenna is operated as a transmitter that transmits a transmitted signal, and the other is operated as a receiver that receives a received signal in response to the transmitted signal. The processor determines a property of an earth formation from the received signal. |
| US11739632B2 |
Tubular transducer for monitoring loads on a completion
A method and apparatus for establishing a secure communication link between a first member and a second member in a wellbore. The apparatus includes a strain sensor and at least one processor. The strain sensor is at a mating end of the second member and measures a strain at the mating end. The at least one processor determines, from the strain, when a first force applied between the first member and the second member exceeds a first force threshold that indicates that the first member and the second member are in a first mating position in which a testable communication link is established between the first member and the second member. The at least one processor tests the testable communication link between the first member and the second member at the first mating position. |
| US11739631B2 |
Methods and systems for determining reservoir and fracture properties
Methods and systems for determining reservoir permeability of a subsurface formation and fracture surface area. The method includes creating a first hydraulic fracture and a second hydraulic fracture in a horizontal well, generating a pressure pulse at the first hydraulic fracture, monitoring, using a first pressure gauge the pressure at the first hydraulic fracture, monitoring, using a second pressure gauge, the pressure pulse at the second hydraulic fracture, repeating this test at different locations along the wellbore to evaluate heterogeneity in permeability and variations in fracture surface areas, analyzing pressure and rate data to determine either permeability or fracture surface area by using: analytical/numerical simulation models, or physics-based proxy models inputting pressure front/peak arrival time or peak pressure. |
| US11739626B2 |
Systems and methods to characterize well drilling activities
Provided is a method of drilling a hydrocarbon well that includes conducting a drilling operation, collecting drilling data including characteristics of the drilling operation over a timespan, determining (based on the drilling data) drilling conditions for instants of time within the timespan, determining (based on application of the drilling conditions) preliminary classifications identifying a preliminary classification of the drilling operation for instants of time within the timespan, determining (based on the preliminary classifications) a series of classifications for the drilling operation that each indicate a determined classification for a respective instant of time, determining (based on the series of classifications) a change of classifications, conducting (in response to determining the change of classifications) a change point detection to identify a time of the change of classifications, generating drilling characteristic data indicating the time, and conducting the drilling operation in accordance with the time. |
| US11739625B2 |
Trajectory control for directional drilling using formation evaluation measurement feedback
A method for controlling a drilling trajectory of a wellbore includes receiving a target trajectory reference of a drill bit within a wellbore from a formation model. The method also includes receiving real-time formation evaluation measurements from at least one sensor positioned within the wellbore and computing a target trajectory set-point change based on the real-time formation evaluation measurements. Further, the method includes generating a target trajectory from the target trajectory reference and the target trajectory set-point change and steering the drill bit using the target trajectory. |
| US11739621B2 |
Acid fracturing treatments in hydrocarbon-bearing formations in close proximity to wet zones
System, methods, and devices for simultaneously fracturing a target formation and an adjacent secondary formation are disclosed. The simultaneous fracturing operations interfere with each other to form in-situ dynamic barriers. The in-situ barriers prevent acid from the fracturing treatment in the target formation from invading the secondary formation and, in some instances, sealing formation rock at the location of the in-situ barrier to prevent or reduce water movement from the secondary formation into the primary formation. |
| US11739618B2 |
Processes for increasing hydrocarbon production
Systems and methods for increasing hydrocarbon production using an electrical submersible pump are described. The methods typically include, for example, configuring an electrical submersible pump comprising a gas separator to induce a gas lift effect in a well comprising a tubing within a casing. Hydrocarbon production from the well is therefore increased using the electrical submersible pump. |
| US11739615B2 |
Single trip liner hanger system
A liner hanger system enables installation of a liner hanger by means of a full bore casing to surface and provides pressure integrity between the casing's inner and outer sides. The liner hanger system comprises a liner hanger, along with an associated liner, coupled to a tieback casing string. The liner hanger and liner are deployed downhole connected to a tieback casing string. Once the liner has been lowered to the position of interest, first the liner hanger is anchored and cemented in position, and then, a packer is set to seal the lower annulus of the liner. The liner hanger system enables operations that used to require a plurality of trips, to be performed in a single trip. It does so without introducing any unwanted limitation to the inner diameter at any point between the wellhead and the end of the liner, and while also allowing for potential decoupling and removal of the tieback casing string from the liner hanger if desired. |
| US11739612B2 |
Ball valve for improved performance in debris laden environments
An isolation valve system includes a well string having an isolation valve including a ball rotatably mounted to a pair of inserts for rotation about a fixed axis, an arm coupled to the ball at a position offset from the fixed axis, and a mandrel connected to an actuation end of the arm, the mandrel and the actuation end of the arm being disposed uphole of the ball. Via the actuation end of the arm, the mandrel forces rotation of the ball from a closed position to an open position by moving in a linear direction away from the ball, which allows flow of fluid along a through hole of the ball. |
| US11739609B2 |
Methods, apparatus and systems for creating bismuth alloy plugs for abandoned wells
A wellbore is plugged using a bismuth alloy. In one embodiment, the bismuth alloy comprises an alloy of bismuth and tin. In another embodiment, the bismuth alloy comprises an alloy of bismuth and silver. The wellbore can be arranged so that a liquid bismuth alloy sets with an excess pressure of the plug relative to the borehole fluid pressure along a desired seal height distance. Other aspects are described and claimed. |
| US11739608B2 |
Downhole completion system
A downhole completion system includes a well tubular metal structure having an inner face, and a first, second and third annular barriers, each annular barrier having a tubular metal part mounted as part of the well tubular metal structure, an expandable metal sleeve surrounding the tubular metal part, each end section of the expandable metal sleeve being connected with the tubular metal part, an annular barrier space between the tubular metal part and the expandable metal sleeve, and an expansion opening in the tubular metal part and a fluid channel fluidly connecting the expansion opening and the annular barrier space through which pressurised fluid passes for expanding the expandable metal sleeve and bringing the annular barrier from an unexpanded position to an expanded position. The second annular barrier is arranged in between the first annular barrier and the third annular barrier, and the second annular barrier is configured to expand at a lower pressure than the first and third annular barriers. |
| US11739606B2 |
Temporary well isolation device
A temporary well isolation device which has an axial passage that comprises a temporary housing having an internal cavity containing a chemical material and a temporary barrier or plug member that can be actuated by an external mechanism to allow fluid to flow into the internal chamber and contact the chemical material in the internal chamber. When the chemical material is exposed to fluid, the chemical material causes the temporary housing to corrode, dissolve, and/or degrade. |