US11310949B2

A component mounting device described herein includes a tape driving section (a driving shaft motor, a front-side sprocket, a timing belt) feeding forward component tapes including components, a tape guide section guiding downward an empty tape that has no component as a result of suctioning with a suction nozzle, a tape cutting section disposed below the tape guide section and cutting the empty tape according to determination that the component tape has no component, and a tape discharge section disposed below the tape cutting section and discharging downward a cut part of the empty tape.
US11310939B2

A coolant distribution unit includes a casing, a control module, a power supply module, a heat exchange module, and a fluid driving module. The power supply module is electrically connected to the control module, the fluid driving module is electrically connected to the control module and the power supply module, and the fluid driving module is in fluid communication with the heat exchange module. The control module, power supply module, heat exchange module, and fluid driving module are all arranged in the casing. In addition, the control module controls the power supply module to output a corresponding electrical power to the fluid driving module according to an operation status of the fluid driving module.
US11310937B2

Systems and methods for chip cooling with near edge jets in a direct liquid cooled module are disclosed. One of the functions of a direct liquid cooled module is to provide cooling liquid to components located on a chip. Jet impingement directly onto the back side of a chip is one cooling method that can provide more efficient cooling. An orifice plate includes an array of small diameter holes that correspond to high velocity jet locations and large diameter holes for the insertion of tubes to connect to lower pressure cavities.
US11310920B2

A circuit board (100) includes an insulating base layer (11), a first conductive circuit layer (40) disposed on the base layer (11); a solder mask layer (60) covering the first conductive circuit layer (40) away from the base layer (11), wherein the solder mask layer (60) defines a slot (601), the slot (601) exposes a portion of the first conductive circuit layer (40), the solder mask layer (60) includes a sidewall (602) at the slot (601); and a cover film (70) covering the solder mask layer (60), wherein the cover film (70) defines an opening (701), the opening (701) corresponds to the slot (601) and exposes the solder pad (7401), the cover film (70) includes a covering portion (74) and a side reflecting portion (75), the covering portion (74) is disposed on the solder mask layer (60), the side reflecting portion (75) is connected to the covering portion (74) and covers the sidewall (602).
US11310918B2

A method for producing a plated part, includes: forming, on a surface of a base member, a catalyst activity inhibiting layer containing a polymer which has at least one of an amide group and an amino group; irradiating with light or heating a part of the surface of the base member on which the catalyst activity inhibiting layer is formed; applying an electroless plating catalyst to the surface of the base member heated or irradiated with the light; and bringing an electroless plating solution into contact with the surface of the base member to which the electroless plating catalyst is applied, to form an electroless plating film at a light-irradiated portion or a heated portion of the surface.
US11310916B1

A metal circuit on a polymer composite substrate surface and a method for manufacturing the same are provided. The metal circuit on the polymer composite substrate surface includes a polymer composite layer and a metal circuit layer. The metal circuit layer is formed from a metal piece molded by metal processing, and is integrated onto a surface of the polymer composite layer. The metal circuit layer has one or a plurality of circuit grooves formed therein, the polymer composite layer has one or a plurality of bulges formed therein, and the bulge is deformed and bulged at the corresponding circuit groove.
US11310914B2

A circuit board includes a board body, a first electrode, and a second electrode. The board body contains a resin material. The first electrode is disposed on a first main surface of the board body and includes a first electrode base and a first coating film that covers at least a part of an outer surface of the first electrode base. The second electrode is disposed on the first main surface of the board body and includes a pillar-shaped structure that includes a second electrode base, a first plating film that is disposed on the second electrode base, and a first plating structure having a first end directly connected to the first plating film, and a second coating film that covers at least a part of an outer surface of the pillar-shaped structure.
US11310913B2

The invention relates to a semiconductor component (2), comprising a semiconductor chip (3), a housing (5) and a connection point arrangement (10) having at least two rows (14, 16) of planar connection points (12), which are arranged on a bottom side of the housing (5) and can be electrically connected by means of connections to corresponding contacts of a contact arrangement having at least two rows, which contact arrangement is arranged on a printed circuit board, wherein the geometry of the contact arrangement corresponds to the geometry of the connection point arrangement (10), a first distance is specified between two adjacent first connection points (14A) of a first row (14) of the connection point arrangement (10) and a second distance is specified between two adjacent second connection points (16A) of a second row (16) of the connection point arrangement (10), and the second connection points (16A) of the second row (16) are offset to the first connection points (14A) of the first row (14). The invention also relates to a corresponding contacting assembly having such a semiconductor element (2) and a printed circuit board. The first distance at least between two adjacent first connection points (14A) of the first row (14) of the connection point arrangement (10) corresponds to an intermediate space (C, D) between two contacts of the corresponding contact arrangement, in which intermediate space at least two conducting tracks (28) having functionally reliable dimensions and distances can be arranged.
US11310909B2

A printed wiring line formed on a substrate connects two different points on the substrate which are connectable by another printed wiring line with a shape of a straight-line segment and has a shape corresponding to at least one of: 1) a shape with no linear part parallel to the straight-line segment; 2) a shape with line segments connected in series, each line segment having a shape with no linear part parallel to the straight-line segment; 3) a shape having a part parallel to the straight-line segment and a part not parallel to the straight-line segment, length of the part parallel to the straight-line segment being not more than length of the straight-line segment; and 4) a shape in which line segments are connected in series, each line segment having a shape having a part parallel to the straight-line segment and a part not parallel to the straight-line segment.
US11310901B2

Embodiments of the present invention include a plasma cutting torch and plasma cutting torch components, such as electrodes, cathodes, retainer caps, etc. having a unique physical features, including threads relationships. Embodiments include torch components having modified square thread with a specialized thread configuration including a particular relationship between thread crest and root, and included angles of thread sidewalls.
US11310891B2

A controller 100 for controlling a lighting device 120 is disclosed. The controller 100 comprises a receiver 102 arranged for receiving a plurality of light scenes, wherein each light scenes is associated with a word, a display 104 for displaying a plurality of words, a user input element for receiving user input indicative of a selection of one of the plurality of words, a processor 106 for generating a lighting control command 110 based on the light scene associated with a selected word, and a communication unit 108 arranged for communicating the lighting control command 110 to the lighting device 120, wherein the processor 106 is arranged for receiving a relevance value of each light scene, and for rendering each of the plurality of words with a text property representative of the respective relevance value of the associated light scene and in a text color that matches a light color of the associated light scene.
US11310883B2

An apparatus method for driving light emitting diodes (LEDs), comprising: receiving an alternating current input; producing a DC current having a voltage with an AC-DC boost power-factor correction stage, having a variable-frequency operation, and a set of switches controlled in dependence on the voltage to limit a peak LED current; and producing an LED drive current with a DC-DC power conversion stage having a set of switches to selectively pulse-width modulate the LEDs to control a brightness, wherein the set of switches in the AC-DC boost power-factor correction stage and the set of switches in the DC-DC power conversion stage are each controlled to switch at zero current.
US11310879B1

A feedback control circuit in an LED driving circuit for driving a plurality of LED strings. Each LED string provides a headroom detecting voltage. The feedback control circuit has a status detecting circuit, a counting circuit and a modulating circuit. The status detecting circuit compares each headroom detecting voltage with a low headroom threshold voltage and a high headroom threshold voltage and generates an up self-status signal and a down self-status signal. The counting circuit counts or keeps unchanged and then generates a counting signal based on the up self-status signal and the down self-status signal. The modulating circuit generates a modulating signal based on the counting signal. And based on the modulating signal, the feedback control circuit generates a feedback control signal to regulate a bias voltage supplying the plurality of LED strings.
US11310878B2

A dimming control circuit, driving device and control method thereof, the dimming control circuit comprising a dimmer, a driving device coupled to the dimmer and controlling a load on the basis of a dimming level reference of the dimmer, and a bleeder supplying power to the dimmer, the driving device including a power switch coupled to the load, wherein a duty ratio of a driving voltage on the power switch is adjusted in accordance with the dimming level reference to control an operating current of the load.
US11310870B2

Methods, systems, and devices for wireless communications are described. In one example, a method includes determining one or more parameters corresponding to each of two or more gateways in a first network, selecting a first gateway of the two or more gateways based at least in part on the one or more parameters, and instructing at least a second gateway of the two or more gateways to send data to the first gateway, wherein the first gateway provides the data to a second network.
US11310867B2

A method and an apparatus of controlling a secondary cell (SCell) are provided. The method of controlling the SCell for new radio carrier aggregation of a user equipment includes receiving at least one of downlink control information (DCI) and a medium access control (MAC) control element (CE) from a network node, wherein the at least one of the DCI and the MAC CE indicates control a SCell, the method includes determining whether to apply or ignore the at least one of the DCI and the MAC CE, and controlling the SCell according to the determination.
US11310864B2

There is provided a method in a network element of a wireless communication network, the method comprising: receiving a service request from a service provider; initiating determination of a transmission scheme for the service request; obtaining multicast capability information on a plurality of terminal devices and network nodes; obtaining distribution information on the plurality of terminal devices; obtaining traffic load information on the network nodes; based on the multicast capability information, the distribution information, and the traffic load information, determining the transmission scheme for the service request, the transmission scheme including at least one unicast transmission and at least one multicast transmission; and indicating one or more unicast transmitting entities about the at least one unicast transmissions and indicating one or more multicast transmitting entities about the at least one multicast transmissions.
US11310860B2

Methods, computer program products, and systems are presented. The methods include, for instance: attaching a user equipment to a communication network via Evolved Nodes B respectively controlling radio cells of the communication network. A new communication channel for the user equipment is assigned based on usage characteristics of the user equipment.
US11310858B2

A method for managing a radio link in an unlicensed band is provided. An apparatus attempts to receive a discovery reference signal (DRS) in a serving cell that is operated in the unlicensed band. The apparatus determines that a radio link to the serving cell has failed if the DRS is not received for a predetermined time.
US11310857B2

To provide a communication control means for establishing a session suitable for a terminal apparatus connecting to multiple access networks of various kinds and a network apparatus, a user data communication control means suitable for a terminal apparatus that has established sessions via multiple access networks and a network apparatus, and the like. This provides a communication control means suitable for a terminal apparatus and a network apparatus that support connection to multiple access networks of various kinds.
US11310853B2

A method and system is described in which a client device comprises a memory arranged as a user space and a kernel space. One operation comprises providing in the user space a user space control module for receiving one or more application calls destined for the kernel space. Another operation comprises receiving by the user space control module an application call for requesting data transmission using one or more kernel space network services. Another operation comprises implementing the requested data transmission over multiple paths from the client device under the control of the user space control module.
US11310848B2

A terminal device includes or connects to an external Hall device. The terminal device enters a to-be-connected state based on a Hall event generated by the Hall device, where terminal device is configured for connection to an externally device using a wireless communication protocol. The terminal device sends a trigger signal to enable the externally device to enter the to-be-connected state based on the trigger signal, and establishes the connection to the externally device using the wireless communication protocol.
US11310835B2

A resource allocation method includes the following steps: receiving a trigger frame signal, analyzing the trigger frame signal for acquiring at least one first user information field, determining at least one first random access resource unit number according to the at least one first user information field, decreasing a countdown parameter to generate a first countdown result according to the at least one first random access resource unit number, determining whether to continuously receive the trigger frame signal according to the first countdown result, and selecting a first random access resource unit from multiple random access resource units of the at least one first user information field when the trigger frame signal is not continuously received.
US11310831B2

A scheduler resource maintains a grid of multiple blocks for a timeframe in which multiple wireless stations compete for use of available wireless resources to communicate in a wireless network. For a first block of the multiple blocks in the grid, the scheduler resource generates first transmit information. The scheduler resource assigns a first unique code to the transmit information, the first unique code being mapped to a first frequency band and first time slot in which the first block resides in the grid. The scheduler resource repeats this operation of assigning a unique code for each used block or block pair (and corresponding transmit information) scheduled for use by a respective wireless station. Subsequent to generation of the schedule information, the scheduler resource or other suitable entity distributes the schedule information to one or more other wireless stations in the wireless network environment.
US11310821B2

Disclosed are a method for transmitting/receiving a signal between a terminal and a base station in a wireless communication system for supporting an unlicensed band, and a device for supporting the same. More particularly, a terminal according to one embodiment of the present disclosure can receive a downlink signal through an unlicensed band on the basis of downlink scheduling information of a received component carrier level, or can transmit an uplink signal through the unlicensed band on the basis of uplink scheduling information of a broadband channel level including a plurality of received component carriers.
US11310812B2

Embodiments of the present invention provide a data sending method, a data receiving method, user equipment, and a base station. The method includes: receiving, by UE, an uplink scheduling grant, where the uplink scheduling grant includes first resource indication information; determining, by the UE, a target resource based on the first resource indication information, where the target resource is allocated resource blocks in M basic resource elements; and sending, by the UE, uplink data on the target resource. In the embodiments of the present invention, service coverage of a base station can be significantly improved.
US11310799B2

Various embodiments disclosed herein provide for optimizing identification of a beam in a massive multiple-input multiple output (MIMO) system. The receiver device can select a beam to use for a transmission, and generate channel state information based on a selection of either a single stage beam selection process or a two stage beam selection process. According to an embodiment of the disclosure, the receiver can select which beam selection process to use based on the context of the receiver device. The receiver can select which beam selection process to use based on the long term signal to noise ratio, or the correlation metrics associated with the receiver and transmitter, or based on the path loss between the transmitter and receiver, or based on the location of the receiver relative to the transmitter.
US11310797B2

In one example, a communication device is disclosed, which includes a tunable circuit coupled to an antenna, a modem, and a control unit. The modem may poll a plurality of channels. Each channel is associated with a frequency band. Further, the modem may record a received signal strength indicator (RSSI) value associated with each of the plurality of channels. Furthermore, the control unit may determine a first channel having a highest RSSI value from the plurality of channels and control the tunable circuit to tune the antenna based on a frequency of the first channel.
US11310796B2

Wireless transmission regulation for a frequency band associated with Citizens Broadband Radio Service (CBRS) is described. In an example, a sensor associated with a device, which is configured to operate in the frequency band, can scan at least a portion of the frequency band to generate sensor data indicating at least energy present in the portion of the frequency band. The device can determine, based at least in part on analyzing the sensor data, a presence of another device using the frequency band. The other device can be a priority user having priority access over the device. Based at least in part on determining the presence of the other device, the device can adjust a device radio frequency (RF) transmission power for transmitting communication(s) within the frequency band.
US11310795B2

Methods and systems are disclosed for communicating in a wireless communications system utilizing a plurality of frequency bands for downlink (DL) transmission and a plurality of frequency bands for uplink (UL) transmission. In an embodiment, a mobile device receives a DL signal via a DL frequency band. The DL signal contains DL-UL frequency-band association information. The DL signal is decoded to obtain the DL-UL frequency-band association information which is used to determine a UL frequency band for UL transmission. The mobile device configures its radio-frequency (RF) circuitry to operate in the UL frequency band for UL transmission.
US11310784B2

The disclosure relates to a method of operating a wireless device. The method comprises receiving (10), from a network node, control information indicating a timing of a scheduled transmission or reception. The method further comprises determining (20) at least one slot or symbol for the scheduled transmission or reception based on the control information indicating the timing, wherein the determining is dependent on whether the wireless device is configured with a semi-static time division duplex, TDD, uplink-downlink allocation or not. The method also comprises performing (30) the scheduled transmission or reception in the determined at least one slot or symbol.
US11310779B2

A communication method and a system for converging a 5th-Generation (5G) communication system for supporting higher data rates beyond a 4th-Generation (4G) system with a technology for Internet of Things (IoT) are provided. The disclosure may be applied to intelligent services based on the 5G communication technology and the IoT-related technology, such as smart home, smart building, smart city, smart car, connected car, health care, digital education, smart retail, security and safety services. The disclosure relates to a method and an apparatus for transmitting/receiving a control channel in a wireless communication system. More specifically, a method for determining a downlink control channel transmission configuration of a base station by providing control channel area configuration information together, which is used when sharing a downlink resource with the base station within a maximum channel occupancy interval acquired by a User Equipment (UE) is provided.
US11310776B2

Resource usage information is determined at a first UE about usage of a first communication resource by other UEs based on signals received by the UE. The first communication resource is excluded from a set of candidate communication resources when the resource usage information exceeds a usage threshold. When the first communication resource is excluded, a second communication resource from the candidate communication resources remaining in the set is selected to use for a transmission by the UE.
US11310774B2

A data processing method executed by a terminal device includes: receiving first indication information sent by a network device; receiving second indication information sent by the network device, where the second indication information is used to indicate that soft values of first data received are to be processed in a first processing manner or a second processing manner, the first data is carried on a second resource, and both the first resource and the second resource include a third resource; determining a target processing manner from the first processing manner and the second processing manner based on the first indication information and/or the second indication information; and processing soft values of data in the third resource in the target processing manner.
US11310764B2

A method for a terminal receiving a paging message can comprise the steps of: receiving first downlink control information (DCI); and determining whether or not a paging indicator field is comprised in the first DCI.
US11310753B2

A method is performed by a wireless node in a wireless communication network for receiving a reference signal. The method includes collecting a first set of samples of the received signal in time domain, transforming the first set of samples into frequency domain, forming a plurality of hypotheses including a set of hypotheses for time offset of the received signal and/or a set of hypotheses for frequency offset of the received signal, correlating the frequency domain samples of the received signal with at least a subset of the plurality of hypotheses, and selecting a hypothesis based on the correlation, wherein the selected hypothesis corresponds to a synchronisation of the received signal such that the synchronisation is achieved. A wireless communication device, a network node, and computer programs for implementing the method are also described.
US11310750B2

Techniques for determining power levels of radios, including a time domain duplexing (TDD) system, in shared frequency spectrum is provided. A TDD radio, of the TDD system, in a neighborhood having a largest interference contribution in the frequency spectrum at the point. Transmit power levels are determined for (a) the selected TDD radio, (b) other radios in the neighborhood that are not part of the TDD system, and (c) at least one radio in the TDD system that is not the TDD radio having the largest interference contribution in the frequency spectrum. Thus, interference margin may be fairly allocated to radios in neighborhood(s) about protection points.
US11310746B2

According to certain embodiments, a method is performed by a wireless device configured with multiple power control closed loops for a serving cell. The method comprises receiving a transmit power control (TPC) command in a downlink control message that comprises a plurality of TPC commands. The method comprises determining a particular power control closed loop of the plurality of power control closed loops to which the TPC command should be applied. The particular power control closed loop is determined using the downlink control message. The method further comprises updating the particular power control closed loop using the TPC command.
US11310743B2

This disclosure provides systems, methods, and apparatuses, including computer programs encoded on computer storage media, for determining one or more tone sequences (for example, for wake-up procedures). In one aspect, an access point (AP) may wake a mobile station (STA) from a low power mode using a wake-up packet, where an ON symbol of the wake-up packet is modulated using a tone sequence. To reduce the likelihood of a STA falsely identifying the ON symbol as a packet preamble, the AP may implement a tone sequence that satisfies a correlation metric threshold. For example, for a set of candidate tone sequences, each tone sequence may be associated with a correlation metric and peak-to-average-power ratio (PAPR) coordinate pair, and the tone sequence for modulating the ON symbol of the wake-up packet may be selected from a lower convex hull of the coordinate pairs.
US11310731B1

The disclosed technology takes into account mobility behavior and interactions with a serving cellular network of a UE mobile device, when determining network interaction parameters for the UE, including providing an identifier of the UE to a NWDAF component that subscribes to receive notices that report changed or changing events, including a change in connectivity to any cell for any UE and any service usage on the cell and performs a dispersion analysis by analyzing the incoming notices to determine multiple dispersion indices as the UE mobile device changes its selection of a base station or a cell or a slice. Also included are network elements receiving the dispersion analysis for the UE mobile device and performing a policy update and/or a radio access network (RAN) decision for the UE mobile device based on at least the dispersion analysis. The technology also applies to 3G, 4G and future mobile networks.
US11310728B2

Method, apparatus and computer program product able to determining whether a user equipment in a wireless communications network has applied a stored or acquired system information message of a new system information area within a predefined time, where the user equipment replaced a system information message of an initial system information area with a system information message of another system information area or with a cell-specific system information message of another cell. If the new system information area is equivalent to the system information area of the initial system information area, then the system information message for the initial system information area is applied. If the new system information area is different from the system information area of the initial system information area, then a system information message for that different system information area is applied.
US11310727B2

Disclosed are methods, devices and media for obtaining and for providing access information of wireless access points. The method comprises: searching for wireless access points to obtain identification information of one or more wireless access points; encoding the identification information of the one or more wireless access points according to a preset data short message encoding format to generate a query request data short message; sending the query request data short message to a designated network device; and receiving an access information data short message which is returned by the designated network device in response to the query request data short message and is encoded and generated according to the preset data short message encoding format. Thus, the terminal device is able to access the wireless access point when mobile data is unavailable, and security of information during transmission can also be guaranteed.
US11310717B2

Disclosed in the present application are a relay node selection method and device, which are used to solve the problem of no relay node selection method being available currently for communication modes such as UE-to-Network Relay or UE-to-UE Relay. According to the embodiments of the present application, a first device receives a report message sent by at least one relay node; and the first device selects a target relay node from among the at least one relay node so that a remote terminal establishes a connection with a target node by means of the target relay node.
US11310716B2

A method implemented by a first node of an ad hoc network, including maintaining a routing table containing at least one route available within the network having at least one segment directly linking two nodes of the network by a connectivity link having a type identified in the table, and for each node of a segment, an indication concerning its degree of mobility. The table is maintained based on information extracted from control messages emitted over the network and intended for or traveling through the first node. The method includes: upon sending a data message from the first node to a second node: identifying, by using the table, at least one route between the first and second nodes; and determining a level of stability of each route based on the degree of mobility of the nodes and on the type of connectivity links; and selecting the most stable route.
US11310714B1

Load balancing based on pairing efficiency includes monitoring a pairing efficiency metric of each carrier deployed by an access node, the access node being configured to utilize 5G EN-DC, and offloading wireless devices from a first carrier having a lower pairing efficiency to a second carrier having a higher pairing efficiency. Offloading includes adjusting reference signals associated with 4G and 5G carriers.
US11310707B2

Aspects directed towards Quality of Service (QoS) flow remapping are disclosed. In an example, upon detecting a mapping reconfiguration of a first QoS flow from a first data radio bearer (DRB) to another DRB, a Service Data Adaptation Protocol (SDAP) control protocol data unit (PDU) is generated indicating that a final SDAP data PDU associated with the first QoS flow has been transmitted on the first DRB. The SDAP control PDU is then transmitted via the first DRB. In another example, upon detecting a mapping reconfiguration of a first QoS flow from a first DRB to another DRB, an end marker parameter is set in an SDAP header of a first SDAP data PDU received from an upper layer after the mapping reconfiguration indicating that the first SDAP data PDU is a final SDAP data PDU associated with the first QoS flow transmitted on the first DRB.
US11310706B2

This document discloses a solution for providing a terminal device with one or more candidate cells for link setup. A network node providing the candidate cell(s) may compute a validity window for each candidate cell and indicate the validity window(s) to the terminal device. The terminal device may then perform the link setup with a candidate cell within the respective validity window of the candidate cell.
US11310694B2

Provided are a method and device for receiving downlink data. The method includes: when a terminal is in a target status and receives downlink data sent by a base station, detecting whether the downlink data is successfully received or not and obtaining the detection result; generating target signaling for indicating the detection result; and sending the target signaling to the base station so that the base station resends the downlink data to the terminal when it is determined, according to the target signaling, that the terminal does not successfully receive the downlink data.
US11310691B2

The present invention relates to a method for communicating in a network from a first station to a second station, wherein the first station comprises at least one buffer memory for storing data packets to be transmitted, the method comprising the steps of (a) the first station estimating the status of the at least one buffer memory, (b) the first station transmitting at least one buffer status packet representative of the buffer memory status, wherein the method further comprises (c) adapting the value of a first parameter of the buffer status packets on the basis of a data traffic characteristic.
US11310690B2

Certain aspects relate to methods and apparatus for traffic flow service prioritization in a multi AP (MAP) network.
US11310688B2

To provide information processing devices capable of effectively presenting to a user an action that improves communication quality. The information presenting devices includes: a communication quality acquisition means that acquires current communication quality and communication quality when a user takes an action; an action cost calculation means that calculates a cost of the action; a presentation information calculating means that determines the action, based on the current communication quality, the communication quality when the action is taken, and the action cost; a first presenting means that displays predetermined information about a case where the action is taken; and a second presenting means that acquires an instruction from a user after display by the first presenting means, and then also displays additional information about a case where the action is taken, in addition to the predetermined information.
US11310675B2

Uplink signal transmission method, uplink signal reception method and apparatus thereof and a system. The uplink signal transmission method includes: when a network device configures first information associated with a spatial relation for an uplink signal but the special relation for the uplink signal is not effective, a terminal equipment transmits an uplink signal by using a spatial domain transmission filter the same as that of a transmitted signal or a received signal or using a spatial domain transmission filter associated with a predetermined item in the first information. With this method, the terminal equipment may transmit an uplink signal by using a suitable spatial domain transmission filter in a case where an uplink beam is not determined according to the configuration of the network device.
US11310672B2

A method for assigning a percentage of a CSAT time cycle to each radio node (RN) in a plurality of RNs that belong to a small cell radio access network (RAN) having a central controller includes: (i) for each time cycle period during which the RNs share a channel with one or more nodes that employ a different radio access technology (RAT), assigning a default occupancy percentage of the time cycles to each of the RNs; (ii) determining if the default occupancy percentage is able to be increased without violating one or more co-existence principles pre-established for the RAT employed by the RNs in the RAN and the different RAT; (iii) increasing the occupancy percentage of the first RN if it is determined that the default occupancy percentage is able to be increased without violating the co-existence principles; and (iv) sequentially repeating (ii)-(iii) for each remaining RN in the RAN.
US11310669B2

A system described herein may provide a technique for intercepting user equipment (“UE”) traffic based on granular characteristics specified by a law enforcement agency (“LEA”) or other authorized requestor. The granular characteristics may indicated a content type, keywords, and/or other characteristics that the requestor may desire to intercept. Traffic attributes, which may be different from the granular characteristics, may be identified based on the granular characteristics. Network components suited to intercepting traffic having the identified attributes may be provisioned to intercept the traffic.
US11310668B2

The invention proposes a system and a method for transmitting a message that allows a sender (designated by an identifier) to send a digital content to one or more recipients (designated by one or more identifiers), the content being associated with at least one material subject (each designated by a single authenticator). Thus, to send a message, the sender implements at least one single authenticator of the material subject, discriminant and intrinsic characteristic of each material subject, which serves to anchor the content to transmit. To be able to access the content of the message, the recipient must provide the server not only its identifier, as for any current messaging system, but also a single authenticator with a same material subject that was used at the time the sender created the message. A single authenticator of a material subject may be one or more image(s) of the authentication region of the material subject or any metrics taken from said image(s) and partly characterizing the microstructure of the material subject.
US11310664B2

In one illustrative example, a mobile network extender has a network interface configured to connect with a host router and a cellular modem configured to provide a wireless link for communications via a cellular mobile network. In a pairing process, the extender may establish a secure encrypted channel with the router via the network interface. In a locking process, the extender may receive information from the router and verify the information. Upon verification, the extender may be set in a locked state in which the extender is logically locked to the router. The extender may also receive and store a secret session key from the router, and permit the router to acquire the extender for communications. In the locked state, the extender may permit or deny subsequent router acquisition upon router reconnection based on verifying, using the secret session key, authentication data received via the network interface.
US11310659B2

Presented herein are techniques to facilitate electronic profile management by an enterprise entity in which the enterprise entity can utilize an enterprise infrastructure to provision one or more electronic profiles for one or more enterprise device(s). In one example, a method is provided that may include determining, by a management node of an enterprise network, whether a user equipment (UE) supports an electronic profile capability and a wireless wide area access network connectivity capability; and based on determining that the UE supports the electronic profile capability and the wireless wide area access network connectivity capability, providing, by the management node, at least one electronic profile to the UE via a wireless local area access network of the enterprise network, wherein the at least one electronic profile enables the UE to connect to at least one wireless wide area access network of the enterprise network.
US11310648B2

The present disclosure relates to a pre-5th-Generation (5G) or 5G communication system to be provided for supporting higher data rates Beyond 4th-Generation (4G) communication system such as Long Term Evolution (LTE). Embodiments herein provide a method for triggering a transmission of a UE-to-Network relay indication comprising receiving, by UE, one of UE-to-Network relay criteria broadcasted by a base station, measuring, at the UE, a link quality parameter between the UE and the base station, detecting, by the UE, that the link quality parameter meets the UE-to-Network relay criteria, and transmitting, by the UE, the UE-to-Network relay indication (i.e. discovery message indicating itself as the UE-to-Network relay) on a Device to Device (D2D) discovery channel.
US11310643B2

Various systems and methods for implementing an access control policy that provides subject matching in distributed access control scenarios, such as Internet of Things (IoT) device interconnection settings, are described. In an example, a determining an access control policy with an access evaluator includes: receiving a request from a subject to perform an operation with an object; evaluating the first type of access policy of the subject, and a second type of access policy of the object, to determine a first and second access scope for performing the requested operation; identifying an access control object that provides a mapping between the first access scope and the second access scope for performing the requested operation; and providing access from the subject to the object based on a security level determined from the mapping between the first access scope and the second access scope provided with the access control object.
US11310642B2

Peripheral devices such as wearables can link to mobile devices to access network elements. These peripheral devices can comprise a communication part and a processing part. Each of these parts, specially the processing part of the next item in a communication chain, can be multiple times larger and stronger than the previous linked item. For instance, the peripheral device can be connected to the mobile device which can be in line connected to an NodeB device. Because the processing power of mobile device can be several times stronger than the peripheral, a mobile edge computing platform and a multi-access application function facilitate sharing of processing power capabilities between the peripheral devices, mobile devices, and/or the NodeB devices.
US11310640B2

A method for Vehicle-2-Vehicle communication of a transportation vehicle that enables the transportation vehicle to selectively forward a message concerning channel quality received from another transportation vehicle based on detection of channel quality of the transportation vehicle. A first transportation vehicle receives a first message from a second transportation vehicle including first channel quality information (CQI) related to a first position indicated in the message; compares the first CQI with a second CQI related to a second position, wherein the second CQI is determined by the first transportation vehicle; and selectively transmits a second message having the first CQI and/or the second CQI to a third transportation vehicle based on the comparison of the first CQI and the second CQI.
US11310638B2

A GeoNetworking transmission method of a V2X communication device is disclosed. The GeoNetworking transmission method includes receiving a beacon packet or a single hop broadcast (SHB) packet; configuring location information, the location information including information about at least one neighboring V2X communication device executing a GeoNetworking protocol; determining a forwarder from the neighboring V2X communication devices included in a location table and setting an address of the determined forwarder to a link layer address; and transmitting a GeoNetworking packet to a first service channel (SCH) based on the link layer address.
US11310625B2

An electronic apparatus comprises a communication unit and a controller. The communication unit can communicate with the other side device. The controller performs first processing based on position information indicating a location of the other side device in response to a transmission instruction from a user regarding a telephone communication with the other side device.
US11310621B2

A signal processing device includes one or more filter processors that perform sound localization processing of an input acoustic signal and generate output signals; a coefficient setter that sets, for the filter processors, a plurality of filter coefficients for use in the filter processors; an output data selector that selects, out of the output signals subjected to the sound localization processing by the filter processors, output signals to be output to a left speaker and a right speaker; a time measurer that monitors a time for switching the output signals; and a controller that causes the output data selector to select the output signals in accordance with the time for switching the output signals. The plurality of filter coefficients include filter coefficients generated under a plurality of hearing conditions.
US11310617B2

Provided is a sound field forming apparatus and method to improve reproducibility of a wave front by using a smaller amount of computation. The sound field forming apparatus includes a listener position acquisition section that acquires listener positional information indicating a position of a listener, a drive speaker selection section that selects one or a plurality of speakers, as a drive speaker, used to form a sound field, among the speakers configuring a speaker array on the basis of the listener positional information, and a drive signal generation section that drives the drive speaker and generates a speaker drive signal for forming the sound field in accordance with a selection result of the drive speaker.
US11310611B2

In embodiments of the invention, the invention comprises a light tip cable including a cartridge assembly affixed to a medial end of the cable, the cartridge assembly including an emitter housing where the emitter housing includes an opening at a medial end of the housing and a flange at a lateral end of the housing. In embodiments of the invention, the cartridge assembly includes a light emitting element in the housing extending to the opening, retention features covering at least a portion of the housing, including the flange, the retention features comprising a lateral face and a lobe and at least one load bearing strand extending from the cable to the emitter; and electrical connectors extending from the cable to the light emitting element.
US11310610B2

A hearing aid system includes an implant unit and a sound processor unit. The implant unit may be a transcutaneous bone anchoring stimulator configured to provide an acoustical vibration to the skull of the user wearing the hearing aid system. The implant unit may be cochlear stimulator configured to stimulate neural nerves of the cochlear of the user wearing the hearing aid system. The sound processor unit may be a housing attached to the skin of the user and attached to the implant unit by a magnetic force.
US11310607B2

A method of operating a hearing aid system comprising a hearing aid (300) wherein a digital filter (302) is adapted to be of minimum phase and to provide a frequency dependent target gain.
US11310605B2

A device to transmit an audio signal comprises at least one light source configured to transmit the audio signal with at least one wavelength of light. At least one detector is configured to detect the audio signal and generate at least one electrical signal in response to the at least one wavelength of light. A transducer is supported with and configured to vibrate at least one of an eardrum, an ossicle or a cochlea. Active circuitry is coupled to the transducer to drive the transducer in response to the at least one electrical signal, so as to provide the user with high quality sound.
US11310599B2

A method captures binaural sound of a voice of a first user with microphones located at left and rights ears of a dummy head. The dummy head transmits the voice of the first user to a portable electronic device with or near the first user. This portable electronic device transmits the binaural sound over one or more networks to another electronic device being used by a second user to communicate with the first user during the electronic call.
US11310595B2

An audio adapter with a frequency modulation (FM) radio function is provided. The audio adapter includes an audio jack, an FM processing circuit, an audio codec, a digital interface, a memory and a processing unit. The FM processing circuit is configured to receive an FM signal through the audio jack and process the FM signal to generate an FM audio. The audio codec is configured to receive the FM audio and output an analog output audio containing the FM audio through the audio jack. The digital interface transmits power. The memory is configured to store multiple codes or program instructions. The processing unit is configured to execute the codes or program instructions to control the FM processing circuit to search for FM channel(s).
US11310576B2

A display apparatus includes a display panel which displays an image and a vibration member attached to a surface of the display panel, where the vibration member receives a sound signal, generates a vibration in response to the sound signal, and transfers the vibration to the display panel to allow the display panel to output a sound.
US11310570B2

Disclosed herein are multi-layer wavelength-division multiplexing (WDM) devices that include a first optical signal router to route first demultiplexed signals from a common layer to a first channel layer and a second optical signal router to route second demultiplexed signals from the common layer to a second channel layer.
US11310569B2

Data center interconnections, which encompass WSCs as well as traditional data centers, have become both a bottleneck and a cost/power issue for cloud computing providers, cloud service providers and the users of the cloud generally. Fiber optic technologies already play critical roles in data center operations and will increasingly in the future. The goal is to move data as fast as possible with the lowest latency with the lowest cost and the smallest space consumption on the server blade and throughout the network. Accordingly, it would be beneficial for new fiber optic interconnection architectures to address the traditional hierarchal time-division multiplexed (TDM) routing and interconnection and provide reduced latency, increased flexibility, lower cost, lower power consumption, and provide interconnections exploiting scalable optical modular optically switched interconnection network as well as temporospatial switching fabrics allowing switching speeds below the slowest switching element within the switching fabric.
US11310568B2

Systems and methods for providing preview samples of media content, such as early window movies, which is secure against unauthorized copying of the media content. The system includes a media receiving server configured to receive secure media content, such as early window movies, from a movie provider. The media receiving server generates a preview sample including a video sample including a series of still digital images from the video file, each separated by a time interval in the video file from the other still digital images in the series of still digital images; and an audio sample including a series of audio clips from the video file, each separated by a time interval in the video file from the other audio clips in the series of audio clips. A customer of the media content can review the sample preview on a customer portal, but cannot access the original media content.
US11310560B2

Methods and apparatuses for extracting and merging bitstreams. An apparatus includes a communication interface and a processor. The communication interface receives a plurality of bitstreams for a video and a processor. The processor identifies information about independently coded regions in each of the plurality of bitstreams, receives a region of interest in the video, selects, based on the identified information, one or more independently coded regions in each of the plurality of bitstreams that corresponds to the region of interest, and extracts the selected independently coded regions to generate one or more extracted bitstreams.
US11310559B2

Embodiments of the present disclosure disclose a method and apparatus for recommending a video. A specific implementation of the method includes: finding a recommended video corresponding to a target video from all candidate videos based on similarities of content characteristics of the videos, the target video being a video to be played on a terminal of a user; and sending play information of the recommended video corresponding to the target video to the terminal of the user. The method finds a video similar on video content to the target video that the user desires to view based on the content characteristic of the video, and recommends the video similar on video content to the target video that the user desires to view to the user.
US11310554B2

The disclosure includes a method of generating and presenting non-processed streaming audio data and non-processed streaming video data to a first viewer and a second viewer. The method may include presenting, via a commercial television display unit, the non-processed streaming video data to at least one of the commentator, the first viewer, and the second viewer. The method may include generating the non-processed streaming audio data related to the live event by the commentator, and transferring the non-processed streaming audio data via an Internet to the first viewer and the second viewer. Also, the method may include providing the first viewer and the second viewer with a capability to synchronize a video presentation time of the non-processed streaming video data with an audio presentation time of the non-processed streaming audio data.
US11310533B2

An example method includes decoding, from an encoded video bitstream, a sequence parameter set (SPS) referred to by one or more pictures of video data, wherein decoding the SPS comprises: parsing, at a first position in the SPS, a syntax element that indicates whether joint coding of chroma residuals is enabled or disabled for the one or more pictures of video data referring to the SPS; and parsing, at a second position in the SPS that is after the first position, one or more syntax elements representing a quantization parameter (QP) mapping table.
US11310527B2

The present invention is related to processing a video signal. A method for decoding a video according to the present invention may comprise generating a prediction block of a current block by performing intra prediction, deriving at least one sample position based parameter based on a position of a first prediction sample in the prediction block, and obtaining a second prediction sample by weighted predicting the first prediction sample based on the at least one sample position based parameter. According to the present invention, encoding/decoding efficiency of a video signal can be improved since intra prediction is performed more accurately.
US11310512B2

An image decoding method according to the present invention includes: receiving information on a set of reference pictures for configuring a set of reference pictures of a current picture, wherein the information on the set of reference pictures includes the most significant bit (MSB) information that may calculate the MSB of the picture order count (POC) of a long-term reference picture relative to the current picture, and flag information that represents whether there is MSB information; and eliciting the set of reference pictures by using received MSB information when the flag information is 1, and performing marking on the reference picture, wherein the flag information may be 1 when a temporal sub-layer identifier is 0, and there is at least one POC value for which a remainder obtained by dividing by a maximum value MaxPicOrderCntLsb capable of being represented by the LSB is the same as the least significant bit (LSB) of the POC of the long-term reference picture, in a set of POCs of a previous picture including POC values related to the previous picture that may not be discarded without affecting whether other pictures of the same temporal layer may be decoded.
US11310497B2

An example device for decoding video data includes a memory configured to store the video data and one or more processors implemented in circuitry and coupled to the memory. The one or more processors are configured to determine a first distance index associated with a first geometric partition mode (GEO) angle for a first prediction unit (PU) of the video data to be 4. The one or more processors are configured to determine a first displacement value based on the first distance index, the first displacement value being indicative of a distance from a center of the first PU to a GEO split. The one or more processors are configured to decode the first PU based on the first GEO angle and the first displacement value. The first displacement value is half of a displacement value associated with a distance index of 2.
US11310492B2

There is included a method and apparatus comprising computer code configured to cause a processor or processors to perform parsing at least one video parameter set comprising at least one syntax element indicating whether at least one layer in the scalable bitstream is one of a dependent layer of the scalable bitstream and an independent layer of the scalable bitstream, decoding a picture in the dependent layer by parsing and interpreting an inter-layer reference picture list, and decoding a picture in an independent layer without parsing and interpreting the inter-layer reference picture list.
US11310491B2

An encoder includes memory and circuitry. The circuitry, using the memory, (i) selects a mode from among a plurality of modes each for deriving a motion vector, and derives a motion vector for a current block via the selected mode, and (ii) performs inter prediction encoding on the current block, using the derived motion vector, via one of a skip mode and a non-skip mode different from the skip mode. The plurality of modes include a plurality of first modes each for predicting the motion vector for the current block based on an encoded block neighboring the current block without encoding information indicating a motion vector into a stream. When a second mode included in the plurality of first modes is selected, the current block is encoded via the non-skip mode regardless of presence or absence of a residual coefficient.
US11310489B2

The present invention discloses a method, an apparatus, and a system for implementing video quality assessment. When video quality is assessed, a proportion of a damaged data caused by packet loss in a video frame in which the damaged data is located is considered, and other factors are also considered, such as a position of the damaged data in the video frame and impact of a scene in which the video frame is located on the video frame or a video frame located after the video frame. Therefore, accuracy of quality assessment is higher.
US11310488B2

In a method of operating an image sensor, the image sensor includes a pixel array and a plurality of column driving circuits that are connected to a plurality of columns of the pixel array. A test operation is performed by applying a test pattern to the plurality of column driving circuits while changing a level of a well-bias voltage applied to a transistor included in the plurality of column driving circuits. A bias setting operation for setting the level of the well-bias voltage is performed based on a result of the test operation. An image capture operation for detecting incident light and generating a frame image is performed based on the pixel array, the plurality of column driving circuits and the well-bias voltage set by the bias setting operation.
US11310486B2

Three dimensional [3D] image data and auxiliary graphical data are combined for rendering on a 3D display (30) by detecting depth values occurring in the 3D image data, and setting auxiliary depth values for the auxiliary graphical data (31) adaptively in dependence of the detected depth values. The 3D image data and the auxiliary graphical data at the auxiliary depth value are combined based on the depth values of the 3D image data. First an area of attention (32) in the 3D image data is detected. A depth pattern for the area of attention is determined, and the auxiliary depth values are set in dependence of the depth pattern.
US11310483B2

An HMD includes a six-axis sensor, a magnetic sensor, and a head motion detecting section that detect at least one of the position and motion of a head, a reference setting section that sets a reference state based on at least one of the head position and motion detected by the head motion detecting section, and a display controlling section that changes the display state of a content displayed by the display section based on changes in the position and motion of the head with respect to those in the reference state. The content is formed of a plurality of contents, and the display controlling section changes the display state of the contents displayed by an image display section in such a way that the relative display positions of the contents are maintained.
US11310479B2

A method for depth mapping includes projecting a pattern of optical radiation into a volume of interest containing an object while varying an aspect of the pattern over the volume of interest. The optical radiation reflected from the object responsively to the pattern is sensed, and a depth map of the object is generated based on the sensed optical radiation.
US11310476B2

Example embodiments relate to a virtual reality image playing device playing a plurality of virtual reality images to improve the quality of a predetermined area, the virtual reality image comprising, an image input module configured to receive the plurality of virtual reality images stitched from an original image created to realize virtual reality, a multi-rendering module configured to render the plurality of virtual reality images, a synchronization module configured to generate sync information to synchronize the plurality of virtual reality images and an image playing module configured to use the sync information to play the plurality of synchronized virtual reality images.
US11310465B1

A video conference terminal, comprises a camera device configuring to collect conference video of the video conference terminal; a smart terminal configuring to realize data interaction and information processing with other video conference terminals, transmit conference information to a projection device in real time, and display content of the video conference terminal on splitting screens; the projection device enlarges and displays the conference information sent by the smart terminal and Internet realizes connections of a plurality of video conference terminals. And a video conference system, comprises a control module configuring to process images and voices and realize split-screen display according to the information of images and voices; a conference module configuring to start up a conference mode according to information received by a receiving/sending module; the receiving/sending module is configured to receive and send information, and send the information to the conference module or the control module.
US11310455B2

An image sensor and electronic apparatus comprise a pixel circuit configured to generate an analog signal; a vertical signal line configured to convey the analog signal from the pixel circuit; an analog amplifier circuit configured to receive the analog signal via the vertical signal line and generate an amplified signal; and a tail current boost circuit configured to modify an instantaneous gain bandwidth product of the analog amplifier circuit by temporarily modifying a tail current of the analog amplifier circuit.
US11310446B2

An imaging device includes an optical system, a plurality of imaging elements, an imaging unit, a comparison unit, and a correction unit. The optical system is configured to disperse light of a subject image. The imaging elements are configured to capture subject images dispersed by the optical system using a rolling shutter method. The imaging unit is configured to shift a slit range, which is between a front curtain and a rear curtain of the rolling shutter method, by at least one line in a sub-scanning direction between the plurality of imaging elements. The comparison unit is configured to calculate a level difference in units of lines between image signals output by the plurality of imaging elements by comparing signal levels of the image signals, and the correction unit configured to correct influence of a flash band on the image signals on the basis of the level difference.
US11310435B2

An image pickup apparatus that is capable of preventing hunching certainly at low cost and of switching between the day mode and the night mode at an optimal timing. An image sensor outputs an image signal depending on an optical image formed through an image pickup optical system. A mode setting unit sets a photographing mode for photographing using the image sensor from among a day mode and a night mode in which sensitivity for a wavelength range corresponding to infrared light is higher than that in the day mode. An obtaining unit obtains ratio information about the ratios of the infrared light and visible light based on the image signal in the night mode. A condition setting unit sets a determination condition that is used for switching the photographing mode to the day mode from the night mode based on the ratio information.
US11310434B2

An image sensor, a camera module, and an electronic device are provided. The image sensor includes a pixel array and a control circuit. The pixel array includes a light sensing area and an imaging area. The light sensing area is configured to detect an illumination intensity, and the imaging area is configured to acquire an image. The control circuit is configured to receive a first instruction to control the light sensing area to detect an illumination intensity, and to receive a second instruction to control the imaging area to acquire an image.
US11310428B2

A camera shooting method and a mobile terminal are provided. The mobile terminal includes a dual camera module and a motion sensor connected with the dual camera module, the motion sensor is configured to detect an angular velocity and/or acceleration, two cameras in the dual camera module constitutes respective anti-shaking components along with the motion sensor, so as to use the same motion sensor to collect shaking information of the mobile terminal. Thus, the dual camera module of the mobile terminal may collect the shaking information of the mobile terminal by using the same motion sensor, so that each camera of the dual camera module has an anti-shaking function.
US11310426B2

The present technology relates to a control device, a controlling method, and an imaging apparatus that make it possible to reduce a weight of a movable body while simplifying a structure and to improve control accuracy. A moving body that moves in two or more directions, and a controller that controls movement of the moving body are provided. The controller sets a control value directed to controlling of the movement of the moving body on the basis of an initial position of the moving body and an instructed position of the moving body. A parameter directed to setting of the control value is set on the basis of the initial position and the instructed position. The present technology is applicable, for example, to a shake correction device that corrects a hand shake of an imaging apparatus or a technique that achieves super-resolution by shifting a sensor to capturing a plurality of images.
US11310422B2

An imaging apparatus comprises a first correcting unit configured to correct image blur by driving at least one of a panning driver that rotates an imaging unit including an imaging optical system and an image sensor in the horizontal direction, and a tilting driver that rotates the imaging unit in the vertical direction; a shake detection unit configured to detect shake; a calculation unit configured to calculate an amount of image blur correction in accordance with the shake detected by the shake detection unit; and a determination unit configured to determine a driving range required by the panning driver or the tilting driver in order to correct an image blur, in accordance with the amount of image blur correction and a mechanical driving end of the panning driver or the tilting driver.
US11310421B2

A day-mode-night-mode switching method is applied to a monitoring camera apparatus or a filter switching module. The monitoring camera apparatus is electrically connected to an supplemental lighting apparatus for light compensation. The day-mode-night-mode switching method can include acquiring an equivalent exposure parameter of the monitoring camera apparatus, determining whether the equivalent exposure parameter conforms to a first mode switching condition when the monitoring camera apparatus is in a night mode, computing a light compensation exposure parameter of the monitoring camera apparatus when the equivalent exposure parameter conforms to the first mode switching condition, utilizing a compensation parameter acquired by the light compensation exposure parameter to transform the equivalent exposure parameter into a predicted exposure parameter, and switching modes of the monitoring camera apparatus according to a determination of the predicted exposure parameter and the first mode switching condition.
US11310419B2

A service system includes a mobile terminal and an information processing device capable of communication via a network. The mobile terminal includes a first transmission unit that transmits spherical images taken in respective imaging locations and positional information about the imaging locations to the information processing device. The information processing device includes a reception unit that receives the spherical images transmitted by the first transmission unit; a map data obtaining unit that obtains map data from a map data storage, the map data including the imaging locations of the spherical images; a path information creation unit that creates information about a path made by connecting the imaging locations in the map data obtained by the map data obtaining unit; and a content providing unit that makes content available for a request through the network, the content including the map data, the information about the path, and the spherical images.
US11310413B2

A single user input element in an image capture device is used for both photo and video capture. Based on a first user interface activity, a timing reference is engaged at a first reference time. In a first case, photo capture is performed. In the first case, a second reference time is based on a second user interface activity, and the timing reference indicates a passage of time between the two reference times is shorter than a particular time interval. In a second case, video capture is performed. In the second case, the timing reference indicates a passage of time since the first reference time is equal to or longer than the particular time interval. Video capture is stopped based on a subsequent user interface activity. The user interface activities may comprise detecting actions based on the same type of physical manipulation of the single user input.
US11310412B2

Apparatuses and methods for focusing a camera are disclosed. For example, an apparatus may be coupled to a camera for focusing the camera. The apparatus includes a vision sensor coupled to a processor and configured to capture a view. The processor configured to receive a selection of an area of interest in the view. The apparatus further includes a distance measurement unit coupled to the processor and configured to measure a distance to the area of interest for adjusting the camera's focus.
US11310411B2

Image quality of a depth map is improved in a distance measuring device for receiving intermittent light. In a pixel array unit, a plurality of pixels for receiving predetermined intermittent light is arranged in a two-dimensional lattice pattern. A continuous light image data generating unit generates continuous light image data in which a plurality of pieces of pixel data indicating a luminance of predetermined continuous light is arranged in a two-dimensional lattice pattern on the basis of received light data of each of the plurality of pixels. A depth map generating unit generates a depth map in which distance information corresponding to each of the plurality of pixels is arranged, from the received light data and the continuous light image data.
US11310410B2

An image capturing apparatus is provided with an image sensor having phase difference detection pixels for performing focus detection, an exposure control unit for causing at least the phase difference detection pixels to perform a plurality of accumulations whose exposure periods are a second exposure period shorter than a first exposure period which is a target for obtaining a main image by the image sensor, and a prediction unit for predicting an in-focus position of a subject based on signals of at least two phase difference detection pixels obtained by at least two accumulations among the plurality of accumulations whose exposure periods are the second exposure period.
US11310408B2

In a camera body, a VBAT terminal and PGND terminal are both disposed adjacent to a TYPE terminal. In a case where the voltage of the TYPE terminal is a voltage of a first voltage range that does not include the VBAT voltage and does not include the voltage of the PGND terminal, a camera control unit distinguishes the mounted lens apparatus to be a first lens apparatus. In a case where the voltage of the TYPE terminal is a voltage of a second voltage range that is a voltage range different from the first voltage range, does not include the VBAT voltage and does not include the voltage of the PGND terminal, the camera control unit distinguishes the mounted lens apparatus to be a second lens apparatus.
US11310407B2

A vehicular camera assembly includes a housing, a PCB disposed in the housing, a circuit board connector at the PCB, and a coaxial connector having a core connector element and a shield connector element that at least partially circumscribes the core connector element. The PCB includes circuitry associated with an imager of the vehicular camera assembly. The circuit board connector includes a first connector element and a second connector element. The housing includes a vehicle connector portion configured for connecting to a connector end of a vehicle cable. When a first end of the coaxial connector is electrically connected to the circuit board connector, the core connector element of the coaxial connector electrically connects to the first connector element of the circuit board connector and the shield connector element of the coaxial connector electrically connects to the second connector element of the circuit board connector.
US11310404B2

An imaging device, an imaging control method, an electronic apparatus, and a readable medium. The imaging device comprises: an image sensing assembly; a liquid crystal lens assembly provided with light control components corresponding to an image sensing component, wherein each of the light control components comprises a first liquid crystal component and a second liquid crystal component, which are arranged opposite each other, and the orientation of liquid crystal molecules in the first liquid crystal component is perpendicular to the orientation of liquid crystal molecules in the second liquid crystal component; and a processing assembly, wherein the processing assembly is respectively electrically connected to the image sensing assembly and the liquid crystal lens assembly, and is configured to adjust, according to a light receiving amount measured by the image sensing assembly, the voltage applied to the light control component.
US11310398B2

An integrated hands-free, point of view, action-sports, digital video camera (or camcorder) (10) includes: a rotary horizon adjustment controller (14) for adjusting the orientation of a horizontal image plane (16) recorded by an image sensor with respect to the orientation of a camera housing (22); a laser alignment system with laser sources (48) capable of projecting light to define a horizontal projection axis (52) that is coordinated with orientation of the horizontal image plane (16); a manually operable switch (80), which covers a microphone (90) whenever the switch (80) is in the OFF position, for controlling video data capture; and a “quick-release” mounting system (120) that retains a desired orientation of the camera (10).
US11310391B2

An image forming apparatus is provided. The image forming apparatus includes a print engine to be used to perform an image forming job, a motor to start the print engine, a driving circuit to supply a power to the motor and to include a sensor to sense a size of current of the power supplied to the motor during an operation to perform the image forming job, and a processor to detect an occurrence of jam based on a size of current sensed by the sensor in a first time interval while the motor is driven and a size of current sensed by the sensor after a determined time from the first time interval.
US11310385B1

A divider separates an enclosure into separate compartments that are shaped and sized to maintain sheets of media. A connector is positioned at a first end of the enclosure and the connector is shaped to connect to a document handler. The compartments are positioned to supply and receive the sheets of media to and from the document handler when the enclosure is connected to the document handler. A cover is positioned at the first end of the enclosure. The cover is adapted to open and close and allows access to the compartments. A lock is connected to the cover. The lock maintains the cover in a closed position when locked.
US11310377B2

An information processing terminal and an information processing system. The information processing terminal displays on a display, a plurality of screens in a sequential order, one or more of the plurality of screens being configured to receive a user operation, displays on the display, a symbol indicating degree of progress of the user operation on the plurality of screens, and at least one object for receiving a screen transition request that requests transition from one screen to another screen of the plurality of screens in the sequential order, and changes appearance of the symbol indicating the degree of progress of the user operation in response to the transition request.
US11310372B2

A service providing system includes a device; and an information processing system. The information processing system stores each user of the information processing system and each user of an external service system in association with each other. The device accepts a specification of a first application and a user of the information processing system; acquires data for which a user of the external service system, associated with the user of the information processing system, has an authority, among data relating to the first application included in the external service system; displays a screen to accept a selection of one piece of data from the acquired data; accepts the one piece of data for which the selection is accepted via the screen; and requests the external service system to store information acquired by the device in association with the accepted one piece of data.
US11310369B2

When a multifunction peripheral (MFP) that notifies guidance indicating how to resolve an abnormal state that occurs in itself detects the abnormal state, the MFP notifies a log-in user of the MFP of guidance according to the combination of the detected abnormal state and authority of the log-in user of the MFP.
US11310365B2

Method starts with processing, by processor, receiving audio signal of communication session between member-related client device and agent client device. Processor processes audio signal to generate caller utterances, each including audio caller utterance and transcribed caller utterance. Caller utterances includes first and second caller utterances. For each of the plurality of caller utterances, processor generates relationship data based on transcribed caller utterance, generates identified task based on transcribed caller utterance, and generates task completion probability result based on audio caller utterance, relationship data, and identified task, and stores the task completion probability result in a database. Processor computes agent action ranking score that is based on difference between task completion probability result of first caller utterance and task completion probability result of second caller utterance that precedes first caller utterance. Processor generates agent action result including the agent action ranking score. Other embodiments are disclosed herein.
US11310362B2

A method of voice call diversion includes detecting an incoming voice call communication from a calling device, identifying an alternate communication option, providing the alternate communication option to the calling device, detecting a selection of the alternate communication option from the calling device, and diverting the incoming voice call communication so as to utilize the selected alternate communication option.
US11310354B2

A foldable electronic device is disclosed, the electronic device including a first housing and a second housing adjacent to the first housing; a hinge unit configured to connect the first housing and the second housing; a flexible touch display disposed across the first housing and the second housing; at least one sensor configured to detect an angle formed by the first housing and the second housing; a processor operatively connected with the flexible touch display and the at least one sensor; and a memory operatively connected with the processor, and the memory stores instructions that, when executed, cause the processor to determine whether the first housing and the second housing are in an unfolding state by using the at least one sensor; when the first housing and the second housing are in the unfolding state, set a touch sensitivity of the flexible touch display to a first state; determine a change of the angle formed by the first housing and the second housing by using the at least one sensor; and when the angle is being changed, change the touch sensitivity of the flexible touch display to a second state which is lower than the first state.
US11310346B2

A system and method is provided that generates a game log that specifies game events during gameplay to enable efficient distribution of video game playback, facilitates the annotation of gameplay through content from users and others, and generates a video game stream that includes the game log and content. The system facilitates the efficient sharing of video game playback, as well as annotations from users and others. For example, e-sportscasters may use the system to broadcast video game playback with their commentary and/or graphical overlays. Video game players may use the system to share video game playback efficiently with other users. The system may also facilitate the sharing of loadout conditions and micro-transactions relevant to video game playback.
US11310340B2

Methods and systems for routing a user request for a service to a version of the service in a geographical region associated with the user are described herein. The service may be deployed in multiple geographical regions, and the service may have multiple versions in each of the geographical regions. A user device may send a request for a service to a first server in a geographical region. The first server may determine whether the user is associated with the geographical region. Responsive to determining that the user is not associated with the geographical region, the first server may ask one or more servers in other geographical regions whether the user is associated with any of the other geographical regions.
US11310332B2

Provided is an intelligent prefetcher for prefetching media content segments following a non-sequential naming convention. The prefetching is initiated in response to a server receiving a user request for a particular segment that is not cached. The server passes the request to an origin. The origin scans metadata of a file from which the particular segment is produced. The scanning identifies time or frame offsets for subsequent segments to be prefetched. The origin constructs the requested segment and includes in the segment header, identifiers corresponding to the offset of each subsequent segment selected for prefetching. The segment passes to the server. The server detects the modified header and generates prefetch requests based on each identifier in the modified header. The server issues the prefetch request to the origin and caches the prefetched segments returned by the origin for distribution in response to subsequent user requests for the prefetched segments.
US11310327B2

A collection configuration management system can be used to manage one or more monitoring objects, such as tags, included in one or more content objects. The collection configuration management system can compartmentalize monitoring object configurations into a monitoring object bundle that may be executed as a result of loading the one or more content objects. The monitoring object bundle can be generated to include one or more monitoring objects, as well as monitoring object management loader functionality.
US11310323B2

This application provides a message processing method, an apparatus, and a system. The method includes: establishing a first HTTP interaction procedure between a first network element and a second network element; sending, by the first network element, a first request message to the second network element in the first HTTP interaction procedure; before the first network element receives a first response message for the first request message in the first HTTP interaction procedure, initiating, by the second network element, establishment of a second HTTP interaction procedure between the first network element and the second network element; and receiving, by the first network element, a second request message sent by the second network element. The first network element performs an operation on the second request message based on a relationship between the first HTTP interaction procedure and the second HTTP interaction procedure.
US11310320B2

A method for Procedure Transaction Identity (PTI) error handling on 5G Session Management (5GSM) procedures is proposed. If a User Equipment (UE) receives a PDU SESSION AUTHENTICATION COMMAND or PDU SESSION AUTHENTICATION RESULT message in which the PTI value is an assigned value, the UE transmits a 5GSM STATUS message including 5GSM cause #81 “invalid PTI value”. If the UE receives a PDU SESSION ESTABLISHMENT ACCEPT or REJECT message, a PDU SESSION MODIFICATION COMMAND or REJECT message, or a PDU SESSION RELEASE COMMAND or REJECT message in which the PTI value is an unassigned value, the UE ignores the received message. If the UE receives any 5GSM message in which the PTI value is a reserved value, the UE ignores the received 5GSM message.
US11310319B1

A control system for controlling a networked system of multiple individually addressable devices, such as lighting devices, each having a logical address based on a network addressing scheme, each lighting device being connected to a computer network through a cable that transmits electric power for powering one or more lighting elements of the lighting device and hierarchical control data for addressing and controlling the lighting device. Each lighting device includes a controller for receiving the hierarchical control data and controlling a state of the one or more lighting elements in accordance with the control data.
US11310316B2

Methods, devices and computer program products for storing and accessing data are provided, and can effectively improve the performance and scalability of a storage system. For example, a method comprises sending, at a client device and to a seed server of a plurality of servers communicatively coupled to the client device, a request for storing data; receiving a response to the request from the seed server, the response comprising an indication on at least one server of the plurality of servers for storing the data into a target storage device; and sending, to the at least one server, at least one request for storing the data into the target storage device, such that the at least one server stores the data into the target storage device.
US11310312B2

Methods, systems, and computer-readable media for peer to peer discovery of remote applications are presented. A client device may discover available remote peers and remotely access applications hosted thereon. The client device may send a discovery message over a network and locate one or more peer devices with available remote access. The peer device may respond with a list including applications installed and currently executing application instances that the client device may remotely access. The peer device may dynamically generate the list based on analyzing applications installed on the peer device and application instances executing on the peer device. The client device may initiate remote access of a selected application hosted on the peer device. The peer device may execute the selected application in a remote mode by hooking input and output interfaces associated with the application, and the application may be executed in a shadow desktop environment. These and other features will be discussed further herein.
US11310311B2

An example operation may include one or more of receiving a request to access a file from a user node, by a file processor node, generating, by the file processor node, a file storage plan based on a distribution of file chunks throughout a peer-to-peer network, authenticating, by the file processor node, the user node based on blockchain credentials, acquiring, by the file processor node, a permission to access the file from a file owner node, and sending the file storage plan to the user node.
US11310309B1

Systems and methods are described for implementing an “arc jump” technique in conjunction with bounded loads in consistent hashing. In general, bounded loads refers to limiting the ability of a single device within a distributed system to store data objects, such that when a request to store a new data object would otherwise be directed to that device, it is instead redirected to an alternative device. Redirecting all requests to a single alternative device can lead to cascading failures, as the alternative device must maintain its own load and that which has been redirected to it. Embodiments of the present disclosure address this by determining an alternative device on a per-object basis, such as by again hashing the object with an additional seed value. This distributes request from an overloaded device among all other devices of the distributed system, avoiding cascading failures.
US11310307B2

Systems and methods involving processing and/or mirroring data in real time involving one or more mobile devices and a plurality of NFC-connected interactive posters are disclosed. In one embodiment, an exemplary computer-implemented method may comprise: connecting a user mobile computing device to a server as well as coupling the device to a plurality of interactive posters via NFC; receiving user selections made on the interactive posters; processing content data related to the posters based on the user selections and/or other information; generating a GUI comprising interactive simulations corresponding to respective posters and/or statistics related to selections made on the posters; tracking, in real time, a specific experience of a user interacting with the posters; and transmitting, in real-time, data regarding the specific experience to the server.
US11310304B1

Embodiments of systems and methods for managing an Information Handling System (IHS) using a workspace orchestration system are described. In an illustrative, non-limiting embodiment, an IHS may include computer-executable instructions to, for each of a plurality of workspaces instantiated on the IHS, upon receiving a request to launch a web application from an online server; determine one or more native APIs that the web application is restricted from using. When the web application request access to one of the restricted native APIs, the instructions reject the request, and when the web application request access to one of a web API, the instructions accept the request. The web API and the native API are associated with the same peripheral device.
US11310303B2

Aspects of the disclosure provide methods, apparatuses, and non-transitory computer-readable storage mediums for receiving media data. One apparatus includes processing circuitry that receives a media presentation description (MPD) file that includes an MPD event indicating a plurality of branches of a story map. The processing circuitry receives a user selection of one of the plurality of branches of the story map during an active duration of the MPD event. The user selected branch corresponds to a next period that is connected to a current period. The processing circuitry receives, from a server, media data of the next period corresponding to the user selected branch.
US11310285B2

Adaptive network security policies can be selected by assigning a number of risk values to security intelligence associated with network traffic, and identifying a number of security policies to implement based on the risk values.
US11310280B2

Access is temporarily allowed to selected enterprise resources. A request to carry out an action is received from a private device. The private device is associated with an enterprise device, which has one or more enterprise policies in place. One or more steps for carrying out the requested action are defined, and it is determined that at least one policy from the enterprise policies is required for at least one of the steps. It is also determined that the at least one policy is in place on the private device. The private device is then allowed to carry out the requested action according to the at least one policy.
US11310279B2

Access is temporarily allowed to selected enterprise resources. A request to carry out an action is received from a private device. The private device is associated with an enterprise device, which has one or more enterprise policies in place. One or more steps for carrying out the requested action are defined, and it is determined that at least one policy from the enterprise policies is required for at least one of the steps. It is also determined that the at least one policy is in place on the private device. The private device is then allowed to carry out the requested action according to the at least one policy.
US11310276B2

Evaluating a plurality of computers hosting a cloud platform for effectiveness at operating through operational failures with minimal or no degradation to operations by identifying vulnerabilities in hardware, firmware, software and operational policy/plan aspects of the plurality of computers and managing the identified vulnerabilities by modifying hardware, firmware, software, and operational policy/plan aspects of the plurality of computers and the hosted cloud platform to improve effectiveness at operating through operational failures with minimal or no degradation to operations.
US11310273B2

A system and architecture for containing unique protocols to establish multiple layers of secure communication within a network. Secure data is aggregated, and containers are assigned specific communication ports to maintain distinct, secure communication channels over a single network connection. Each security level is defined by a tenant; each tenant is assigned a unique range of ports for use over the network.
US11310264B2

A variety of techniques are disclosed for detection of advanced persistent threats and similar malware. In one aspect, the detection of certain network traffic at a gateway is used to trigger a query of an originating endpoint, which can use internal logs to identify a local process that is sourcing the network traffic. In another aspect, an endpoint is configured to periodically generate and transmit a secure heartbeat, so that an interruption of the heartbeat can be used to signal the possible presence of malware. In another aspect, other information such as local and global reputation information is used to provide context for more accurate malware detection.
US11310263B1

The innovation disclosed and claimed herein, in one aspect thereof, comprises systems and methods of reconfiguring network settings. The systems and methods monitor a network and detect a hacker on a network. The systems and methods can reconfigure network settings of the network upon detecting the hacker. The systems and methods can analyze the hack for severity; and determine a reconfiguration layer based on the severity of the hack. The reconfiguration layer determines a subset of the network settings to be reconfigured. The systems and methods can dismantle the network and generate a replacement network having the reconfigured set of network settings and replace the network with the replacement network.
US11310260B2

Embodiments described herein may be directed to systems, methods, apparatuses, devices, computer program products, computer-executable instructions, and/or applications for securely and anonymously accessing web resources and customizable attribution of identity. In accordance with the present disclosure, a user may inspect and analyze a webpage as well as the underlying source code from an “arm's length” using a secure analysis application to prevent exposure on the user's local machine. The secure analysis application may provide increased flexibility in masking and/or modifying the user's digital persona to external websites. Additionally, the secure analysis application may be integrated with a translation service to translate textual web content without the web content provider being alerted that a translation is taking place.
US11310256B2

Embodiments are directed to monitoring network traffic using network monitoring computers (NMCs). Networks may be configured to protect servers using centralized security protocols. Centralized security protocols may depend on centralized control provided by authentication control servers. If a client intends to access protected servers it may communicate with the authentication control server to obtain keys that enable it to access the requested servers. NMCs may monitor network traffic the centralized security protocol to collect metrics associated with the control servers, clients, or resource servers.
US11310253B1

A computer-implemented method for detecting anomalous behavior of one or more computers in a large group of computers comprises (1) receiving log files including a plurality of entries of data regarding connections between a plurality of computers belonging to an organization and a plurality of websites outside the organization, each entry being associated with the actions of one computer, (2) applying a first plurality of algorithms to determine features of the data which may contribute to anomalous behavior of the computers, and (3) applying a second plurality of algorithms to determine which computers are behaving anomalously based upon the features.
US11310251B2

Techniques described and suggested herein include various systems and methods for determining risk levels associated with transiting data, and routing portions of the data in accordance with the determined risk levels. For example, a risk analyzer may apply risk classifiers to transiting data to determine overall risk levels of some or all of the transiting data. A traffic router may route transiting data according to determined risk profiles for the data. A sandbox may be implemented to compare, for a given input, expected and observed outputs for a subset of transiting data, so as to determine risk profiles associated with at least the subset.
US11310232B2

There are provided a network identity authentication method, a network identity authentication system, a user agent device used in the network identity authentication method and the network identity authentication system, and a computer-readable storage medium. The network identity authentication method includes: acquiring, by a user agent, identity information and a registration rule of a target website via a network terminal; acquiring registration information for the target website based on the identity information or generating registration information for the target website according to the registration rule; transmitting the identity information and the registration information to a server agent and sending, by the server agent based on the identity information and the registration information, an authentication request to a website server to complete an authentication process.
US11310226B2

There are provided systems and methods for gesture and motion detection using a device radar component for user authentication. A user's device may include a miniaturized radar component that is capable of detecting objects, gestures, and motions within an area around the device in a three-dimensional manner, such as a user hand, arm, or other body part that may perform a motion or gesture. A service provider, application, or another user may generate and transmit an authentication request to the user that may include some query for the user to perform one or more actions or gestures. The user may perform the actions or gestures in response to the query, which may be detected by the radar component and processed to determine whether to authenticate the user. In some embodiments, the gesture may be performed using a virtual projection or real objects in the environment nearby the device.
US11310225B2

The disclosure relates to user-centric access to blockchain-based services accessed through a telecom network. User devices may each include a Digital Passport Application (“DPA”), which may be stored at an eSIM of the user device. The DPA may be directed to and anchor to an Edge Digital Gate (“EDG”) entitled to provide access to blockchain-based services. The DPA may store a digital persona that digitally represents an entity such as a user or machine so that the DPA may access and interact with blockchain-based services on behalf of the entity. For instance, the digital persona may bind a physical identity of the entity with a digital identity through a private key of the entity. The private key may be used to digitally signed the access token. The digital persona may further link the digital identity with one or more (typically multiple) virtual identities each associated with a blockchain-based service.
US11310220B2

A target device is associated with a source device. A system includes a target device that enters an association mode, obtains an identification code, and broadcasts the identification code. A source device receives the broadcast, obtains authorization to associate with the target device, and provides a message to an association server. The association server receives the message and associates the target device and the source device in response thereto.
US11310216B2

An apparatus and method are provided for predictive token validation. In use, a database stores service usage information relating to usage of at least one service hosted by at least one server. Before at least one request for service is received from a user at the at least one server, the service usage information in the database is accessed. Further, based on the service usage information, a token associated with the user is sent to the at least one server for being validated by the at least one server, such that the at least one server allows access to the at least one service by the user, in response to the at least one request for service being received from the user with an identifier that is different from the token.
US11310215B2

A system including a server and a first publisher node device is provided. The first publisher node device transmits a request including an authentication credential associated with the first publisher node device to the server and receives a response including authentication of the first publisher node device as a ticket processing client for a first transportation service. The first publisher node device captures, as the ticket processing client, an event associated with the first transportation service based on the received response and transmits, based on the captured event, a transaction request to a broker node device. The transaction request includes a transaction message and an authorization request to route the transaction message to a first subscriber node device of the MaaS network. The server receives the authorization request from the broker node device and authorizes the broker node device to route the transaction message based on the received authorization request.
US11310208B1

Methods and apparatus for a secure time service are disclosed. A time server including a time source, a cryptographic key and a cryptographic engine is instantiated within a provider network. A time service endpoint receives a timestamp request from a client. The endpoint transmits a representation of the request to the time server, and receives, from the time server, an encryption of at least a timestamp generated using the time source. A response comprising the encryption of at least the timestamp is transmitted to the requesting client.
US11310207B1

System and methods are provided to facilitate the exchange of user data between two parties, but limit the exchange of user data to users that are known to both parties. According to an embodiment, encrypted first user data is transmitted from a first device to a second device. The second device then transmits intersection data to the first device, where the intersection data is based on the encrypted first user data and second user data. The intersection data may be decrypted by the first device and the first device may determine, based on the decrypted intersection data, that one or more users are common to the both the first device and the second device. The first and second devices may then exchange data pertaining to the common users.
US11310205B2

In one embodiment, a traffic analysis service identifies a client in a network having an associated traffic flow that was blocked by a firewall. The traffic analysis service obtains traffic telemetry data regarding one or more subsequent traffic flows associated with the identified client that are subsequent to the blocked flow. The traffic analysis service uses a machine learning-based classifier to determine that the identified client is exhibiting evasive network behavior, based on the obtained traffic telemetry data. The traffic analysis service initiates a mitigation action in the network, based on the determination that the identified client is exhibiting evasive network behavior.
US11310201B2

This document describes among other things, network security systems that incorporate a feedback loop so as to automatically and dynamically adjust the scope of network traffic that is subject to inspection. Risky traffic can be sent for inspection; risky traffic that is demonstrated to have high rate of threats can be outright blocked without further inspection; traffic that is causing errors due to protocol incompatibility or should not be inspected for regulatory or other reasons can be flagged so it bypasses the security inspection system. The system can operate on a domain by domain basis, IP address basis, or otherwise.
US11310199B2

Disclosed are methods, systems, and devices for management of a premises. The premises may comprise one or more devices, such as a gateway device, a control device, or a premises device. A computing device, such as a server external to the premises, may receive data indicative of the premises device. The computing device may determine to update a configuration of one or more devices at the premises, such as the gateway device or the control device. Configuration data may be sent to the gateway device to update the configuration.
US11310195B2

A method, apparatus, system, and computer readable storage medium provide the ability to identify an internet connected household (ICH). An Internet Protocol (IP) address is received at an Internet entity. Determinations are made regarding whether device activity from the IP address does not exceed a defined activity threshold and whether an IP assignment age for the IP address is greater than a defined threshold age. Based on the determinations, the IP address can be identified as belonging to an ICH or not.
US11310188B2

The present disclosure describes integrating SMS/MMS messaging with a collaboration platform, and filtering SMS/MMS messages within a collaboration platform. One embodiment includes associating a phone number with a project within a collaboration platform; receiving an SMS/MMS message at the phone number from a client device; and based on receiving the SMS/MMS message at the phone number, adding the content of the message to the project. In another embodiment, a phone number can be associated with a plurality of projects. Attributes of SMS/MMS messages received at this phone number are compared to project data of the plurality of projects to route the message content to a project of the plurality of projects.
US11310184B1

Methods are presented for classifying responses to communications. One method includes presenting, in a first user interface (UI), a message from a sender to a recipient requesting a response. The first UI includes response options of a first classification, a second classification, and an entry field for entering a free text message. Another operation is for receiving a recipient response with a selection of: (a) the first or the second button and (b) the free text message entered in the text entry field. The method further includes generating a featurized recipient response based on the free text message and the selection. An acceptance machine-learning (ML) model calculates a classification value of the recipient response from a set of possible classification values based on the featurized recipient response. The method further includes presenting, in a second UI for the sender, an indicator for the message and the calculated classification value.
US11310183B2

A server with a tile construction module has instructions executed by a processor to collect communication threads associated with a user. Tiles representative of the communication threads are dynamically configured in accordance with specified policies to form a tile configuration. The tile configuration is supplied to the user.
US11310181B2

A user terminal and a control method thereof are provided. The user terminal includes a communicator configured to communicate with a server; a display configured to display a message screen including a plurality of messages exchanged between the user terminal and the server; and a processor configured to control the display to display the plurality of messages on the message screen in an individually selectable manner, and based on at least one message of the plurality of messages being selected on the message screen and at least one share target, with which to share the at least some of the plurality of messages, being selected, control the communicator to transmit, to the server, information regarding the at least one message of the plurality of messages and the at least one share target.
US11310180B2

Provided herein are CRISPR/Cas methods and compositions for targeting RNA molecules, which can be used to detect, edit, or modify a target RNA.
US11310174B2

An intelligent interface responds to text messages, which in a particular embodiment are addressed to a landline phone number. An IP network interface receives requests including a source phone number, message content and the destination phone number. The intelligent interface includes access to a serialized intent file created by a vectorizer. An intent classifier determines one intent from the serialized intent file based on the received message content. A response is generated according to the one intent. A reply generator generates a reply including the source phone number as a destination, the landline phone number as a source and the response.
US11310169B2

The present disclosure provides a computer-based method and system for synthesizing a NoC. Traffic data is determined or received, and a baseline topology is generated or received. For each router in the baseline topology, a number of edge virtual channel (EVC) combinations is determined, the transmittablility of the traffic classes are determined, and, when the traffic classes are not transmittable, the router is identified. A traffic class affinity graph (TCAG) is generated for each identified router. Traffic class combinations are generated for the identified routers based on the TCAGs and EVC combinations. The traffic classes of the identified routers are merged based on the traffic class combinations. A final EVC combination for each identified router is determined based on the merged traffic classes. A final topology is generated based, at least in part, on the merged traffic classes and the final EVC combinations for the identified routers.
US11310163B1

In one embodiment, a network flow sampling system includes data communication apparatus, which includes packet processing circuitry configured to process data packets of multiple network flows, and an adaptive policer configured to sample respective ones of the data packets of respective ones of the network flows yielding sampled data, while applying sampling fairness among the respective network flows, wherein at least one of the data packets from each of the respective network flows is sampled.
US11310161B2

A method, a device, and a non-transitory storage medium are described in which a packet size service is provided. The packet size service may calculate a payload size for packets that include application service data. The packet size service may inform an end device and an application service layer network of the calculated payload size. The packet size service may obtain quality of service information pertaining to an application service, and other information as a basis for the calculation. The packet size service may use a machine learning system to calculate the payload size.
US11310139B2

A fault detection method of LACP packet timeout provided including: receiving a LACP packet from a target port of the partner device through a local port, the LACP packet at least includes a phase identifier to indicate a negotiation phase of a LACP negotiation process between the target port and the local port; sending a response LACP packet corresponding to the LACP packet to the target port through the local port; generating a LACP service processing entry for the LACP packet to indicate a LACP service processing phase performed by the actor device for the LACP packet; in response to that no LACP packet from the target port being received through the local port continues for a preset waiting time, performing fault detection based on the phase identifier and the LACP service processing entry so to obtain fault cause information to indicate a LACP packet timeout of the target port.
US11310130B2

The present disclosure provides a heartbeat information sending method and apparatus, a heartbeat information processing method and apparatus, and a node. The method includes: determining heartbeat receiving nodes in which at least two follower data blocks corresponding to at least two leader data blocks in a heartbeat sending node are located; and when the heartbeat receiving nodes are a same node, sending heartbeat information of the heartbeat sending node to the heartbeat receiving node, where the heartbeat information of the heartbeat sending node is heartbeat information obtained after respective heartbeat information of the at least two leader data blocks are combined.
US11310125B2

Systems and methods for adaptive TCA threshold management are described. A technique can include receiving threshold crossing alert (TCA) data including operational TCA data, determining a TCA prediction trigger based on a current threshold, matching, in response to determining the TCA prediction trigger, the operational TCA data to a pattern from a TCA pattern bank, and calculating a predicted TCA threshold based on the pattern.
US11310115B2

In one embodiment, a computer network system, includes a plurality of mesh networks, each mesh network including at least three interconnected respective internal switches with each respective internal switch being connected to each other one of the respective internal switches via a respective internal network connection, and Clos topology network connections connecting the mesh networks in a Clos topology arrangement.
US11310110B2

Techniques for implementing a provisional mode in a multi-mode network device (i.e., a network device that supports at least first and second modes of operation) are provided. According to one embodiment, the network device can receive, while running in the first mode, a request to enter the second mode. In response to the request, the network device can enter a third mode that is a provisional version of the second mode. Then, while running in the third mode, the network device can accept one or more configuration commands or settings for the second mode while simultaneously processing live network traffic according to the first mode.
US11310108B2

Methods and systems for configuring nodes in a cloud computing network are described. One example method includes receiving, over a network, a configuration request from a particular node in the cloud computing network, the configuration request including node information for the particular node; verifying that the particular node is authorized for configuration based at least in part on the node information; in response to verifying that the particular node is authorized for configuration, identifying configuration actions to perform on the particular node based at least in part on the node information; and sending, over the network, a configuration command corresponding to one or more of the identified configuration actions to the particular node, wherein the particular node executes the configuration command upon receipt to perform the corresponding configuration actions.
US11310097B2

Examples disclosed herein relate to a method comprising detecting, by a first network device, an interruption in a network stack of network devices connected to each other through a plurality of dedicated links. The method may also include identifying, by the first network device, a network device in the network stack with a highest split priority, determining, by the first network device, that the network device with the highest split priority belongs to a first fragment of the network stack and marking, by the first network device, the first fragment as an active fragment of the network stack.
US11310081B2

This application provides a packet transmission method and apparatus. The method includes: receiving, by a first transmission device, a first VXLAN packet sent by a first service device through a first virtual extensible local area network VXLAN tunnel; determining, by the first transmission device, first egress information corresponding to a first BD and a first destination media access control MAC address, based on a correspondence between the first BD, the first destination MAC address, and the first egress information; generating, by the first transmission device, a second VXLAN packet based on the first VXLAN packet and the first egress information, where the second VXLAN packet includes a second VNI and an Ethernet frame; and sending, by the first transmission device sends the second VXLAN packet to a second transmission device through a second VXLAN tunnel. This application facilitates more flexible packet transmission.
US11310080B2

In a VXLAN configuration method, a first network device obtains configuration information, generates first GRASP information based on the configuration information, and sends the first GRASP information to a second network device, where the configuration information includes VTEP device information, a plurality of pieces of VTEP device information are respectively used to indicate a plurality of VTEPs included in a VXLAN, the first GRASP information includes objective information, and the objective information is used to carry the configuration information. The second network device receives the first GRASP information and establishes a VXLAN tunnel based on the first GRASP information. In this way, automatic VXLAN configuration is implemented.
US11310079B2

A method includes a second provider edge (PE) device sending, to a first PE device, a media access control (MAC) route learned from a customer edge (CE) device, wherein the first PE device generates a MAC forwarding entry based on the MAC route, wherein the first PE device may forward, based on the MAC forwarding entry using the CE device, a packet whose destination MAC address is the CE device or a MAC address of a terminal device accessing the CE device, and wherein an outbound interface identifier included in the MAC forwarding entry is an identifier of an interface connected to the CE device.
US11310077B2

Apparatus and system that perform the method of providing a FCoE Transformer including an Ethernet Interface and a Fibre Channel Interface, receiving, at the FCoE Transformer, an FCoE Frame via a Layer 2 Ethernet Switch, converting, at the FCoE Transformer, the FCoE Frame to a Fibre Channel Frame. The FCoE Frame includes a SOF field included in an FCoE Transport Header for providing an SOF character used to start the fibre channel frame, and the SOF field in the FCoE Transport Header is for encoding the SOF field, Fibre Channel Frame. The FCoE Frame includes an EOF field included in an FCoE Transport Header for providing an EOF character used to end the fibre channel frame, and the EOF field in the FCoE Transport Header is for encoding the EOF field, Fibre Channel Frame. The method includes transporting the Fibre Channel Frame.
US11310076B2

A system for high-availability secure communication between a mobile terminal and an application server. The terminal is connected to a communication box having at least three physical communication interfaces, a first interface used for communicating with the terminal. The communication box connected to an access server by first and second links through corresponding first and second physical remote communication interfaces. The application server connected to the access server. The terminal and the application server communicating through the communication box and the access server using one of two previously established links. The communication box is the network gateway of the terminal. The communication box: maintains a local routing table based on the routing performance of at least one physical remote communication interface; maintains a remote routing table on the access server so that the communication box and the access server use the same link at the same time.
US11310066B2

Embodiments of the present disclosure disclose a method and apparatus for pushing information. An implementation of the method includes: receiving a network connection request sent by a TV terminal, the network connection request including an address related to the TV terminal; selecting, based on the address, a user identifier associated with the address in a candidate user identifier set; acquiring a search keyword searched by a user indicated by the selected user identifier within a target period; and selecting, based on the search keyword, to-be-pushed information in a preset to-be-pushed information set, and pushing the selected to-be-pushed information to the TV terminal. This embodiment improves the richness of the to-be-pushed information while improving the pertinence of information push.
US11310052B1

Know your customer regulations and security concerns, among other reasons, motivate institutions to ensure that entities with whom the institutions have dealings are who they say they are. A block of the blockchain discussed herein includes entity verifications generated by institutions that participate in the blockchain. An individual verification may include a hash of personal information associated with an entity that was authenticated by an institution. An institution seeking to authenticate (or deny) an entity may receive personal information from the entity, hash that personal information, and search the blockchain for any matching verifications (e.g., by attempting to match the hashed personal information to hash(es) associated with a verification in the blockchain).
US11310044B2

Disclosed is system and method for authenticating secured file transactions. Hash of transaction is stored in distributed ledger. Unencrypted intent, encrypted intent of first agent module is generated. Unencrypted consent, encrypted consent of server arrangement is generated. Encrypted consent is communicated to the first agent module along with a location of second agent module. Encrypted consent, the unencrypted intent, the hash and the first agent key are communicated to the second agent module. Encrypted consent is communicated to server arrangement. Encrypted consent is validated by comparing encrypted consent received from second agent module with two newly generated encrypted consents at server arrangement. Two new encrypted intents are generated at second agent module based on validation of encrypted consent. Encrypted intent stored at server arrangement is validated by comparing encrypted intent with two newly generated encrypted intents to authenticate transaction. Distributed ledger may be implemented by a block chain.
US11310040B2

Methods, systems and computer readable media are disclosed for providing a quantum cipher based on phase inversion, A shared key is established between a first party and a second party. A Hadamard transformation is applied to a message intended for a second party from the first party to produce an equal superposition state. A key phase inversion is applied to the output of the Hadamard transformation. A multiple phase inversion transformation is applied to the output of the key phase inversion to produce an encrypted quantum state with a uniform probability and relative phase distributions. The result is sent to the second party.
US11310033B2

A method for operating a pseudorandom generator is disclosed. The method may be implemented by a processor of a mobile computing device. The method includes: collecting raw sensor data from at least one sensor associated with the mobile computing device; selecting a subset of the raw sensor data; retrieving first representation representing accumulated entropy associated with one or more previously acquired raw sensor data sets for the at least one sensor; and generating a seed for a pseudorandom generator based on combining the first representation and the selected subset of raw sensor data.
US11310031B2

The invention provides a novel and advantageous solution for controlling or influencing use of and/or access to a resource. This resource may be a device, such as an IoT (Internet of Things) device or a process. The invention is implemented via a distributed ledger (blockchain). This may be the Bitcoin blockchain or some alternative blockchain platform/protocol. In an illustrative embodiment, the controlled resource is a parking meter. The invention may provide a method comprising the steps of generating a blockchain transaction (Tx) indicative of a condition on use of the resource, the blockchain transaction comprising a multi-signature script requiring a plurality of signatures for completion of the blockchain transaction; providing a first subset of the plurality of signatures to the blockchain transaction to generate a partially signed signature script to partially complete the blockchain transaction; and responsive to the condition on the use of the resource being satisfied, providing a second subset of the plurality of signatures to the blockchain transaction to fully complete the blockchain transaction. The condition on the use of the resource may be the use of a discrete amount of the resource and the second subset of the plurality of signatures is provided responsive to the discrete amount of the resource being used.
US11310030B2

Some embodiments are directed to an electronic cryptographic device arranged to perform a cryptographic operation on input data obtaining output data. The cryptographic device stores an internal state as sets of shares. Fourier coefficients corresponding to the sets of shares satisfy a predetermined relationship among them. The cryptographic operation is performed by repeatedly updating the internal state.
US11310029B2

A second encrypted communication apparatus (300) operates as a PANA authentication client. If any of a plurality of events associated with PANA authentication occurs, a timer management unit (14) activates a timer among a plurality of timers that corresponds to the event that has occurred. When the timer activated by the timer management unit (14) expires, an authentication control unit (13) refers to management information which describes an operation procedure to be taken at timer expiration for each of the plurality of events and executes the operation procedure described in the management information regarding the event that has occurred.
US11310027B2

A method of date-stamping reception of digital data of a signal coherently modulating the carrier or sub-carrier, and utilizing the properties of such a modulation to improve the date-stamping thereof. Thereby accurately correcting the date-stamping of a pilot sequence (known pattern), and reducing the variance on the date-stamping of the transitions of the bits.
US11310018B2

Provided are a method for transmitting an uplink signal of a terminal in a wireless communication system and a terminal using the same method. The method comprises: receiving activation information that activates or deactivates a specific resource set from among a plurality of resource sets; and performing a grant-less uplink transmission using the resources belonging to the specific resource set when the activation information activates the specific resource set.
US11310017B2

In one embodiment, a method comprises: identifying, by a receiving network device, a deterministic schedule comprising allocated time slots, each allocated time slot allocated for the receiving network device receiving a data packet from one of a plurality of transmitting network devices in a wireless deterministic data network; and selectively transmitting, by the receiving network device, an expectation message at initiation of each of the allocated time slots, each expectation message preempting transmission by any other network device during the corresponding allocated time slot, each expectation message generated by the receiving network device and identifying a corresponding transmitting network device that is expected to deterministically transmit a corresponding expected data packet to the receiving network device during the corresponding allocated time slot; the expectation message causing the corresponding identified transmitting network device to transmit the corresponding expected data packet during the corresponding allocated time slot.
US11310006B2

Network resource allocation takes place within a wireless communication channel in which resource is defined with respect to time and frequency; a resource allocation process involves joint allocation of resource for communication to and from a controlled device, to enable a cyclic exchange of information and thus to enable wireless closed loop control of the device.
US11309997B2

Polar codes may be generated with a variable block length utilizing puncturing. Some puncturing schemes consider punctured bits as unknown bits, and set the log likelihood ratio (LLR) for those bits to zero; while other puncturing schemes consider punctured bits as known bits, and set the LLR for those bits to infinity. Each of these puncturing schemes has been observed to provide benefits over the other under different circumstances, especially corresponding to different coding rates or different signal to noise ratio (SNR). According to aspects of the present disclosure, both puncturing schemes are compared, and the puncturing scheme resulting in the better performance is utilized for transmission.
US11309995B2

Digital communication transmitters, systems, and methods can introduce skew into parallel transmission channels to enhance the performance of forward error correction (FEC) decoders. One illustrative serializer-deserializer (SerDes) transmitter embodiment includes: a block code encoder configured to convert a sequence of input data blocks into a sequence of encoded data blocks; a demultiplexer configured to distribute code symbols from the sequence of encoded data blocks to multiple lanes in a cyclical fashion, the multiple lanes corresponding to parallel transmission channels; a skewer configured to buffer the multiple lanes to provide respective lane delays, the lane delays differing from each other by no less than half an encoded data block period; and multiple drivers, each driver configured to transmit code symbols from one of said multiple lanes on a respective one of said parallel transmission channels.
US11309994B2

Techniques for calculation of CRC values for very large Ethernet packets in a quick manner are disclosed. Portions of CRC values are calculated each frame and are combined to arrive at a final CRC value for the frame. The CRC values for each frame are also combined to arrive at the final value for the packet. The use of the zero-wheeling function allows for each CRC value calculation to be a calculation of a limited set of data (e.g., one chunk of a frame), which allows such calculations to be completed quickly.
US11309986B2

A QTTH system based on multicore optical fiber mode division multiplexing, wherein comprising: an OLT end, a MDM-ODN and an ONU end, wherein the OLT end, the MDM-ODN and the ONU end are sequentially connected by an optical fiber; the MDM-ODN comprising a mode multiplexer and a mode demultiplexer, and the mode multiplexer and the mode demultiplexer are connected with each other through MCF, the OLT end comprising a classical signal transmitter, N DV-QKD units and N+1 mode convertors of the OLT end; the ONU end comprising N DV-QKD receivers, a classical signal receiver, N+1 mode convertors of the OLT end, 2N+1 PDs and one OC of the ONU end; the N DV-QKD receivers are respectively connected with the mode demultiplexer through PDs; the N+1 mode convertors of the OLT end are connected with the demultiplexer.
US11309984B2

Systems and methods for Tandem Connection Monitor (TCM) control for the physical layer on Optical Transport Unit (OTU) ports provide the ability of the TCM status to directly control client laser state (on/off) so that protection engines and coordination between modules is not required. The systems and methods include receiving a specific defect such as a Tandem Connection Monitor (TCM) defect or a Server Signal Fail (SSF) defect from interface circuitry; propagating the TCM defect or the SSF defect from the interface circuitry to an interface associated with a modem including a physical port connected to a network; and selectively disabling a laser in the modem based on the specific defect, e.g., the TCM defect or the SSF defect from the interface circuitry.
US11309975B2

An optically powered Global Navigation Satellite System (GNSS) antenna may use a fiber-optic link to receive optical power and transmit an optical signal that contains a common time signal from one or more satellites, which may allow long-distance power and signal transmission with high efficiency and reliability. The common time signal may be used to synchronize intelligent electronic devices (IEDs) of an electric power delivery system.
US11309972B2

A machine-implemented method of constructing multidimensional constellations having increased minimum distances between the constellation symbols thereof compared to those of comparable conventional constellations, e.g., QPSK and QAM constellations. An example multidimensional constellation so constructed may have eight or more dimensions and may be mapped onto degrees of freedom selected from, e.g., time, space, wavelength, polarization, and the in-phase and quadrature-phase components, of the optical field. The disclosed method is beneficially used to generate multidimensional modulation formats characterized by constant total optical transmit power per modulation time slot and/or applicable to the transmission of multidimensional constellation symbols having separate parts thereof primarily carried by different respective guided modes of the optical fiber. Example methods and apparatus for implementing such multidimensional modulation formats are also disclosed herein.
US11309971B2

Controller and control method are provided. In particular, a controller is disclosed as being configured to hold intensities of a monitor signal, which changes according to an output from a region in a device, before and after altering a state of a portion in the region and control the state of the portion based on a difference between the held intensities.
US11309969B2

An injection locked transmitter for an optical communication network includes a primary seed laser source input substantially confined to a single longitudinal mode, an input data stream, and a laser injected modulator including at least one secondary laser having a resonator frequency that is injection locked to a frequency of the single longitudinal mode of the primary seed laser source. The laser injected modulator is configured to receive the primary seed laser source input and the input data stream, and output a laser modulated data stream.
US11309967B2

This application discloses a communications network and a related device. In one embodiment, the communications network includes a first optical line terminal and a second optical line terminal. The first optical line terminal is configured to send, through a first passive optical network (PON) interface based on a first PON protocol, a first optical signal to the at least one second optical line terminal. The second optical line terminal is configured to process the first optical signal and send through a second PON interface based on a second PON protocol, a processed first optical signal to at least one customer-premises equipment during downstream data transmissions, and process a second optical signal and send, through the first PON interface based on the first PON protocol, the processed second optical signal to the first optical line terminal during upstream data transmissions.
US11309961B2

Techniques are disclosed for programming a luminaire with location information, referred to herein as commissioning. Location information may include relative location information (e.g., the position of the luminaire relative to a reference point) and/or absolute location information (e.g., global coordinates for the luminaire). A commissioned luminaire can be configured to emit its location information via light-based communication (LCom). In some cases, the luminaire can be commissioned manually, by hard coding the luminaire with its location either at the luminaire itself or using a device (e.g., a smartphone, tablet, or a dedicated luminaire commissioning device) to program the luminaire with location information. In some cases, the luminaire can be commissioned automatically. In some cases, the luminaire may be configured to provide visual, aural, or tactile feedback to indicate that the luminaire has not received location data or that the luminaire has been moved.
US11309954B2

A communication system transmits data between communication nodes over a data transmission path. The system collects data from at least two different sources to create a fused data stream that is used as the input to a model for determining a frequency at which to transmit the data by skywave propagation. The data is transmitted between the communication nodes at the frequency determined by the model.
US11309946B2

Disclosed herein are various examples of architectures, circuits, devices and methods that provide wireless communication systems that can switch between switch combining and simplex operating modes. The switch combining modes utilize switching to dynamically route transmit and receive signals from a first antenna while the simplex operating modes route transmit signals to the first antenna and route receive signals from a second antenna. A controller is configured to control a duplexer to switch between the switch combining and the simplex operating modes.
US11309945B2

The present invention relates to a method and apparatus for transceiving data. A method in which a transmitting terminal transmits data to a receiving terminal in a MIMO system according to one embodiment of the present invention comprises the following steps: generating a data field containing the data; generating a signal field containing information on the data field; generating a data frame containing the data field and the signal field; and transmitting the data frame to the receiving terminal. According to the present invention, an end of the frame being transmitted is accurately notified to the receiving terminal in a communication system in which the frame is transmitted using MIMO, thereby decoding the frame in a more efficient manner at the receiving terminal.
US11309936B2

A signal transmission device includes a transmission line. The transmission line is configured to receive a signal transmitted from a transmission device, and output the signal to a receiving device. The transmission line includes a signal suppression device. The signal suppression device is coupled to the receiving device, and is configured to suppress a reflection signal reflected from the receiving device. The signal suppression device includes a pull-up element and a compensation element. The pull-up element is configured to decrease an equivalent impedance from the signal suppression device to the receiving device. The compensation element is configured to compensate for the equivalent impedance from the signal suppression device to the receiving device. A first terminal of the pull-up element is coupled to a first terminal of the compensation element, and a second terminal of the compensation element is coupled to the receiving device.
US11309929B2

An example electronic device includes a wireless communication component and a controller. The controller is to set an output power of the wireless communication component based on: whether a first external object is in proximity to a first side of the electronic device; whether the electronic device is stationary; and whether a second external object is in proximity to a second side of the electronic device, where the second side is opposite to the first side.
US11309918B2

A memory system includes a nonvolatile memory and a memory controller. The nonvolatile memory stores a multidimensional error correction code in which each of a plurality of symbol groups is encoded by both a first component code and a second component code. The memory controller reads the error correction code from the nonvolatile memory, executes a first decoding process using the first component code and the second component code, and when the first decoding process fails, executes a second decoding process on an error symbol group. The second decoding process includes a process of selecting the positions of a plurality of symbols whose values included in the error symbol group are to be inverted according to a decision rule. The decision rule includes a rule for cyclically shifting a position selected for the second decoding process at to decide the position for the second decoding process at the next time.
US11309912B2

Systems and methods are provided for reducing error in data compression and decompression when data is transmitted over low bandwidth communication links, such as satellite links. Embodiments of the present disclosure provide systems and methods for variable block size compression for gridded data, efficiently storing null values in gridded data, and eliminating growth of error in compressed time series data.
US11309903B1

A dynamic voltage-to-delay device may have voltage lines for receiving input signals during reset phases, and a current source, connected to the first and second voltage lines, for increasing voltages on the voltage lines during active phases. The voltage-to-delay device may also have comparators, connected to the voltage lines, for generating first and second output signals during the active phases when the voltages on the voltage lines reach a threshold voltage, such that a delay between the output signals is representative of a difference between voltages of the input signals. The voltage-to-delay device may have at least two current sources. The comparators may have a tail node to which a voltage is applied during a reset phase, and a current source for reducing the voltage at the tail node, and thereby reducing a threshold voltage during an active phase.
US11309901B2

A phase locked loop arrangement (1) beamforming comprises two or more phase locked loops. The loops include a phase comparator (21, 22) and an adjustable charge pump arrangement (31, 32) having a loop filter (51, 52) and charge pump current source (41, 42) with an adjustment input (ϕadj) connected to the loop filter (51, 52) to inject an adjustable charge pump current into the loop filter. A constant current source (71, 72) is configured to inject a first predetermined charge current into the loop filter (51, 52). The adjustable charge pump arrangements (31, 32) are connected to the respective phase comparators (21, 22) to provide a voltage control signal (vctrl) to an oscillator (61, 62) of the respective phase adjustable phase locked loop (11, 12) in response to the respective control signal (up, down) and to generate a phase deviation between the first and one of the at least one second oscillator signals (fosc1, fosc2) based on an adjustment signal applied to the adjustment input (ϕadj).
US11309897B2

A lightning strike counter and a lightning strike counting method are disclosed. The lightning strike counter includes a lightning strike input circuit, a bipolar waveform generating circuit, and a counting circuit. The lightning strike input circuit receives a lightning strike signal from a first lightning strike input end and a second lightning strike input end. The bipolar waveform generating circuit outputs a bipolar waveform signal from a bipolar waveform output end to the counting circuit in response to the lightning strike input circuit receiving the lightning strike signal. The counting circuit outputs a counting output signal from a counting output end in response to receiving the bipolar waveform signal from a counting input end.
US11309891B2

The present application is directed to a level shifting circuit. In one form, a level shifting circuit includes a first inverter, a level shifting unit, and a fast driving unit. The first inverter is configured to invert an input signal received at an input node and to output an inverted input signal to a second input node. The level shifting unit is configured to perform amplitude up-shifting processing on a received input signal. The fast driving unit is configured to pull up an output signal of an output node of the level shifting unit by increasing a discharge current of the level shifting unit when receiving the input signal.
US11309886B2

A current blocking element is provided. The current blocking element includes a first electrode layer, an ion conductive layer, and a second electrode layer, which are laminated in this order, wherein the first electrode layer is configured to hold ions; the ion conductive layer has ionic conductivity and does not have electronic conductivity; and the second electrode layer is configured to hold ions. Ions held in the first electrode layer are moved to the second electrode layer when current is configured to flow between the first electrode layer and the second electrode layer. Current flow between the first electrode layer and the second electrode layer is blocked when ions held in one of the first and second electrode layers are depleted saturated.
US11309881B2

An automotive vehicle includes an electric machine, a traction battery, and a power converter. The power converter transfers power between the electric machine and traction battery. The power convert includes a switch that defines a portion of a phase leg, a gate driver circuit that provides provide power to a gate of the switch, and a clamping circuit. The clamping circuit includes a clamping switch that, responsive to the gate driver circuit being de-energized and a voltage of the gate exceeding a predetermined threshold value, conducts current from the gate to dissipate the voltage and clamp the gate to an emitter of the switch.
US11309873B2

The present invention discloses a voltage level conversion circuit. A first and a second N-type driving transistors turn on when a first power voltage source supplies a high state voltage. A voltage transmission circuit transmits a first and a second input voltages having opposite levels to sources of the first and the second N-type driving transistors. A current source operates according to a second supply voltage source and has a first and a second output terminals. A first and a second connection transistors respectively couple between the drain of the first N-type driving transistor and the second output terminal and between the drain of the second N-type driving transistor and the first output terminal. The first and the second connection transistors turn on and off when the first voltage supply source supplies the high state voltage and a low state voltage.
US11309869B1

A filtering circuit includes a filter, a frequency divider, and a control circuit. The filter is configured to generate a first oscillating signal according to a control signal in a first mode, and perform a filtering process according to the control signal in a second mode. A frequency of the first oscillating signal is determined according to the control signal. The frequency divider is coupled to the filter and configured to divide the frequency of the first oscillating signal to generate a frequency-divided signal. The control circuit is coupled to the filter and the frequency divider, and configured to compare a frequency of the frequency-divided signal and a frequency of a second oscillating signal so as to adjust the control signal in the first mode. A center frequency of a passband of the filter in the second mode is determined according to the adjusted control signal.
US11309863B2

A single frequency control device incorporating a high frequency resonator, a low frequency resonator and a temperature sensing element, the latter thermally coupled closely to the said resonators to facilitate temperature sensing with higher resolution and accuracy. Additional benefits offered by the structure include smaller size and lower cost.
US11309859B2

A noise filter may include: a first conductive line extending between an input and an output terminal portion, wherein the first conductive line includes an input-side conductive line extending between the input terminal portion and a branch portion, and an output-side conductive line extending between the output terminal portion and the branch portion; a second conductive line connected to the branch portion of the first conductive line, wherein a capacitor is on the second conductive line; and a magnetic body surrounding at least a part of a circumference of at least a part of the first conductive line, wherein the magnetic body is configured to magnetically couple the input-side and the output-side conductive lines such that at least an equivalent series inductance of the capacitor and a parasitic inductance of the second conductive line are reduced by a mutual inductance between the input-side conductive line and the output-side conductive line.
US11309854B1

A digitally controlled grounded capacitance multiplier circuit system and method is disclosed. The capacitance multiplier (CM) circuit comprises an op-amp, a digitally controlled current amplifier and two resistors in addition to a reference capacitor. The CM circuit is designed using complementary metal-oxide-semiconductor (CMOS) technology. The value of the equivalent capacitance can be adjusted through digitally programming the gain of the current amplifier. The CM circuit provides a significant multiplication factor while using two active devices.
US11309853B1

A class-D amplifier includes a first differential modulator circuit, a first driver circuit including a first high-side switch and a first low-side switch. An input of the first driver circuit may be coupled to a first output of the first differential modulator circuit so that the first differential modulator circuit controls the first driver circuit. The class-D amplifier may also include a second driver circuit including a second high-side switch and a second low-side switch coupling the second and control logic that selects between a single-ended operating state and a differential operating state of the class-D amplifier circuit. The control logic may selectively determine the input of the second driver circuit in conformity with a current operating state of the class-D amplifier circuit so that the first differential modulator circuit controls the second driver circuit when the differential operating state is selected.
US11309846B2

A biosensor for an analyte monitoring system. In one embodiment, the biosensor includes a cascode common source transimpedance amplifier circuit, an analog to digital converter, and an output circuit. The cascode common source transimpedance amplifier circuit is configured to receive an electrical current generated by an electrochemical reaction of an analyte on a test strip. The cascode common source transimpedance amplifier circuit is also configured to convert the electrical current to an analog voltage signal. The analog to digital converter is configured to convert the analog voltage signal to a digital voltage signal. The output circuit is configured to transmit a signal indicating a measured level of the analyte based on the digital voltage signal.
US11309834B2

A small-size high-power terahertz oscillator achieves a stable oscillation in a terahertz frequency band even at room temperature. The high-power terahertz oscillator has a structure in which a bow-tie antenna is disposed on a substrate, a cavity resonator, which includes two cavities, is disposed at a power supply portion of the bow-tie antenna, and a resonant tunneling diode (RTD) is disposed along a bottom of a wall of the cavity resonator, which defines the two cavities, and stably oscillates waves in the terahertz frequency band at room temperature by using the RTD, the bow-tie antenna and the cavity resonator.
US11309828B2

A photovoltaic module including a surface and at least one spacer juxtaposed with the surface. The at least one spacer is positioned intermediate the surface and the roof deck. The photovoltaic module is elevated from the roof deck by the spacer to promote air flow underneath the photovoltaic module. The spacer is made from a material that provides impact resistance and walkability.
US11309823B2

The three phase motor control with variable RPM and variable synchronized PWM is a new concept or method to drive a DC/AC invertor is a triggering pulse revolving circuit having a variable speed of revolving output triggering pulses to rotate commutating and duty cycling circuits to enable/disable power mosfets and to rotate current directions in three phase induction motor stator coils. The RPM control and PWM control are simplified using this method. All interconnections between circuits are conventional, not traditional.
US11309822B2

Electric motors and drive circuits therefor are described herein. The drive circuit is configured to operate in a first mode of operation and a second mode of operation. The drive circuit includes an inverter configured to regulate current to a first winding and a second winding of the electric motor in the first mode of operation and to only the first winding in the second mode of operation. The drive circuit also includes a first switch coupled to the second winding and configured to supply line frequency current to the second winding at a first node in the second mode of operation, and a second switch coupled to the second winding and configured to enable selection of regulating current to the second winding using the inverter in the first mode of operation or supplying the line frequency current directly to the second winding in the second mode of operation.
US11309820B2

The disclosure discloses a signal equalization method including: step S10: calculating an motor excitation signal according to an expected target acceleration signal; step S20: obtaining the output voltage according to the motor excitation signal, and setting the maximum output voltage of the signal power amplifier as voltage threshold; step S30: judging whether the output voltage is less than the voltage threshold. The technical proposal of the disclosure obtains a motor excitation signal and an output voltage by calculating an expected target acceleration signal, then compares the output voltage with the maximum output voltage of a signal power amplifier, improving the security of output voltage; according to the voltage peak area reduction method, the output voltage and the maximum operating displacement threshold of the motor are calculated to obtain a more safe output voltage.
US11309819B2

A method of operating a Brushless Direct Current Motor (BLDCM), the BLDCM of the type including: a series of concentric independently activated electromagnetic phase coils interacting with a series of permanent magnets to provide relative movement therebetween, the phase coils having temporal periods of activation time and deactivation time, the method including the steps of: (a) activating at least one of the phase coils for a short period of activation; and (b) measuring the voltage response across the phase coil of the deactivated phase coil during the short period of activation to determine the rotor position.
US11309818B2

Disclosed are a motor variable frequency driving system and a multi-split central air conditioner. The motor variable frequency driving system includes: a three-phase alternating-current input, a rectification module, a thin-film capacitor, an inverter, a vector control module, an A/D sampling module and a steady state processing module. The rectification module is connected to the three-phase alternating-current input; the thin-film capacitor is arranged between output ends of a direct current output; an input end of the inverter is connected to an output end of the direct current output; an output end of the inverter is connected to a three-phase alternating current motor; the vector control module is connected to the inverter; the A/D sampling module is used for collecting direct current bus voltages of two ends of the thin-film capacitor; and the steady state processing module is connected to the A/D sampling module.
US11309813B2

An opening/closing body drive device includes: a motor which opens or closes an opening/closing body; a drive unit which rotates the motor; and a control unit which controls the drive unit. The drive unit includes first and second integrated circuits having first and second switching elements and third and fourth switching elements which are connected to each other in series with respect to a power source and connection points of which are connected to one and the other terminals of the motor, respectively. The control unit turn-on drives only the second switching element when braking the motor during the forward rotation and turn-on drives only the fourth switching element when braking the motor during the reverse rotation, or turn-on drives only the third switching element when braking the motor during the forward rotation and turn-on drives only the first switching element when braking the motor during the reverse rotation.
US11309805B2

An inverter that is a micro-photovoltaic inverter includes a DC-DC converter on an input side of the inverter. The DC-DC converter has three output voltage levels. The inverter also includes an inverter element having at least three input voltage levels. The inverter element is electrically connected to the DC-DC converter.
US11309802B2

A soft-switching solid-state power transformer, including: a high-frequency (HF) transformer comprising first and second winding connections; a first auxiliary resonant circuit coupled to the first winding connection, the first auxiliary resonant circuit comprising: a resonant capacitor coupled across the first winding connection, a resonant inductor coupled across the first winding connection in parallel with the resonant capacitor, and a damping feature coupled across the first winding connection in series with the resonant capacitor and the resonant inductor; a first current-source inverter (CSI) bridge coupled to the first auxiliary resonant circuit, the first CSI bridge comprising reverse blocking switches configured to conduct current in one direction and block voltage in both directions; a second auxiliary resonant circuit coupled to the second winding connection; and a second CSI bridge coupled to the second auxiliary resonant circuit, the second CSI bridge comprising reverse blocking switches.
US11309798B2

A power converter includes an input circuit, an output circuit and a controller. The output circuit may comprise a plurality of output terminals configured to be connected to a plurality of loads. The input circuit may comprise a plurality of input terminals configured to be connected to one or more power sources. An inductive element may be coupled between the input circuit and the output circuit. The output circuit may feature one or more voltage compensation circuits connected between two output terminals, the voltage compensation circuits activated to compensate an output voltage at one of the two output terminals.
US11309796B2

A control method of a single live line charging circuit, a control circuit of a single live line charging circuit, and a single live line charging circuit are provided. The single live line charging circuit includes a first switch, a first conduction element, a first inductor, a second switch, a second conduction element, a third switch, a first input end and a second input end; the first input end is connected to a first end of the first switch through the second conduction element; the first switch, the first conduction element and the first inductor constitute a buck circuit; the first input end is connected to a reference ground through the second switch, the second input end is connected to the reference ground through the third switch, and an alternating current input is connected to the first input end through a load circuit.
US11309793B2

According to various aspects, a latch-type charge pump may include: an input node and an output node; a first charge storage and a second charge storage coupled in parallel to each other, a first switch coupled to the input node and a second switch coupled to the output node, wherein the first charge storage couples the first switch with the second switch; and a control circuit configured to control the first switch based on a state of the second charge storage, and to control the second switch based on a state of the first charge storage.
US11309789B2

The invention discloses an inverter and a soft-start method for the same. The inverter is electrically connected between a DC power supply and a grid and includes a main power circuit electrically coupled to the grid through a relay, a filter, the relay, and a controller electrically connected with the main power circuit and the relay, respectively. The soft-start method includes: sampling a grid voltage of the grid; calculating an output voltage of the controller, and calculating a virtual current based on the output voltage of the controller, the grid voltage and a virtual impedance; and performing current closed-loop control by taking the virtual current as a feedback signal and sending a relay control signal to turn on the relay when a steady state is reached. The invention enables the soft start of the inverter without increasing any hardware circuit, such as a starting resistor, or the like.
US11309787B2

A power conversion device includes a conversion circuit constituted of a plurality of arm circuits and a bypass circuit. The bypass circuit includes a full-wave rectification circuit, a positive-side connection arm, and a negative-side connection arm. The full-wave rectification circuit is connected between a plurality of AC connections, a positive-side intermediate node, and a negative-side intermediate node, and configured to convert AC voltages generated at the plurality of AC connections into a DC voltage across the positive-side intermediate node and the negative-side intermediate node and output the DC voltage. The positive-side connection arm blocks a current in a direction from a positive-side DC terminal toward the positive-side intermediate node. The negative-side connection arm is connected between the negative-side intermediate node and a negative-side DC terminal and blocks a current in a direction from the negative-side intermediate node toward a negative-side DC terminal.
US11309767B2

An electric drive unit comprises an electric drive device having a stator and a rotor, the stator and the rotor being disposed in a stator housing which extends along a longitudinal axis, a cable, wherein a first portion of the cable is connected to the drive device, and a liquid encapsulation is disposed on a second portion of the cable which has individual lines which are litz wires. A rear flange at an end side that faces away from an interior of the stator housing and has an annular space disposed on one end of the stator housing, wherein the liquid encapsulation is disposed in the annular space.
US11309764B2

Systems and apparatus for reliably sealing a surgical device are disclosed herein. Specifically, a surgical device including a drive shaft tube that is coupled to a drive shaft is disclosed. Because the drive shaft tube is coupled to the drive shaft, the drive shaft tube rotates at the same rotational speed as the drive shaft, which is less than the rotational speed of a cannulated motor shaft. The drive shaft tube can extend through the cannulated motor shaft. In addition, a sealing member can be provided to seal between the drive shaft tube (which rotates slowly) and the motor instead of between the motor shaft (which rotates more quickly) and the motor. The sealing member can be provided in a gap defined between an outer surface of a portion of the drive shaft tube extending beyond the cannulated motor shaft and the motor.
US11309761B2

A three-phase electric machine includes a stator core defining slots, a terminal associated with one of the three phases, and a neutral. A first phase of hairpin windings is disposed in the core and has first and second parallel paths that are each continuous between the terminal and the neutral. The first path includes a first hairpin having a first leg disposed in a first of the slots and a second leg disposed in a second of the slots that is five slots away from the first slot. The first path further includes a second hairpin having a first leg disposed in a third of the slots and a second leg disposed in the second slot, wherein the second slot is seven slots away from the third slot.
US11309760B2

A rotary electric machine includes a stator core having a plurality of teeth arranged in a row along a circumferential direction of the stator core, and a stator coil composed of a winding wire wound around the teeth. The stator coil includes coil end portions extending, outside the stator core in an axial direction thereof, along a substantially circumferential direction of the stator core, and straight portions extending along the axial direction, the straight portions being at least partially housed in a slot which is a void defined by two adjacent teeth of the plurality of teeth. In the rotary electric machine, a cooling groove is formed at least in the straight portion, the cooling groove functioning as a cooling channel through which a cooling fluid flows, and each straight portion includes only one cooling channel.
US11309756B2

A motor includes a rotor assembly and a stator. The rotor assembly includes a rotatable shaft extending in an axial direction, a rotor core coupled to the rotatable shaft and having a plurality of holes penetrating through the rotor core in the axial direction, a first end ring coupled to one end of the rotor core and configured to guide oil supplied to the rotor assembly into the plurality of holes, and a second end ring coupled to the opposite end of the rotor core and configured to guide oil passing through the plurality of holes in a radial direction.
US11309749B2

A stator assembly includes a stator having a plurality of teeth which are distributed around a circumference of the stator and point toward a central axis of the stator. The teeth alternately have a first cross-sectional profile and a second cross-sectional profile, and a plurality of slots being formed between the teeth. A plurality of coils are disposed around the teeth having the first cross-sectional profile. The second cross-sectional profile has a parallel-sided stem portion and an adjoining tapered head portion. A height of the stem portion of the second cross-sectional profile is less than a height of a respective one of the coils that is disposed around an adjacent one of the teeth having the first cross-sectional profile.
US11309746B2

Methods and apparatus for detecting the presence of undesirable foreign matter in a region between a wireless power transmission apparatus and a power reception apparatus are described. First and second detection methods, based on different detection schemes, may be used to detect and distinguish the presence of foreign matter from misalignment during power transfer operation. A first detection method may be used before power is transferred to a load in a power reception apparatus, and a second detection method may be used while power is supplied to the load.
US11309744B2

The present disclosure relates to systems and methods for providing wireless power to implanted devices. Consistent with some embodiments, a power system for providing wireless power to a device implanted in a body of an individual includes a first antenna loop that produces a first electromagnetic wave and at least one second antenna loop that produces a second electromagnetic wave. The first and second electromagnetic waves may interfere with one another to produce an interference pattern including interference maxima. Further, a location of at least one of the interference maxima may be at or substantially close to the device implanted in the body of the individual. A broad distribution pattern at the surface of the skin can reduce the specific absorption rate of the transmission, while focusing the transmission toward the implanted device improves the antenna system's transfer efficiency.
US11309741B2

A resonance oscillator circuit is provided to include first and second oscillators. The first oscillator includes a first LC resonator circuit and an amplifier element, and oscillates by shifting a phase of an output voltage with a predetermined phase difference and feeding the output voltage back to the amplifier element. The second oscillator oscillates by generating a gate signal, which has a frequency identical to that of the output voltage, and drives the amplifier element, by shifting the phase of the output voltage with the phase difference and feeding the gate signal back to an input terminal of the amplifier element, by using the amplifier element as a switching element and using the first oscillator as a feedback circuit. The phase difference is a value substantially independent of an inductance of the first LC resonator circuit and a load, to which the output voltage is applied.
US11309739B2

A wireless power transmission apparatus includes resonators configured to transmit a power wirelessly to another resonator, and a controller configured to control a current magnitude and/or a voltage magnitude of a power to be provided to each of the resonators. The apparatus further includes a feeder configured to provide the power to each of the resonators.
US11309736B2

Wireless power transmission (WPT) systems are provided. For example, the WPT system can use one or more power transmitting coils and a receiver for electromagnetically coupled wireless power transfer. The electrodynamic receiver can be in the form of an electrodynamic transducer where a magnet is allowed to oscillate near a receiving coil to induce a voltage in the receiving coil, a piezoelectric transducer where the magnet causes a vibrating structure with a piezoelectric layer to move, an electrostatic transducer where movement of the magnet causes a capacitor plate to move, or a combination thereof. An alternating magnetic field from the transmitting coil(s) excites the magnet in the receiver into mechanical resonance. The vibrating magnet then functions similar to an energy harvester to induce voltage/current on an internal coil, piezoelectric material, or variable capacitor. Embodiments utilize magnetic coupling and electromechanical resonance for safe, spatially distributed, low-frequency power delivery to portable devices.
US11309734B2

System for controlling power consumption on a portion of a distribution grid providing electrical power to a plurality of power-consuming units and including a substation providing one or more transformers operable to increase or decrease the voltage supplied to consumers within the portion of the grid. A data set includes a previously measured power consumption associated with previously measured values of (a) property(ies) being one of voltage, current, frequency or load, or a combination thereof. A measurement device for measuring the property(ies) of the grid. A processing device to determine from the previously measured values of the property(ies) a most likely effect of altering the value(s) of the property(ies) from a first value to a second value. A storage device for storing one or more rules associating a measured condition with a corrective action. The system being operable to determine whether a measurement meets a measured condition of a stored rule.
US11309731B1

Solar Powered display screen for electronic devices including but not limited to smart phones, media players, portable radios . . . is disclosed. Expands battery life of a battery and product usage and can produce two way radio for emergency purposes. (The two way radio is optional).
US11309727B2

A utility meter includes a real-time clock (RTC), a supercapacitor, a power supply, and a set of photodiodes. The RTC keeps time utilized for time stamps applicable to events that occur during alternating current (AC) power outages of the utility meter, and the supercapacitor powers the RTC. The power supply operates in an active mode responsive to an AC line voltage meeting a threshold and, when in the active mode, charges the supercapacitor to power the RTC. The set of photodiodes absorbs energy from ambient light and charges the supercapacitor to power the RTC. Thus, the supercapacitor is configured to be charged based on the power supply and based on the set of photodiodes.
US11309726B2

An adapter comprises an input port being coupleable with a single-voltage output interface of a single-voltage battery pack or a multi-voltage output interface of a multi-voltage battery pack, an output port electrically connected to the input port and being coupleable with a single-voltage input interface of a first power tool or a multi-voltage input interface of a second power tool, a switching mechanism being switchable between a first state and a second state. When the switching mechanism is in the first state, the input port is coupled with the single-voltage output interface and the output port is coupled with the multi-voltage input interface of the second power tool, when the switching mechanism is in the second state, the input port is coupled with the multi-voltage output interface and the output port is coupled with the single-voltage input interface of the first power tool.
US11309722B2

In the rechargeable battery with USB charging function, a cathode end of the battery body passes through the housing body and extends outside the housing body. One end of the circuit board is provided with an anode charging contact sheet, an anode discharging contact sheet and a ground contact sheet. Both the anode charging contact sheet and the anode discharging contact sheet are connected with an anode of the battery body. The anode charging contact sheet is connected with an anode pin of the male USB connector and the ground contact sheet is connected with a ground pin of the male USB connector when the male USB connector is inserted into a female USB connector; and the battery cover is provided with a conductive sheet which is electronically connected with the anode discharging contact sheet when the battery cover is connected with USB charging function.
US11309714B2

Embodiments disclose an energy generation system including a photovoltaic (PV) array including a plurality of PV modules for generating direct current (DC) power, a plurality of power converter pairs coupled to the plurality of PV modules and configured to convert the generated DC power to alternating current (AC) power, and a plurality of battery packs coupled to the plurality of power converter pairs. Each power converter pair of the plurality of power converter pairs includes a DC-to-DC converter coupled to a DC-to-AC inverter, where the DC-to-DC converter is directly coupled to a respective PV module. Furthermore, each battery pack is directly coupled to a respective DC-to-DC converter and configured to store DC power from the respective PV module and output stored DC power to the respective power converter pair.
US11309703B2

A transformer simulation system and a measurement method for setting value simulation are disclosed. The transformer simulation system includes an oil tank, a heating device, a pump body, a first oil pipe, a second oil pipe and a first flow sensor. The heating device is disposed in the oil tank. The oil tank is provided with a first inlet and a first outlet, the first outlet is connected to the first oil pipe, and the first inlet is connected to the second oil pipe. An end of the first oil pipe away from the oil tank is a first mounting end for being connected to an oil inlet of a gas relay, and an end of the second oil pipe away from the oil tank is a second mounting end for being connected to an oil outlet of the gas relay. The pump body is connected to the first oil pipe or the second oil pipe, and the first flow sensor is disposed in the first oil pipe. The above-described transformer simulation system can measure the oil flow velocity, that is the setting value of the gas relay, and the type of the insulation oil in the oil tank can be replaced, then the corresponding setting value of the gas relay is obtained, so as to prevent the original gas relay from not playing the role of the protection due to a different property of the insulation oil.
US11309700B2

Aspects of the disclosure provide for a circuit. In some examples, the circuit includes a first current source having a terminal coupled to a first node and a second terminal, a first switch coupled between the second terminal of the first current source and a second node, a first resistor coupled between the second node and a ground terminal, a second current source having a terminal coupled to the first node and a second terminal, a second switch coupled between the second terminal of the second current source and a third node, a second resistor coupled between the third node and the ground terminal, a third current source having a terminal coupled to the first node and a second terminal, a third switch coupled between the second terminal of the third current source and a fourth node, and a third resistor coupled between the fourth node and the ground terminal.
US11309693B2

A gas-insulated switchgear includes a main circuit conductor forming a bus line, a tank having a tubular main body in which the main circuit conductor forming the bus line is provided at its center, and a grounding-switch tank that is a branch pipe connected to the main body, in which a movable contact forming a branch line that branches from the main circuit conductor forming the bus line is provided, where a tubular surface of the main body is spherical, and has an opening that allows the movable contact to pass therethrough.
US11309673B2

The current invention is regarding an electrical slip ring system for high speed applications, which require slip rings to operate at speeds more than 60,000 RPM. It consists of multiple single stage slip rings and multiple gear devices, where all the stators, except the last one, are rotational. The speed limit on the slip ring market, by using the advanced fiber brush bundles, is about 10,000 RPM without cooling, or lubricating. The basic idea is that by designing gears, we can always can make sure the relative speed between the rotor and the stator in each stage is <=10000 rpm.
US11309671B2

A connecting structure comprising: a connecting plate that has an abutting surface abutting with an electronic device and a fixing surface abutting with an adapter, a first fixing plate arranged at one end of the connecting plate, the first fixing plate protruding towards the electronic device from the abutting surface; and a second fixing plate arranged at the other end of the connecting plate, the second fixing plate protruding towards the electronic device from the abutting surface, wherein the second fixing plate is arranged opposite to the first fixing plate to define an accommodating slot for receiving an end of the electronic device having an interface. The connecting structure and the adapter reinforce the connection force between the plug and the interface, thus reducing the possibility of separation and preventing the plug from being broken.
US11309665B1

A customized active dongle plus cable arrangement is used to show combined and time synchronized data from different medical devices in realtime or from a specified point in time on a connected medical grade standard display monitor. The active cable arrangement of the invention is capable of communicating with a plurality of legacy and third-party medical devices via their designed physical and proprietary semantic protocols. Using the active cable arrangement, the user has the sensation of “plug and play”, by simply connecting the medical device to the monitor USB port (or to the USB hub extending the monitor USB port). The active cable arrangement of the invention transforms the proprietary protocol of the medical device, providing the monitor with standardized output for data, waveforms, alarms, setting, notifications, values and other useful information. The standard medical grade display monitor will support the display of such information according to the software API and specifications of the normalized JSON protocol.
US11309656B2

A method assembles a plug on a multi-core sheathed cable which extends in a longitudinal direction and has multiple wires surrounded by a cable sheath. A sealing element made of a sealing material is applied to the multiple wires. The sealing element has individual passages formed through the sealing material for the wires. Subsequently, the wires are assembled in a plug housing, wherein the plug housing has an opening at a rear end thereof, and the sealing element is inserted into the opening and shifted preferably along the wires such that the sealing element sits in the opening in a sealing manner. A sealing coating is then applied, which extends from the rear end of the plug housing to the cable sheath.
US11309651B2

A terminal (10) of a connector (1) includes a case (20) and a first conductive member (40). The first conductive member (40) includes a junction (43) for connection with a mating terminal. The junction (43) is movable in the compression direction (Y) in which the coil spring (30) is compressed. The case (20) is composed of metal and includes a front wall (22) bent at a front end (21A) of the top wall (21) toward the first conductive member. The front wall (22) is at such a distance from the coil spring (30) that movement of the first conductive member (40) in the compression direction (Y) is not prevented. The front wall (22) includes a support (28) that supports one end (45) of the first conductive member on the front wall side, the one end (45) being movable in the compression direction (Y) at the support when the junction moves.
US11309648B1

A connector structure with improved terminal coplanarity includes a housing and terminal assemblies. The housing has sockets and a coplanar track. The coplanar track is defined by two inner flanges of the housing. The two flanges extend longitudinally and parallel to each other. Each terminal assembly includes a connector body, terminals and a guider. The connector body is disposed inside the housing by the sockets. The terminals are disposed by penetrating through the connector body. The guider is disposed close to soldering ends of the terminals. The soldering end of each terminal protrudes out of the guider. The guider has two opposite grooves. Each groove is engaged with the corresponding flange. The coplanar track has a coplanar datum surface. Soldering portions of the soldering ends of the terminals protruding out of the guider are separated from the coplanar datum surface by the same distance.
US11309638B1

An apparatus includes a plurality of conductive structures having first sides and second sides opposite the first sides, wherein the second sides of the plurality of conductive structures are configured to be physically coupleable with a printed circuit board (PCB) of a receiver or a transmitter, and wherein the first sides of the plurality of conductive structures are configured to be spaced from the PCB; and an antenna having a first side and a second side opposite the first side, wherein the first side comprises a radiating side of the antenna and the second side of the antenna is disposed closer to the plurality of conductive structures than the first side of the antenna, wherein the second side of the antenna is configured to be spaced from the PCB by a second distance different from the first distance when the plurality of conductive structures is physically coupled with the PCB.
US11309636B2

An example radar system includes a transmission array and a reception array, each aligned as a linear array. The radar system also includes a transmitter configured to cause transmission of radar signals having a center frequency by the transmission array. The radar system also includes a receiver configured to receive radar signals having the center frequency that are received by the reception array. The radar system also includes a processor configured to process received radar signals from the receiver, and adjust the center frequency from a first center frequency to a second center frequency. The adjusting of the center frequency from the first center frequency to the second center frequency causes the frequency-dependent transmission radiation pattern of the transmission array to tilt in a first direction and the frequency-dependent reception radiation pattern of the reception array to tilt in an opposite direction from the first direction.
US11309634B2

A novel synthetic uniform circular array (SUCA) method for generating vortex electromagnetic (EM) wave carrying high orbital angular momentum (OAM) mode has the following steps. N antenna elements are placed radially to form a uniform circular array (UCA), where N is a positive integer. By rotating the array elements to various spatial locations, modifying their feeding phases, and superimposing the generated fields at various spatial locations, SUCA can beat the limit of space and configure more array elements to generate vortex electromagnetic (EM) waves carrying high mode OAMs. Meanwhile, due to the more synthetic array elements and smaller aperture than the traditional UCA, the purity of OAM mode is higher and it is more flexible to adjust the main lobe directions of these vortex waves carrying different OAM modes, and can generate vortex EM waves.
US11309627B2

Provided is a wireless charging loop antenna. The wireless charging loop antenna includes an extracorporal planar loop antenna and an intracorporal planar loop antenna. The intracorporal planar loop antenna is disposed inside a body, and the extracorporal planar loop antenna is disposed on a skin outside the body. The extracorporal planar loop antenna includes an extracorporal antenna substrate, an extracorporal loop radiation patch, paired connection radiation patches and a patch capacitor. The extracorporal loop radiation patch is provided with at least one extracorporal radiation patch gap. The patch capacitor is disposed at one of the at least one extracorporal radiation patch gap. The extracorporal loop radiation patch and the paired connection radiation patches form a circuit. The extracorporal loop radiation patch, the paired connection radiation patches and the patch capacitor are all on a same surface of the extracorporal antenna substrate.
US11309620B2

A dual-band antenna and a wireless communications device, where the dual-band antenna includes a first antenna arranged on a first printed circuit board (PCB), a second antenna arranged on a second PCB, and a reflection panel. An operating frequency band of the first antenna is a first frequency band. An operating frequency band of the second antenna is a second frequency band. The first frequency band is higher than the second frequency band. The second PCB is disposed between the first PCB and the reflection panel. The reflection panel includes an artificial magnetic conductor. A resonant frequency band of the artificial magnetic conductor includes the second frequency band. The first frequency band is outside the resonant frequency band. The dual-band antenna has a small size.
US11309619B2

A waveguide coupling system may include at least one waveguide member retention structure disposed on an exterior surface of a semiconductor package. The waveguide member retention structure may be disposed a defined distance or at a defined location with respect to an antenna carried by the semiconductor package. The waveguide member retention structure may engage and guide a waveguide member slidably inserted into the respective waveguide member retention structure. The waveguide member retention structure may position the waveguide member at a defined location with respect to the antenna to maximize the power transfer from the antenna to the waveguide member.
US11309614B2

A device for transmitting a signal with the aid of waveguides in rotating systems. The device includes at least one transmitting waveguide and at least one receiving waveguide. The at least one receiving waveguide and the at least one transmitting waveguide being divided into multiple radially distributed segments. The radially distributed segments of the at least one receiving waveguide each include a tap. An adder for adding the signals obtained with the aid of the taps of the radially distributed segments of the at least one receiving waveguide is also provided.
US11309611B2

A battery mount from which a battery device is attachable and detachable results in a configuration that enables easy attachment and detachment of a battery having various shapes. The battery mount includes: connection terminals configured to fit to external terminals of the battery and having a shape along which the external terminals are slidable in at least one direction; and a lever rotatable about a fulcrum and located at a side at which the connection terminals are located when seen from the battery in a state where the external terminals are fitted to the connection terminals. The external terminals are configured to be elastically deformable to fit to the connection terminals by sandwiching the connection terminals therein.
US11309609B2

A pair of end plates of a battery module are disposed respectively at end faces of a battery stack. Each of the end plates includes a first metal sheet, a second metal sheet, and a metal rod. The first metal sheet includes a plate part corresponding to a shape of each of the end faces of the battery stack, and a bent side piece provided at each of widthwise sides of the plate part. The second metal sheet includes a parallel plate part stacked on and fixed to the plate part of the first metal sheet, and a bending ridge that connects with each of sides of the parallel plate part and extends along widths of the end plates. A tubular reinforcement is defined on an inner side of the bending ridge. A metal rod is disposed in the tubular reinforcement and has ends connected to the bind bar.
US11309601B2

A battery system for holding battery cells in order to form a motor vehicle battery, includes a housing, system components for fastening and contacting the battery cells in the housing, and a foam body held in the housing for displacing air volume. The foam body has a recess for receiving a system component.
US11309597B2

A battery case is provided. The battery case includes a first fin and a second fin, wherein the first fin is stacked substantially parallel to the second fin. The first fin is separated from the second fin by an airgap. The battery case includes one or more battery cell packs, each of the one or more battery cell packs are disposed through an orifice on each the first fin and the second fin.
US11309588B1

The present disclosure pertains to motion-generating mechanisms for desulfation of lead-acid batteries, lead-acid batteries including such motion-generating mechanisms, and methods of making and using the same. For example, the present disclosure provides a lead-acid battery that includes one or more electroactive plates disposed within a casing; an electrolyte disposed within the casing and surrounding the electroactive plates; and one or more movable members disposed on or adjacent to one or more interior surfaces of the casing and in communication with the electrolyte. The one or more movable members each have a first position and a second position and movement between the first position and the second position agitates the electrolyte.
US11309586B2

A discharge circuit includes a plurality of burden circuits that are electrically connected in parallel to a plurality of power storage units, respectively. Each of the plurality of burden circuits includes (i) a resistor and a switch that are electrically connected in series between both ends of a corresponding one of the plurality of power storage units, and (ii) a control terminal that controls the switch according to a potential of the control terminal. The plurality of burden circuits are electrically connected in series between a positive electrode and a negative electrode. The control terminal of a n+1-th burden circuit from a reference point is electrically connected, via the switch of the n-th burden circuit from the reference point, to a reference point side terminal of a n-th power storage unit from the reference point. The reference point is the positive electrode or the negative electrode.
US11309584B2

Provided is an electrolyte solution for lithium secondary batteries that allows lowering the resistance of a lithium secondary battery, and suppressing characteristic degradation of the lithium secondary battery under high temperature. The electrolyte solution for lithium secondary batteries disclosed herein contains 0.05 mass % to 2.0 mass % of a compound represented by Formula (1) below. (In the formula, M+ represents a quaternary ammonium cation or a nitrogen-containing heteroaromatic ring cation, and R1 represents a C1-C5 alkyl group in which an ether oxygen is optionally inserted.)
US11309564B2

A method for manufacturing a reinforced separator including pretreating a porous support using a first solution including a first ionic polymer and ethanol; and impregnating a second solution including a second ionic polymer and a solvent into the pretreated porous support, wherein a concentration of the first ionic polymer in the first solution is lower than a concentration of the second ionic polymer in the second solution, a reinforced separator manufactured using the same, and a redox flow battery.
US11309563B2

A fuel cell system includes at least one topping fuel cell module including a topping anode portion configured to output a topping anode exhaust, and a topping cathode portion configured to output a topping cathode exhaust; at least one bottoming fuel cell module including a bottoming anode portion configured to output a bottoming anode exhaust, and a bottoming cathode portion configured to output a bottoming cathode exhaust; and an electrochemical hydrogen separation unit configured to receive at least a portion of the topping anode exhaust, to output a hydrogen-rich stream, and to output a CO2-rich stream. The bottoming anode portion is configured to receive the CO2-rich stream from the electrochemical hydrogen separation unit.
US11309557B2

The disclosure relates to a fuel cell stack and corresponding method of operating the fuel cell stack. The method comprises: determining a maximum allowable current that may be drawn from the fuel cell stack; repeatedly determining a magnitude of change to the prevailing maximum allowable current based on a prevailing allowable current ramp rate and an actual measured current of the fuel cell stack; updating the maximum allowable current according to the periodically determined magnitude of change; and controlling operating parameters of the fuel cell stack according to the prevailing maximum allowable current.
US11309556B2

An electrical power supply system has a fuel cell module and a battery. The fuel cell can be selectively connected to the battery system through a diode. The system preferably also has a current sensor and a controller adapted to close a contactor in a by-pass circuit around the diode after sensing a current flowing from the fuel cell through the diode. The system may also have a resistor and a contactor in another by-pass circuit around the diode. In a start-up method, a first contactor is closed to connect the fuel cell in parallel with the battery through the diode and one or more reactant pumps for the fuel cell are turned on. A current sensor is monitored for a signal indicating current flow through the diode. After a current is indicated, a by-pass circuit is provided around the diode.
US11309546B2

A low-cost gas diffusion electrode is described that overcomes defects of conventional techniques, that achieves both dry-up resistance and flooding resistance, and that has satisfactory power generation performance, where the gas diffusion electrode includes a conductive porous substrate, and a microporous layer containing conductive fine particles and provided on at least one surface of the conductive porous substrate. The gas diffusion electrode has, based on the number of fine pores having an area of 0.25 μm2 or more that are observed in a cross section of the microporous layer in a thickness direction, a percentage of fine pores having a circularity of 0.5 or more of 50% or more and 100% or less.
US11309541B2

A negative electrode slurry including a lithium titanium oxide, a dispersant including a polar OH group and a non-polar alkyl group, a binder, and a solvent, and a method of preparing the same.
US11309533B2

According to one embodiment, provided is a composite oxide containing lithium, niobium, and tantalum. A mass ratio of tantalum with respect to niobium is in a range of from 0.01% to 1.0%.
US11309530B2

The current invention includes an additive manufactured electrode that may be used for a flow battery system. In some embodiments, the electrode may include a composite material and/or at least one flow channel to direct, or at least influence, flow of electrolyte. The flow channel can be formed onto a surface and/or within a body of the electrode, and may be used to generate fluid pathways that cause the electrolyte to flow in a certain manner. The composite material may include a rigid core and a flexible compressible outer layer that may improve reactions zones, enhance mechanical properties, and/or provide low-pressure paths for electrolyte to flow.
US11309526B2

A display device having a light-emitting device is provided. The display device can include a buffer insulating layer disposed on a path of light emitted from the light-emitting device. The buffer insulating layer can have a stacked structure of a first buffer insulating layer having the refractive index which decreases in a direction away from the light-emitting device, and a second buffer insulating layer having the refractive index which increases in a direction away from the light-emitting device. Thus, in the display device, the unintended constructive and destructive interference of the light emitted from the light-emitting device can be prevented. Therefore, in the display device, the luminous efficacy can be increased, and the variation of color coordinates can be prevented.
US11309515B2

The present disclosure relates to a conductive film and a display device including the conductive film. More specifically, as the conductive film includes a conductive polymer layer and a plurality of metal nanowires and includes a network structure inserted in the conductive polymer layer, it is possible to provide the conductive film with high light transmittance and excellent electrical conductivity and the display device including the conductive film.
US11309502B2

A display panel and a display device are provided. The display panel includes a stretchable display area; and the stretchable display area includes a plurality of island-shaped structures and a plurality of stretchable bridges. A stretchable bridge of the plurality of stretchable bridges is configured to connect adjacent island-shaped structures of the plurality of island-shaped structures; at least one pixel is disposed on an island-shaped structure of the plurality of island-shaped structures; the stretchable display area includes a first stretchable display area and a second stretchable display area adjacent to the first stretchable display area; the first stretchable display area is disposed corresponding to an under-screen camera; and a stretchable degree of the first stretchable display area is greater than a stretchable degree of the second stretchable display area.
US11309500B2

A display panel and a manufacturing method thereof are provided. The display panel includes a flexible substrate, the flexible substrate includes a bending region and a non-bending region, and a thickness of the flexible substrate in the bending region is less than a thickness of the flexible substrate in the non-bending region.
US11309499B2

Small organic molecule semi-conducting chromophores containing a halogen-substituted core structure are disclosed. Such compounds can be used in organic heterojunction devices, such as organic small molecule solar cells and transistors.
US11309490B2

Memory devices and methods of forming the same are provided. A memory device includes a substrate, a first conductive layer, a phase change layer, a selector layer and a second conductive layer. The first conductive layer is disposed over the substrate. The phase change layer is disposed over the first conductive layer. The selector layer is disposed between the phase change layer and the first conductive layer. The second conductive layer is disposed over the phase change layer. In some embodiments, at least one of the phase change layer and the selector layer has a narrow-middle profile.
US11309480B2

An ultra-thin film superconducting tape and method for fabricating same is disclosed. Embodiments are directed to a superconducting tape being fabricated by processes which include removing a portion of the superconducting tape's substrate subsequent the substrate's initial formation, whereby a thickness of the superconducting tape is reduced to 15-80 μm.
US11309479B2

A within-chip magnetic field control device is formed in proximity to a Josephson Junction (JJ) structure. The within-chip magnetic field control device includes wiring structures that are located laterally adjacent to the JJ structure. In some embodiments, the magnetic field control device also includes, in addition to the wiring structures, a conductive plate that is connected to the wiring structures and is located beneath the JJ structure. Use of electrical current through the wiring structures induces, either directly or indirectly, a magnetic field into the JJ structure. The strength of the field can be modulated by the amount of current passing through the wiring structures. The magnetic field can be turned off as needed by ceasing to allow current to flow through the wiring structures.
US11309472B2

The present disclosure provides a manufacturing method for an LED substrate and the LED substrate, the manufacturing method for the LED substrate includes following steps: S1: preparing a carrier substrate, disposing riveting points on preset positions of the carrier substrate; S2: sintering conductive lines on the carrier substrate, and covering an outer periphery of each riveting point with connecting ends of the conductive lines; and S3: riveting terminal pins to the riveting points, combining the terminal pins with the carrier substrate, and forming a conductive connection between the terminal pins and the connecting ends of the conductive lines. Compared with a traditional manufacturing method of the LED substrate, in a manufacturing process, steps of silver paste spot coating, silver paste high-temperature sintering and the like are reduced.
US11309470B2

An array substrate and a method of fabricating the array substrate are disclosed. The array substrate includes a substrate including a plurality of pixel units arranged in an array. Each of the pixel units has a first electrode and a second electrode, and a first gap is provided between the first electrode and the second electrode. A bonding adhesive is disposed at the first gap. A micro light-emitting diode is disposed on the first electrode, the second electrode, and the bonding adhesive to prevent a failure of the micro light-emitting diode and improve product yield.
US11309469B2

A light emitting diode including a lead frame unit and a light source unit disposed on the lead frame unit, in which the lead frame unit includes a body portion having a first surface contacting the light source unit and a second surface opposite to the first surface, at least one solder hole recessed from the second surface of the body portion, a first conductive layer disposed on the first surface of the body portion and including a circular portion having a substantially circular shape and an elongated portion provided integrally with the circular portion and elongating in one direction from the circular portion, a second conductive layer disposed on the second surface of the body portion, and a connection portion disposed between the first conductive layer and the second conductive layer and penetrating through the body portion.
US11309466B2

A light emitting unit includes a reflective structure, a light transmitting body and a light emitting chip. The reflective structure has a recess formed by inner side surfaces thereof, and the reflective structure includes a side opening and a bottom opening corresponding to the recess. The side opening and the bottom opening are adjacent to each other, and the inner side surfaces are defined as a top surface and a surrounding side surface. The light transmitting body is disposed within the recess and doped with fluorescent powder. The light transmitting body includes a light emitting surface and an electrode exposing surface. The light emitting surface is corresponding to the side opening; and the electrode exposing surface is corresponding to the bottom opening. The light emitting chip is partially disposed within the light transmitting body and has a bottom, a top light emitting and side light emitting surfaces.
US11309461B2

An optoelectronic semiconductor device and a method for manufacturing an optoelectronic semiconductor device are disclosed. In an embodiment, an optoelectronic semiconductor device includes a semiconductor body having an active region configured to generate electromagnetic radiation and a coupling-out surface along a main radiation direction, and a wavelength conversion element having conversion regions, the conversion regions optically separated from one another by metallic separators, wherein the wavelength conversion element is arranged downstream of the semiconductor body in the main radiation direction of the active region, wherein the active region comprises a plurality of independently controllable emission regions, and wherein the emission regions are at least partially aligned with the conversion regions and explicitly assigned to the conversion regions.
US11309451B2

A flat panel detector and a manufacturing method thereof. The flat panel detector includes a first substrate and a second substrate. The first substrate includes a driving circuit, the second substrate includes a photosensitive element, the first substrate and the second substrate are arranged opposite to each other so as to be assembled, and the driving circuit is electrically connected with the photosensitive element to drive the photosensitive element. The flat panel detector not only can improve the filling rate of a photodiode in a pixel unit and increase the photosensitive area of the pixel unit in the flat panel detector, but also can effectively prevent static electricity and scratches generated during use and improve the photoelectric characteristics and yield of the flat panel detector.
US11309437B2

Provided are a vertical Schottky barrier diode using a two-dimensional layered semiconductor and a fabrication method thereof, the vertical Schottky barrier diode having excellent response characteristics in a high frequency region and capable of being directly fabricated from a material having a low melting point such as glass or plastic because its fabrication process is performed at a relatively low temperature. The vertical Schottky barrier diode includes: an ohmic contact layer formed of a metal; a two-dimensional layered semiconductor formed of two-dimensional transition metal dichalcogenides (TMDs) on one surface of the ohmic contact layer; a Schottky contact layer formed on one surface of the two-dimensional layered semiconductor; and a non-conductive layer formed on the other surface of the ohmic contact layer or one surface of the Schottky contact layer.
US11309436B2

A semiconductor memory device includes, a stack structure, and a channel structure passing through the stack structure, wherein the channel structure includes a channel layer passing through the stack structure and a memory layer surrounding the channel layer, the stack structure includes a gate contacting the channel layer, and the channel layer and the gate form a Schottky junction.
US11309434B2

A semiconductor device includes a layer stack with a plurality of first semiconductor layers of a first doping type and a plurality of second semiconductor layers of a second doping type complementary to the first doping type. A first semiconductor region of a first semiconductor device adjoins the first semiconductor layers. Each second semiconductor region of the first semiconductor device adjoins at least one of the second semiconductor layers, and is spaced apart from the first semiconductor region. A third semiconductor layer adjoins the layer stack and each first semiconductor region and each second semiconductor region. The third semiconductor layer includes a first region arranged between the first semiconductor region and the second semiconductor region in a first direction. A third semiconductor region of the first or the second doping type extends from a first surface of the third semiconductor layer into the first region.
US11309433B2

A non-volatile memory structure including a substrate, a plurality of charge storage layers, a first dielectric layer, and a control gate is provided. The charge storage layers are located on the substrate. An opening is provided between two adjacent charge storage layers. The first dielectric layer is located on the charge storage layers and on a surface of the opening. A bottom cross-sectional profile of the first dielectric layer located in the opening is a profile that is recessed on both sides. The control gate is located on the first dielectric layer and fills the opening.
US11309422B2

A semiconductor structure and a method for forming the same are provided. One form of the method includes: providing a base, where a channel stack and a tear-off structure span the channel stack being formed on the base, and the channel stack including a sacrificial layer and a channel layer; forming a groove in channel stacks on both sides of a gate structure; laterally etching the sacrificial layer exposed from the groove to form a remaining sacrificial layer; forming a source/drain doped region in the channel layer exposed from the remaining sacrificial layer; forming an interlayer dielectric layer on the base; etching the interlayer dielectric layer on one side of the source region to expose a surface of the channel layer corresponding to the source region; etching the interlayer dielectric layer on one side of the drain region to expose the surface of the channel layer corresponding to the drain region; forming a first metal silicide layer on a surface of the channel layer corresponding to the source region; forming a second metal silicide layer on a surface of the channel layer corresponding to the drain region; forming a first conductive plug covering the first metal silicide layer and a second conductive plug covering the second metal silicide layer. In the present disclosure, contact resistance of the first conductive plug, the second conductive plug, and the source/drain doped region is reduced.
US11309419B2

A semiconductor device includes a semiconductor fin and a gate structure above the semiconductor fin. The semiconductor fin includes a bottom portion and a top portion above the bottom portion. The bottom portion and the top portion are made of different materials. The top portion includes a head part and a neck part between the head part and the bottom portion. The neck part has a width less than a width of the head part, and the neck part is in contact with the bottom portion.
US11309413B2

A semiconductor device includes a substrate, a drift layer, a well region, and a source region. The substrate has a first conductivity type. The drift layer has the first conductivity type and is on the substrate. The well region has a second conductivity type opposite the first conductivity type and provides a channel region. The source region is in the well region and has the first conductivity type. A doping concentration of the well region along a surface of the drift layer opposite the substrate is variable such that the well region includes a region of increased doping concentration at a distance from a junction between the source region and the well region.
US11309405B2

A method for manufacturing a vertical field effect transistor (VFET) device may include: providing an intermediate VFET structure including a substrate, a plurality of fin structures formed thereon, and a doped layer formed on the substrate between the fin structures, the doped layer comprising a bottom source/drain (S/D) region; forming a shallow trench through the doped layer and the substrate below a top surface of the substrate and between the fin structures, to isolate the fin structures from each other; filling the shallow trench and a space between the fin structures with an insulating material; etching the insulating material filled between the fin structures above a level of a top surface of the doped layer, except in the shallow trench, such that a shallow trench isolation (STI) structure having a top surface to be at or above a level of the top surface of the doped layer is formed in the shallow trench; forming a plurality of gate structures on the fin structures, respectively; and forming a top S/D region above the fin structures.
US11309404B2

A finFET device includes a doped source and/or drain extension that is disposed between a gate spacer of the finFET and a bulk semiconductor portion of the semiconductor substrate on which the n-doped or p-doped source or drain extension is disposed. The doped source or drain extension is formed by a selective epitaxial growth (SEG) process in a cavity formed proximate the gate spacer. After formation of the cavity, advanced processing controls (APC) (i.e., integrated metrology) is used to determine the distance of recess, without exposing the substrate to an oxidizing environment. The isotropic etch process, the metrology, and selective epitaxial growth may be performed in the same platform.
US11309402B2

A semiconductor structure includes a semiconductor channel of a first conductivity type located between a first and second active regions having a doping of a second conductivity type that is opposite of the first conductivity type, a gate stack structure that overlies the semiconductor channel, and includes a gate dielectric and a gate electrode, a first metal-semiconductor alloy portion embedded in the first active region, and a first composite contact via structure in contact with the first active region and the first metal-semiconductor alloy portion, and contains a first tubular liner spacer including a first annular bottom surface, a first metallic nitride liner contacting an inner sidewall of the first tubular liner spacer and having a bottom surface that is located above a horizontal plane including bottom surface of the first tubular liner spacer, and a first metallic fill material portion embedded in the first metallic nitride liner.
US11309397B2

A method is presented for employing contact over active gate to reduce parasitic capacitance. The method includes forming high-k metal gates (HKMGs) between stacked spacers, the stacked spacers including a low-k dielectric lower portion and a sacrificial upper portion, forming a first dielectric over the HKMGs, forming first contacts to source/drain of a transistor between the HKMGs, and forming a second dielectric over the first contacts. The method further includes selectively removing the first dielectric to form second contacts to the HKMGs, selectively removing the second dielectric to form third contacts on top of the first contacts, removing the sacrificial upper portion of the stacked spacers, and depositing a third dielectric that pinches off the remaining first and second dielectrics to form air-gaps between the first contacts and the HKMGs.
US11309396B2

A semiconductor device includes a first device formed over a substrate. The first device includes a first gate stack encircling a first nanostructure, and the first device is a logic circuit device. The semiconductor device includes a second device formed over the first device. The second device includes a second gate stack encircling a second nanostructure, and the second device is a static random access memory (SRAM).
US11309395B2

The present invention provides a 1.5T SONOS memory structure and a manufacturing method, comprises a P-well and a storage well on its side, gates of a select transistor and a storage transistor; the height of the select transistor gate is less than the height of the storage transistor gate, an stack layer is between the gats of the select transistor and the storage transistor which height is same as the storage transistor gate; the top of the select transistor gate has a first sidewall; the sidewall of the select transistor gate has a second sidewall. The present invention strengthens the isolation between the gates of the select transistor and the storage transistor, reduces the risk of current leakage, enables the metal silicide to also grow on the gate of the select transistor, reduces the resistance of the select transistor and improves the performance of the device.
US11309393B2

An integrated circuit device including a substrate; a fin-type active region protruding from the substrate; a gate line intersecting the fin-type active region and covering a top surface and side walls thereof; a gate insulating capping layer covering the gate line; source/drain regions at sides of the gate line on the fin-type active region; first conductive plugs connected to the source/drain regions; a hard mask layer covering the first conductive plugs; and a second conductive plug between the first conductive plugs, the second conductive plug connected to the gate line by passing through the gate insulating capping layer and having a top surface higher than the top surface of each first conductive plug, wherein the hard mask layer protrudes from the first conductive plugs and toward the second conductive plug so that a portion of the hard mask layer overhangs from an edge of the first conductive plugs.
US11309390B2

The present disclosure relates to a Gallium-Nitride (GaN) based module, which includes a module substrate, a thinned switch die residing over the module substrate, a first mold compound, and a second mold compound. The thinned switch die includes an electrode region, a number of switch interconnects extending from a bottom surface of the electrode region to the module substrate, an aluminium gallium nitride (AlGaN) barrier layer over a top surface of the electrode region, a GaN buffer layer over the AlGaN barrier layer, and a lateral two-dimensional electron gas (2DEG) layer realized at a heterojunction of the AlGaN barrier layer and the GaN buffer layer. The first mold compound resides over the module substrate, surrounds the thinned switch die, and extends above a top surface of the thinned switch die to form an opening over the top surface of the thinned switch die. The second mold compound fills the opening.
US11309388B2

A switchable array includes: a microstructure of interconnected units formed of graphene tubes with open spaces in the microstructure bounded by the graphene tubes; at least one JFET gate in at least one of the graphene tubes; and a control line having an end connected to the at least one JFET gate. The control line extends to a periphery of the microstructure.
US11309387B2

The present application discloses a semiconductor device and a method for fabricating the semiconductor device. The semiconductor device includes a substrate, a first semiconductor stack having a first threshold voltage and comprising a first insulating stack positioned on the substrate, a second semiconductor stack having a second threshold voltage and comprising a second insulating stack positioned on the substrate, and a third semiconductor stack having a third threshold voltage and comprising a third insulating stack positioned on the substrate. The first threshold voltage, the second threshold voltage, and the third threshold voltage are different from each other, a thickness of the first insulating stack is different from a thickness of the second insulating stack and a thickness of the third insulating stack, and the thickness of the second insulating stack is different from the thickness of the third insulating stack.
US11309383B1

A semiconductor structure, and a method of making the same includes a multiple electrode stacked capacitor containing a sequence of first metal layers interleaved with second metal layers. A quad-layer stack separates each of the first metal layers from each of the second metal layers, the quad-layer dielectric stack includes a first dielectric layer made of Al2O3, a second dielectric layer made of HfO2, a third dielectric layer made of Al2O3, and a fourth dielectric layer made of HfO2.
US11309354B2

A nonvolatile memory device includes a substrate having an upper surface and a channel structure disposed over the substrate. The channel structure includes at least one channel layer pattern and at least one interlayer insulation layer pattern, which are alternately stacked in a first direction perpendicular to the upper surface, and the channel structure extends in a second direction perpendicular to the first direction. The nonvolatile memory device includes a resistance change layer disposed over the substrate and on at least a portion of one sidewall surface of the channel structure, a gate insulation layer disposed over the substrate and on the resistance change layer, and a plurality of gate line structures disposed over the substrate, each contacting a first surface of the gate insulation layer and disposed to be spaced apart from each other in the second direction.
US11309353B2

The present disclosure, in some embodiments, relates to a memory device. In some embodiments, the memory device comprises a substrate and an interconnect structure disposed over the substrate. The interconnect structure comprises stacked interconnect metal layers disposed within stacked interlayer dielectric (ILD) layers. A memory cell is disposed between an upper interconnect metal layer and an intermediate interconnect metal layer. A selecting transistor is connected to the memory cell and disposed between the intermediate interconnect metal layer and a lower interconnect metal layer. By placing the selecting transistor within the back-end interconnect structure between two interconnect metal layers, front-end space is saved, and more integration flexibility is provided.
US11309346B2

The present technology relates to an imaging element and an imaging apparatus that can suppress color mixture. An imaging element includes a pixel array section including a plurality of pixels that photoelectrically converts incident light, the pixel including a first signal extraction section including an application electrode connected to a first drive line for application of voltage, and a suction electrode for detecting a signal carrier generated by the photoelectric conversion, and a second signal extraction section including an application electrode connected to a second drive line for application of voltage and a suction electrode, in which a distance from the first signal extraction section to the second signal extraction section shorter than a distance from the first signal extraction section of the predetermined pixel to the second signal extraction section of another pixel adjacent to the predetermined pixel. The present technology can be applied to an imaging apparatus.
US11309343B2

The present technology relates to an imaging element, a method of manufacturing the imaging element, and an electronic apparatus that make it possible to suppress generation of a void in an infrared cutoff filter layer. The imaging element includes: a light receiving sensor that performs photoelectric conversion of incoming light; a cover glass that protects a top surface side serving as a light incidence surface of the light receiving sensor; a frame that is disposed in an outer peripheral portion between the light receiving sensor and the cover glass, and is formed with use of an inorganic material; and an infrared cutoff filter layer that is formed on an inner side on a same plane as the frame. The present technology is applicable to, for example, an imaging element having a CSP structure, and the like.
US11309342B2

Various embodiments of the present disclosure are directed towards a pixel sensor including a dummy vertical transistor structure underlying a photodetector. The pixel sensor includes a substrate having a front-side surface opposite a back-side surface. The photodetector is disposed within the substrate. A deep trench isolation (DTI) structure extends from the back-side surface of the substrate to a first point below the back-side surface. The DTI structure wraps around an outer perimeter of the photodetector. The dummy vertical transistor structure is laterally spaced between inner sidewalls of the DTI structure. The dummy vertical transistor structure includes a dummy vertical gate electrode having a dummy conductive body and a dummy embedded conductive structure. The dummy embedded conductive structure extends from the front-side surface of the substrate to a second point vertically above the first point and the dummy conductive body extends along the front-side surface of the substrate.
US11309339B2

A thin film transistor (TFT) array substrate having a display region, a pad pending region, and a wiring region connected to the display region and the pad pending region is disclosed and includes a substrate function layer and a plurality of metal layers disposed over the substrate function layer, which includes a substrate layer and all of a buffer layer, an active layer, and a first insulation layer disposed over the substrate layer, wherein the metal layers include a first metal layer, a second metal layer, and a third metal layer separately disposed within the display region and made of a same metal material including aluminum or aluminum alloy. Another aspect of the present disclosure provides a TFT array substrate, a plurality of material layers disposed therein are adopted of a material with low resistance low electrical resistance and being excellent in bending resistance.
US11309326B2

A vertical semiconductor device including a plurality of interlayer insulating layer patterns spaced apart from each other on a substrate and stacked in a vertical direction; a plurality of conductive layer patterns arranged between the interlayer insulating layer patterns and each having a rounded end, wherein at least one of the conductive layer patterns is configured to extend from one side wall of each of the interlayer insulating layer patterns and include a pad region, and the pad region includes a raised pad portion configured to protrude from a surface of the at least one conductive layer pattern; an upper interlayer insulating layer to cover the interlayer insulating layer patterns and the conductive layer patterns; and a contact plug configured to penetrate the upper interlayer insulating layer to be in contact with the raised pad portion of the at least one conductive layer pattern.
US11309298B2

A light-emitting diode device with a driving mechanism is provided. A first light-emitting diode chip, a second light-emitting diode chip and a third light-emitting diode chip are arranged on a driver circuit chip, and respectively configured to emit red light, green light and blue light. A first contact of the light-emitting diode chip, a first contact of the second light-emitting diode chip and a first contact of the third light-emitting diode chip are respectively in direct electrical contact with a first output contact, a second output contact and a third output contact of the driver circuit chip in a flip-chip manner. A second contact of the first light-emitting diode chip, a second contact of the second light-emitting diode chip and a second contact of the third light-emitting diode chip are in direct electrical contact with a common contact of the driver circuit chip.
US11309286B2

A stack package includes first and second sub-chip stacks stacked on a package substrate and bonding wires. The first sub-chip stack includes first and second sub-chips. The first sub-chip has a first surface on which a first common pad is disposed. The second sub-chip has a third surface on which a second common pad is disposed. The third surface is bonded to the first surface such that the second common pad is bonded to the first common pad. The second sub-chip includes a fourth surface opposite to the second common pad and a through hole extending from the fourth surface to reveal the second common pad. The bonding wire is connected to the second common pad via the through hole and electrically connects both of the first and second common pads to the package substrate.
US11309284B2

The present technology relates to a solid-state image capturing apparatus and an electronic device that can acquire a normal image and a narrow band image at the same time. The solid-state image capturing apparatus includes a plurality of substrates laminated in two or more layers, and two or more substrates of the plurality of substrates have pixels that perform photoelectric conversion. At least one substrate of the substrates having the pixels is a visible light sensor that receives visible light, and at least another substrate of the substrates having the pixels is a narrow band light sensor that includes narrow band filters being optical filters permeating light in a narrow wavelength band, and receives narrow band light in the narrow band.
US11309277B2

Electronic module, which comprises a first substrate, a first dielectric layer on the first substrate, at least one electronic chip, which is mounted with a first main surface directly or indirectly on partial region of the first dielectric layer, a second substrate over a second main surface of the at least one electronic chip, and an electrical contacting for the electric contact of the at least one electronic chip through the first dielectric layer, wherein the first adhesion layer on the first substrate extends over an area, which exceeds the first main surface.
US11309267B2

Provided is a semiconductor device including a substrate, a passivation layer, and a connector. The passivation layer is disposed on the substrate. The connector is embedded in the passivation. An interface of the connector in contact with the passivation layer is uneven, thereby improving the structural stability of the connector. A method of manufacturing the semiconductor is also provided.
US11309254B2

The present disclosure provides a semiconductor device and a method of manufacturing a semiconductor device. The semiconductor device includes a substrate, a conductive feature, a redistribution layer, at least one through silicon via and at least one bump. The conductive feature is disposed over a front surface of the substrate, and the redistribution layer is disposed over a back surface opposite to the front surface. The through silicon via penetrates through the substrate and contacts the conductive feature embedded in an insulative layer. The bump contacts the redistribution layer and the through silicon via and serves as an electrical connection therebetween.
US11309248B2

A power switch cell using vertical nanowire (VNW) FETs includes a switch element configured to be capable of switching between electrical connection and disconnection between a global power interconnect and a local power interconnect. The switch element is constituted by at least one VNW FET. The top electrode of the VNW FET constituting the switch element is connected with the global power interconnect.
US11309247B2

A semiconductor device, including: a substrate, a transistor layer, a dielectric layer, and a power grid structure. The transistor layer is formed on a first side of the substrate and includes a plurality of active regions for forming transistors. The dielectric layer is formed on the transistor layer and includes a conductive strip disposed on a first active region and extending toward a second active region for signal connection. The power grid structure is formed on a second side of the substrate opposite to the first side and arranged to direct a power source to the transistor layer.
US11309246B2

Electronic package structures and systems are described in which a 3D interconnect structure is integrated into a package redistribution layer and/or chiplet for power and signal delivery to a die. Such structures may significantly improve input output (IO) density and routing quality for signals, while keeping power delivery feasible.
US11309244B2

An exemplary method includes forming a fuse structure and forming a first cathode connector and a second cathode connector over the fuse structure. The fuse structure includes an anode, a cathode, and a fuse link extending between and connecting the anode and the cathode. The fuse link has a width defined between a first edge and a second edge, which extend a length of the fuse link. The cathode includes a central region defined by a first longitudinal axis and a second longitudinal axis extending respectively from the first edge and the second edge. The first cathode connector and the second cathode connector are equidistant respectively to the fuse link, the first cathode connector does not intersect the first longitudinal axis, and the second cathode connector does not intersect the second longitudinal axis, such that the central region is free of the first cathode connector and the second cathode connector.
US11309237B2

The present disclosure is directed to a semiconductor package including a substrate having a lower surface with a plurality of slot structures. The plurality of slot structures are multi-layer structures that encourage the formation of solder joints. The semiconductor package is desirable for high reliability applications in which each solder joint termination should be checked by visual systems to ensure a proper electrical connection has been made.
US11309222B2

Various semiconductor chips with solder capped probe test pads are disclosed. In accordance with one aspect of the present invention, a semiconductor chip is provided that includes a substrate, plural input/output (I/O) structures on the substrate and plural test pads on the substrate. Each of the test pads includes a first conductor pad and a first solder cap on the first conductor pad.
US11309212B2

A semiconductor device structure, along with methods of forming such, are described. The semiconductor device structure includes a device, a first conductive structure disposed over the device, and the first conductive structure includes a first sidewall having a first portion and a second portion. The semiconductor device structure further includes a first spacer layer disposed on the first portion, a second conductive structure disposed adjacent the first conductive structure, and the second conductive structure includes a second sidewall having a third portion and a fourth portion. The semiconductor device structure further includes a second spacer layer disposed on the third portion, and an air gap is formed between the first conductive structure and the second conductive structure. The second portion, the first spacer layer, the fourth portion, and the second spacer layer are exposed to the air gap.
US11309200B2

A back side substrate support portion 6 includes a lower side inclined face 622 on which an end of a back face of a substrate W slides, and a substrate support portion 632 that is located above the lower side inclined face 622 and can support an edge portion of the substrate W. When a container main body opening portion 21 is closed by a lid body 3, the edge portion of the substrate W slides on the lower side inclined face 622 and reaches the substrate support portion 632. At least a portion of the lower side inclined face 622 is configured from a second member that is different from a first member that configures the substrate support portion 632, and the second member has a lower maximum static friction coefficient and lower wear resistance than the first member.
US11309186B2

The present disclosure provides a semiconductor device with an air gap for reducing capacitive coupling in a pattern-dense region and a method for preparing the semiconductor device. The semiconductor device includes a first metal plug and a second metal plug disposed over a pattern-dense region of a semiconductor substrate. The semiconductor device also includes a third metal plug and a fourth metal plug disposed over a pattern-loose region of the semiconductor substrate. The semiconductor device further includes a dielectric layer disposed over the pattern-dense region and the pattern-loose region of the semiconductor substrate. A first portion of the dielectric layer between the first metal plug and the second metal plug is separated from the semiconductor substrate by an air gap, and a second portion of the dielectric layer between the third metal plug and the fourth metal plug is in direct contact with the semiconductor substrate.
US11309182B2

A semiconductor structure and a method for forming the same are provided. In one form, the method includes: providing a base, where a bottom core material layer is formed on the base, a plurality of discrete top core layers is formed on the bottom core material layer, an area between top core layers of the plurality of adjacent top core layers is a groove, and the groove includes a connecting groove; forming a first spacer film conformally covering the plurality of discrete top core layers and the bottom core material layer; forming a blocking structure in a remainder of the connecting groove exposed from the first spacer film; removing first spacer films on a top of the top core layers of the plurality of discrete top core layers and on the bottom core material layer using the blocking structure as a mask, to form a first mask spacer; removing the plurality of top core layers; patterning the bottom core material layer using the first mask spacer and the blocking structure as a mask, to form a bottom core layer; forming a second mask spacer on a side wall of the bottom core layer; and removing the bottom core layer. Through the blocking structure, a bottom core layer at a position corresponding to the connecting groove has a relatively large width, thereby directly forming target patterns with different spacings.
US11309181B2

To provide a sputtering apparatus capable of forming a semiconductor film in which impurities such as hydrogen or water are reduced. The sputtering apparatus is capable of forming a semiconductor film and includes a deposition chamber, a gas supply device connected to the deposition chamber, a gas refining device connected to the gas supply device, a vacuum pump for evacuating the deposition chamber, a target disposed in the deposition chamber, and a cathode disposed to face the target. The gas supply device is configured to supply at least one of an argon gas, an oxygen gas, and a nitrogen gas. The partial pressure of hydrogen molecules is lower than or equal to 0.01 Pa and the partial pressure of water molecules is lower than or equal to 0.0001 Pa in the deposition chamber.
US11309177B2

Various embodiments provide an apparatus and method for fabricating a wafer, such as a SiC wafer. The apparatus includes a support having a plurality of arms for supporting a substrate. The arms allows for physical contact between the support and the substrate to be minimized. As a result, when the substrate is melted, surface tension between the arms and molten material is reduced, and the molten material will be less likely to cling to the support.
US11309172B2

The invention generally relates to systems and methods for on-line reaction monitoring. In certain embodiments, the invention provides systems that include a reaction vessel having an outlet, a quantitation unit coupled to the outlet and configured to introduce internal standard and solvent into reaction solution flowed from the reaction vessel, one or more ion generating devices that receive flow from the quantitation unit, and a mass spectrometer. In certain embodiments, the invention provides systems for multiple reaction monitoring that include a plurality of reaction vessels, a plurality of ion generating devices, a plurality of channels, each channel coupling a reaction vessel to an ion generating device, an actuator coupled to the plurality of ion generating devices to thereby allow movement of the plurality of ion generating devices, and a mass spectrometer.
US11309151B2

A direct current interrupting switch assembly comprising a primary conductor and a secondary conductor integrated with a direct voltage source and a load. The primary conductor of the switch assembly has two branches, the first branch including a fuse with a melting member and the second branch including a pyroswitch with an interrupting member. In a first position, the second branch of the primary conductor is uninterrupted, and the interrupting member is a sufficient distance apart from the secondary conductor. When the interrupting member is moved to a second position, the current in second branch of the primary conductor is interrupted and the interrupting member contacts the secondary conductor of the switch assembly.
US11309150B2

A sensor switch includes two electroconductive terminals and two electroconductive beads. The electroconductive terminals are spaced apart along an axis. Each of the electroconductive terminals has an inner surrounding surface surrounding the axis and having an indented segment indented away from the axis. The electroconductive beads are movably and respectively disposed in the electroconductive terminals. When the sensor switch is placed such that the axis horizontally leveled, the electroconductive beads are respectively retained in the indented segments of the electroconductive terminals to be spaced apart from each other so that the sensor switch is in an open state.
US11309149B2

A rocker switch includes: a knob that rocks when an operational input is made; a case that supports the knob; a pair of switches that are provided on opposite end part sides respectively with respect to a middle part of the knob within the case; a rubber contact (an urging part) that urges opposite end parts of the knob toward a non-operated position; a pair of operation input parts that turn the respective switches ON/OFF; and a pair of fulcrum parts that are provided on the middle part side of the knob with respect to the pair of operation input parts respectively. In the pair of fulcrum parts, the fulcrum part on a side opposite to the operation input part, of the pair of operation input parts, that has turned the switch ON/OFF by an operational input being made serves as a rocking axis of the knob.
US11309143B2

A push switch including a pressing member, a movable contact, an interposed member, a first fixed contact, and a second fixed contact is provided. The pressing member includes a pressing portion configured to be pressed, and includes an elastically deformable peripheral wall portion having a lower end portion and extending downward and outward from the outer periphery of the pressing portion. The movable contact has a dome shape and is disposed below the pressing member. The interposed member is disposed between the pressing member and the movable contact, and is configured to press the movable contact by receiving and being pressed by the lower end portion of the peripheral wall portion of the pressing member. The lower end portion of the peripheral wall portion of the pressing member presses the interposed member while the peripheral wall portion is subjected to elastic deformation in response to the pressing portion being pressed.
US11309142B1

A keyboard device includes a base plate and a key structure. The base plate includes a first coupling part. The first coupling part includes a first locking hole. The key structure includes a keycap, a stabilizer bar and a first connecting element. The stabilizer bar is arranged between the keycap and the base plate. The stabilizer bar includes a transverse bar part and a first hook part. The transverse bar part is pivotally coupled to the keycap. The first hook part is penetrated through the first locking hole of the first coupling part. The first connecting element includes a first supporting structure. The first supporting structure is arranged between the first hook part of the stabilizer bar and the base plate. The first hook part is supported by the first supporting structure. Consequently, the first hook part is contacted with an inner wall of the first locking hole.
US11309134B2

A capacitor according to one embodiment of the present invention relates to a thin film capacitor including a base member and a MIM structure provided on the base member. The thin film capacitor includes a first external electrode and a second external electrode that are electrically connected to the MIM structure. The base member has a plurality of through holes penetrating between a first surface and a second surface of the base member. The MIM structure includes a first portion extending along the first surface of the base member, a second portion extending along the second surface of the base member, and a third portion provided in the plurality of through holes of the base member so as to connect the first portion to the second portion.
US11309128B2

A seat-plate-mounted capacitor includes a capacitor body and a seat plate. The capacitor body includes a case and a sealing member. The case includes a tubular part and a bottom wall that closes a first end of the tubular part. The sealing member closes a second end of the tubular part that is opposite to the first end. The capacitor body is disposed so that the sealing member is adjacent to the seat plate. The seat plate includes a base part and a support wall. The tubular part has an annular recess surrounding the tubular part, a first maximum diameter portion disposed closer to the bottom wall than the annular recess is, and a second maximum diameter portion disposed closer to the second end than the annular recess is. A diameter A of the first maximum diameter portion, a diameter B of the second maximum diameter portion, and an inner diameter C of the support wall satisfy a relation A>C>B, in a state that the capacitor body is not installed in the seat plate.
US11309127B2

A method and a plant for the production of a powdery material, which is provided for the manufacture of rare earth magnets. First of all, at least one magnetic or magnetizable raw material, respectively, is provided and is comminuted into a powdery intermediate product, which includes powder particles including corners and edges, by means of conventional comminuting methods. The sharp-edged powder particles are chamfered subsequently. The optimized powdery product including the chamfered powder particles is used for the manufacture of rare earth magnets.
US11309122B2

A wireless charging coil structure with a function of heat dissipation comprises a first connecting terminal, a second connecting terminal and a coil. The coil is disposed between the first connecting terminal and the second connecting terminal, and configured to transmit a signal between the first connecting terminal and the second connecting terminal. The coil comprises a heat-pipe segment and a transmission segment electrically and heat-conductively connected with each other. The transmission segment has a predetermined thickness, the heat-pipe segment encircles an accommodating space, and a heat-dissipating medium is disposed in the accommodating space.
US11309121B2

An inductor includes a coil configured in an open loop topology with a first multi-finger end and a second multi-finger end, wherein the fingers of the first end are disposed in interdigitating fashion with the fingers of the second end, and laid out on a first metal layer of a multi-layer structure; a plurality of pairs of metal strips laid out on a second metal layer of the multi-layer structure, wherein each of said plurality of pairs of metal strips comprises a first metal strip intersecting the first multi-finger end as seen from a top view and connecting to the first multi-finger end through a first set of vias, and a second metal strip intersecting the second multi-finger end as seen from the top view and connecting to the second multi-finger end through a second set of vias.
US11309113B2

A multilayer substrate includes a stacked body including a principal surface and insulating base material layers made of a thermoplastic resin that are stacked, and a coil including coil conductors. The coil includes a winding axis in a stacking direction. The coil conductors includes a first coil conductor closest to the principal surface, and a second coil conductor adjacent to or in a vicinity of the first coil conductor. The second coil conductor includes a wide portion of which a line width is larger than a line width of the first coil conductor. The wide portion includes an overlapping portion that overlaps with the first coil conductor, and a non-overlapping portion that does not overlap with the first coil conductor, when viewed from the stacking direction. The non-overlapping portion is curved to be closer to the principal surface than to the overlapping portion.
US11309110B2

A persistent current switch system is presented. One embodiment of the persistent current switch system includes a vacuum chamber having a winding unit and dual cooling paths. The dual cooling paths are configured to circulate a coolant flow. The dual cooling paths are defined by a first cooling path and a second cooling path. The first cooling path includes a solid thermal component disposed in direct contact with the winding unit and the second cooling path includes a cooling tube disposed in direct contact with the winding unit and configured to circulate a coolant therein. The dual cooling paths cool the temperature of the winding unit below the threshold temperature to transition the persistent current switch system from the first mode to the second mode. A method of for cooling a winding unit in a persistent current switch system and a switching system including dual cooling paths are also disclosed.
US11309101B2

The present invention relates to a conductive paste for a solar cell electrode, including a metal powder, a glass frit, an organic binder, a silicone-based additive and a solvent, wherein the silicone-based additive includes trimethylsiloxy-terminated polydimethylsiloxane, whereby an electrode formed using the conductive paste can be improved in aspect ratio, that is, line width and line height, thus increasing conductivity, and a solar cell having high power generation efficiency can be provided by enlarging the light-receiving surface through decreasing the line width of the electrode.
US11309100B1

An electrically conductive, flexible, strain resilient product is produced by mixing metal coated carbon nanotube networks with a liquid polymeric resin to produce a liquid mixture, and the mixture is cured to produce the product. The networks may include welded junctions between nanotubes formed by depositing and melting metal nanoparticles on the nanotubes to form the metal coating. After the mixing step the liquid mixture may be deposited on a flexible substrate in the form of an electrical circuit. The mixing step may further include mixing the composite with a volatile solvent to produce a selected viscosity. Then, a three-dimensional printer may be used to print the product, such as an electrical circuit, on a substrate. The product is cured in an atmosphere that absorbs the solvent. The conductivity of the mixture may be adjusted by adjusting the weight percentage of the metal coated carbon nanotube networks from 50% to 90%, but a preferred range is between 75% and 85%.
US11309098B2

Mineralogical method and apparatus for removal of cesium ion in aqueous solution are provided. In particular, a mineralogical method for removal of cesium ion in aqueous solution including controlling a temperature of radioactive wastewater containing cesium from 25 to 45° C., controlling an initial pH of the radioactive wastewater from 6.0 to 8.5, and adding iron(II) and sulfide(−II) containing sulfur in the −2 oxidation state to the radioactive wastewater, to convert the cesium ion in aqueous solution into a cesium mineral, and a mineralogical apparatus for removal of cesium ion in aqueous solution, capable of being applied to such a method, are provided.
US11309096B1

Systems and methods for injecting a carbonate-based sacrificial material into a nuclear reactor containment for containment of molten corium in severe nuclear reactor accidents are disclosed. Molten corium can be quickly cooled and solidified by the endothermic decomposition of the sacrificial material.
US11309081B2

A telemedicine system with dynamic imaging is disclosed herein. In some embodiments, the telemedicine system comprises a laser imaging and treatment apparatus, and associated systems and methods that allow a physician (e.g., a surgeon) to perform laser surgical procedures on an eye structure or a body surface with a laser imaging and treatment apparatus disposed at a first (i.e. local) location from a control system disposed at a second (i.e. remote) location, e.g., a physician's office. Also, in some embodiments, communication between the laser imaging and treatment apparatus and control system is achieved via the Internet®. Further, in some embodiments, the telemedicine system includes a dynamic imaging system and/or a facial recognition system that verifies the identity of a patient, and is capable of being used for other important applications, such as tracking and analyzing trends in a disease process.
US11309078B2

The present disclosure includes methods, devices and systems for establishing a connection between a medical device and a remote computing device, receiving an upgrade command at the medical device, storing a current version of persistent data and a current version of executable code in a first storage area of the medical device, transmitting at least the current version of the persistent data to the remote computing device, receiving a second format of the current version of the persistent data and an upgraded version of executable code at the medical device, storing the second format of the current version of the persistent data and the upgraded version of the executable code in a second storage area of the medical device, and executing the upgraded version of the executable code with the second format of the current version of the persistent data.
US11309066B2

Methods are provided for the surveillance and monitoring of a patient's medical care when the patient is treated at two or more medical organizations having different medical record systems. Patient information is received from a first medical organization and populated into an active risk assessment array that monitors the patient's risk for developing a particular disease or condition. Patient information is then received from a second medical organization and populated into the array. It is determined that actionable criteria have been met, and in response, a notification or alert is sent to the medical organizations indicating that the patient is at risk.
US11309063B2

Embodiments of the present invention are directed to a computer-implemented method for generating a framework for analyzing adverse drug reactions. A non-limiting example of the computer-implemented method includes receiving to a processor, a plurality of drug chemical structures. The non-limiting example also includes receiving, to the processor, a plurality of known drug-adverse drug reaction associations. The non-limiting example also includes constructing, by the processor, a deep learning framework for each of a plurality of adverse drug reactions based at least in part upon the plurality of drug chemical structures and the plurality of known adverse-drug reaction associations.
US11309057B2

Apparatuses and methods for post-package repair (PPR) protection. A device may enter a PPR mode to repair one or more memory addresses by blowing fuses. However, fuses may be incorrectly blown if the device receives row activation (ACT) signals while in the PPR mode. A PPR mask circuit may provide a PPR mask signal if an ACT signal is received while the memory is in the PPR mode. The PPR mask signal may suppress further ACT signals from being provided. In some embodiments, the memory may also include a PPR function circuit, which may monitor one or more signals used as part of PPR operations. If these signals are in an illegal state, the PPR function circuit may suppress PPR operations to prevent damage to the fuse array.
US11309056B2

Systems, methods, and computer program products directed to testing a System-in-a-Package (SIP) using an Automatic Test Equipment (ATE) machine. A functional representation of one or more tests to be performed in the SIP is loaded in a memory located on a load board, the load board located on the ATE machine. A test controller located on at least one of the SIP and the load board is caused to retrieve and store the one or more tests to be performed in the SIP. The test controller is instructed to conduct the one or more tests in the SIP.
US11309053B2

According to one embodiment, a semiconductor memory device includes a memory cell array, a processing circuit, a timer, a command decoder, and a training circuit. The memory cell array includes a plurality of memory cells. The processing circuit writes data into the memory cell array. The timer sets a waiting time. The command decoder receives a command output from a memory controller. The training circuit waits until the waiting time has passed since a predetermined command is received by the command decoder and performs a process relating to determination of a correction value for a signal sent from the memory controller to the processing circuit based on reference data output from the memory controller after the waiting time has passed.
US11309047B2

Disclosed herein is an apparatus that includes first and second shift register circuits coupled in series, the first and second shift register circuits being configured to perform a shift operation of a trigger signal in synchronization with a clock signal, and a clock control circuit configured to set a frequency of the clock signal to a first frequency when the trigger signal is in the first shift register circuit and set a frequency of the clock signal to a second frequency different from the first frequency when the trigger signal is in the second shift register circuit.
US11309043B2

The present disclosure relates to a memory device may include a plurality of memory cells coupled to a selected word line and to be programmed to one of first to n-th program states distinguished from each other based on threshold voltages thereof, a sensing latch storing data sensed from a bit line coupled to one memory cell, a pre-latch storing pre-verify information and a plurality of data latches storing data to be stored in the one memory cell, wherein at least one data latch stores main verify information on the main verify voltage during verify operations for the first program state to a threshold program state among the first to n-th program states until the verify operation for the threshold program state passes, and wherein the pre-latch stores the main verify information on the n-th program state after the verify operation for the threshold program state passes.
US11309035B1

Apparatuses and techniques for detecting short circuits in a memory device, and in particular, word line-to-channel short circuits and short circuits between bit line contacts at the top of NAND strings. A short circuit detection operation includes a channel pre-clean phase which discharges a channel of a non-short circuited NAND string while boosting a bit line of a short circuited NAND string, followed by a bit line pre-charge phase which boosts a bit line of the non-short circuited NAND string, followed by a bit line discharge phase which discharges the bit line of the non-short circuited NAND string, followed by a sensing phase which identifies the short circuited NAND strings as being in a programmed or non-conductive state.
US11309025B2

A semiconductor circuit includes a first circuit that applies an inverted voltage of a voltage at a first node to a second node, a second circuit that applies an inverted voltage of a voltage at the second node to the first node, a first transistor that couples the first node to a third node, and a first memory element having a first terminal coupled to the third node and a second terminal to which a control voltage is to be applied. The semiconductor circuit further includes a second transistor having a drain coupled to the third node and a gate coupled to one of the first node or the second node, a third transistor having a drain coupled to the third node and a gate coupled to the other of the first node or the second node, and a driver.
US11309019B2

A memory cell array is configured to have a plurality of memory cells arranged in a matrix, each of the memory cells being connected to a word line and a bit line and being capable of storing n values (n is a natural number equal to or larger than 3). A control circuit controls the potentials of the word line and bit line according to input data and writes data into a memory cell. The control circuit writes data into the memory cell to a k-valued threshold voltage (k<=n) in a write operation, precharges the bit line once, and then changes the potential of the word line an i number of times to verify whether the memory cell has reached an i-valued (i<=k) threshold voltage.
US11309016B1

A variable-latency computing device includes a computing module, enabling units, a storage operation unit, and a detecting controller. The enabling units are divided into at least two groups. The storage operation unit includes word lines and bit lines. The enabling units enable the word line. The storage operation unit accumulates the data values corresponding to the bit lines and the enabled word line, thereby computing first accumulation values. The detecting controller controls the computing module to stop receiving the first accumulation values when the sum of the first accumulation values is higher than a threshold value and takes turns to turn off the at least two groups. The storage operation unit computes second accumulation values during different periods. The computing module receives and computes the second accumulation values corresponding to the at least two groups, so as to generate a computation value.
US11309010B2

Apparatuses, systems, and methods for a memory-directed access pause. A controller may perform access operations on a memory by providing commands and addresses. The memory may monitor the addresses to determine if one or more forms of attack (deliberate or inadvertent) is occurring. If an attack is detected, the memory may issue an alert signal (e.g., along an alert bus) and also provide pause data (e.g., along a data bus). The pause data may specify a length of time, and responsive to the alert and the pause data, the controller may suspend access operations on the memory for the length of time specified in the pause data. The memory may use the time when access operations are paused to refresh itself, for example to heal the damage caused by the attack).
US11309008B2

An FD-SOI GC-edRAM gain cell includes: a write bit line terminal connected to a WBL; a read bit line terminal connected to a RBL; a write trigger terminal connected to a WWL, for inputting a write trigger signal; a read trigger terminal put connected to a RWL, for inputting a read trigger signal; at least one body voltage terminal connected to a respective body voltage; and multiple FD-SOI transistors. The FD-SOI transistors are interconnected to form a storage node for retaining a data signal. The bodies of at least two of the transistors are coupled in a single well to a body voltage terminal. The write trigger signal triggers writing an input data signal from the write bit line terminal to the storage node and the read trigger signal triggers outputting the retained data signal from the storage node to the read bit line terminal.
US11309007B2

A write voltage generator is connected with a magnetoresistive random access memory. The write voltage generator provides a write voltage during a write operation. A storage state of a selected memory cell in a write path of the magnetoresistive random access memory is changed in response to the write voltage. The write voltage generator includes a temperature compensation circuit and a process corner compensation circuit. The temperature compensation circuit generates a transition voltage according to an ambient temperature. The transition voltage decreases with the increasing ambient temperature. The process corner compensation circuit receives the transition voltage and generates the write voltage.
US11309005B2

The disclosed MTJ read circuits include a current steering element coupled to the read path. At a first node of the current steering element, a proportionally larger current is maintained to meet the requirements of a reliable voltage or current sensing. At a second node of the current steering element, a proportionally smaller current is maintained, which passes through the MTJ structure. The current at the first node is proportional to the current at the second node such that sensing the current at the first node infers the current at the second node, which is affected by the MTJ resistance value.
US11308994B2

A hard disk drive includes a base, a cover coupled to the base to create an enclosure, and a voice coil motor assembly that is positioned within the enclosure. The cover includes a spring positioned adjacent to the voice coil motor assembly to dampen vibration of the voice coil motor assembly.
US11308985B2

Fluoropolyether compounds that can be used as a lubricant, such as for magnetic recording media. The compounds have a terminal group that includes a phenol or benzene. The fluoropolyether compounds reduce the head to media distance while keeping comparable reliability in a hard disk drive compared to current industrial widely used fluoropolyether based lubricants.
US11308981B2

A lapping method of a MAMR head slider includes a first lapping process: controlling the lapping plate to spin at a first speed, and controlling the MAMR head slider to move at a first moving speed, and applying a first force to the MAMR head slider; and a second lapping process: controlling the lapping plate to spin at a second speed that is lower than the first speed, and controlling the MAMR head slider to move at a second moving speed that is lower than the first moving speed, and applying a second force that is lower than the first force to the MAMR head slider; and the second lapping process includes a final lapping process section, and the second force in the final lapping process being zero. In such a way, lapping marks on the ABS are reduced to improve the roughness and the reliability.
US11308979B2

A method and apparatus for classifying a spatial environment as open or enclosed are provided. In the method and apparatus, one or more microphones detect ambient sound in a spatial environment and output an audio signal representative of the ambient sound. A processor determines a spatial environment impulse response (SEIR) for the audio signal and extracts one or more features of the SEIR. The processor classifies the spatial environment as open or enclosed based on the one or more features of the SEIR.
US11308972B1

The disclosure is generally directed to a system for reducing wind noise. A system includes one or more processors coupled to a non-transitory computer-readable storage medium having instructions encoded thereon that, when executed by the one or more processors, cause the one or more processors to obtain signals respectively generated from two or more microphones during a time period, the signals representing acoustic energy detected by the two or more microphones during the time period, determine a coherence between the signals, and determine a filter based on the coherence. The filter is configured to reduce wind noise in one or more of the signals.
US11308971B2

An intelligent noise cancellation process for audio or video conference calls. Different levels of deep learning model classifiers are leveraged to determine, in real-time, the presence of noise data and voice data in audio input signals being received at numerous audio input devices. In response, appropriate action is taken to prevent the noise data from being included in the subsequent audio communication. Specifically, a lightweight neural network-based model classifier is initially used to identify noise data and/or the presence of predetermined trigger words or phrases in audio input signals. In the event that the lightweight model is unable to identify the presence of the triggering words/phrases, a heavyweight neural network-based model classifier is called upon, whereby the audio signals are attempted to be converted to a human-understandable language format (i.e., a text format) as a means of positively identifying voice data in audio input signals.
US11308970B2

A voice correction method implemented by a computer, the method includes: obtaining first voice information which is voice information recorded when noise is generated and on which noise suppression processing is performed and second voice information indicating voice information recorded in an environment in which no noise is generated, and generating emphasized information by emphasizing a component of a band corresponding to a band having a low signal noise ratio (SNR) of the first voice information, among bands of the second voice information; performing machine learning on a model based on the first voice information and the emphasized information; and generating corrected voice information by correcting third voice information on which noise suppression processing is performed, based on the machine-learned model.
US11308968B2

An audio signal output device includes an audio signal acquisition unit configured to acquire audio signals of a plurality of channels, a first electronic controller, and an output unit. The first electronic controller includes a quantization bit expansion unit configured to expand the number of quantization bits of each of the audio signals to generate an expansion region for each of the audio signals, and an audio signal processing unit configured to generate an output signal in which the plurality of channels are downmixed such that an audio signal of at least one channel from among the plurality of channels is arranged at a reference bit position different from a reference bit position for an audio signal of a different channel of the plurality of channels, by using the expansion region. The output unit is configured to output the output signal.
US11308954B2

Provided are a method of associating an AI device with a device based on a behavior pattern of a user and a device therefor. The method of associating the AI device with the device according to an embodiment of the invention receives a preset behavior pattern of the user sensed by a first camera from the first camera, receives a voice command for controlling an operation of the device from the user, and transmits the voice command to the device, thus allowing devices having no AI function to be used in conjunction with the AI device. The AI device and the dive of the invention may be associated with artificial intelligence modules, drones (unmanned aerial vehicles (UAVs)), robots, augmented reality (AR) devices, virtual reality (VR) devices, devices related to 5G service, etc.
US11308950B2

A beacon system is used to monitor the location and identity of individuals using stationary sniffers and to provide that information to a virtual assistant for improved functionality and better context derived from location with respect to standard virtual assistant queries. The system provides a heuristic mapping process providing increasingly precise mapping of the individual with minimal consumer input.
US11308946B2

Methods and an apparatus for performing feature extraction on speech in a microphone signal with embedded noise processing to reduce the amount of processing are provided. In embodiments, feature extraction and the noise estimate use an output of the same Fourier Transform, such that the noise filtering of the speech is embedded with the feature extraction of the speech.
US11308942B2

Embodiments of the present disclosure relate to a method and apparatus for operating a smart terminal. The method for operating a smart terminal includes: parsing a currently inputted user voice command to a current text command; querying a historical text command record matching the current text command from a historical text command record set corresponding to a historical user voice command set; parsing the queried historical text command record to obtain a user's intention; sending a user request generated based on the user's intention to a resource database; and commanding an action component to take an action based on a response returned from the resource database and the user's intention.
US11308935B2

The present disclosure provides a method, a browser client, and a server for reading web page information by speech. The browser client is installed with a text to speech (TTS) engine. The method includes: sending, by a browser client, a page access request to a server, where the page access request includes a page address and TTS identity information; receiving, by the browser client, response data returned by the server, where the response data includes a TTS standard version number determined by the server according to the TTS identity information, and TTS page data corresponding to the page address; and reading, by the browser client, the TTS page data by speech according to the TTS standard version number by using a TTS engine. In the present disclosure, page information is read by speech by using the TTS engine installed on the browser client. When it is inconvenient for a user to browse a page with eyes, and for users whose eyes have physical problems, the read page information can be listened by using a sense of hearing. Therefore, a convenient hearing-based manner is provided to users to browse a page.
US11308934B2

A method includes receiving text input data for conversion into synthesized speech and determining, using a hotword-aware model trained to detect a presence of a hotword assigned to a user device, whether a pronunciation of the text input data includes the hotword. The hotword is configured to initiate a wake-up process on the user device for processing the hotword and/or one or more other terms following the hotword in the audio input data. When the pronunciation of the text input data includes the hotword, the method also includes generating an audio output signal from the text input data and providing the audio output signal to an audio output device to output the audio output signal. The audio output signal when captured by an audio capture device of the user device, configured to prevent initiation of the wake-up process on the user device.
US11308932B2

A system for evaluating a noise management module of a vehicle includes a controller programmed to filter speaker signals from the noise management module using an auralization model to produce auralized sound signals that create a spatial effect to simulate sound in the vehicle at a predetermined position within the vehicle that is different than the positions corresponding to microphones used by the noise management module.
US11308929B2

A stringed instrument pickup and feedback system, comprising a sound pickup device disposed on a string instrument. The sound pickup device comprises a transducer and at least one pickup, a sound processing circuit and a power supply. The pickup activates the transducer to realize resonance enhancement on the instrument body. The transducer is disposed on the string instrument unrestricted by internal bracing. The instrument can be any of pickup, guitar, ukulele, violin, Guqin, Guzheng and Mandolin. The present invention enables the construction of stringed instrument to add vibration and amplify sound of a stringed instrument using the transducer and thus reduce the dependence on rare woods in manufacturing these instruments.
US11308923B2

An electronic device, method, and computer program product enable orienting a user interface on a display device to a detected orientation of a face. The display device presents the user interface in a default display orientation. An image capture device captures an image. A memory contains a display orientation application. A controller is communicatively coupled to the display device, the image capture device, and the memory. The controller executes the display orientation application to enable the electronic device to provide functionality of orienting the user interface. The image captured by the image capture device is received and a face is identified within the image. An orientation of the face is determined relative to the default display orientation of the display device. At least a portion of the user interface is presented on the display device in a second display orientation that correlates to the orientation of the face.
US11308921B2

An information display terminal comprises a display controller configured to determine a range to be used by an image display device to display an image on a mirror surface and a sensor unit configured to detect an ambient condition. The display controller determines the range to be used to display an image on the mirror surface using information detected by the sensor unit. The information display terminal is a mirror display having a mirror function on a display surface as well as a function of displaying an image or information on an entire surface or a portion of the mirror surface so that it can provide information while keeping convenience as a mirror.
US11308918B2

Particular embodiments described herein provide for an electronic device that includes a display panel. The display panel includes a timing controller (TCON) and a synchronization engine. The TCON can generate a video stream of video frames with a frame rate and the synchronization engine is configured to change the frame rate of the video stream by adding vertical blanking lines to or removing vertical blanking lines from video frames in the video stream.
US11308917B2

The amount of calculation related to correction of an image signal in a display device is suppressed. A liquid crystal display device includes a backlight luminance distribution calculation unit configured to calculate an intensity of illumination light from a backlight in a pixel of interest, and the backlight luminance distribution calculation unit calculates the intensity of illumination light with reference to a one-dimensional lookup table indicating a relationship between a distance from one of control areas included in the backlight to the pixel of interest and the intensity of illumination light at the distance.
US11308914B2

A display apparatus transmits a picture acquisition request for getting picture information to an external image apparatus connected through a predetermined interface to the display apparatus from the external image apparatus at predetermined intervals and gets a plurality of pieces of picture information from the external image apparatus to be displayed. The plurality of pictures may be switched at predetermined intervals, for example, to be displayed, so that the plurality of pictures may be displayed in a so-called slide show manner. A plurality of pictures for thumbnail may be produced from the plurality of pieces of picture information and be arranged together to be displayed in one picture screen of a display device.
US11308905B2

A liquid crystal display device includes a liquid crystal display panel including a plurality of pixels, and a control circuit configured to generate a source signal voltage supplied to each pixel. The liquid crystal display panel includes an active matrix substrate including a pixel electrode applied with a source signal voltage and a common electrode applied with a common voltage. The common voltage and the source signal voltage corresponding to each gradation are set such that a source-common center difference at least one of lowest and highest gradation levels is greater than the source-common center difference at least some of the other gradation levels. A degree of symmetry of a gradation level voltage is equal to or lower than 95% at least at one of gradation levels equal to or lower than a 127/255-th gradation level except for the lowest gradation level.
US11308897B2

A display device and a display control method, and the display device includes: a backlight module, a first display panel, and a second display panel, and a processor. The processor is configured to: acquire a pixel grayscale matrix of an image to be displayed; determine desired brightness of each pixel by using a grayscale-brightness curve of the second display panel based on the pixel grayscale matrix; determine set light-emitting brightness of backlight partition according to grayscale information in the pixel grayscale matrix corresponding to the backlight partition; obtain a first corrected brightness of each backlight partition based on light diffusion coefficients of the plurality of backlight partitions; determine a grayscale of pixel unit according to a brightness difference between the first corrected brightness and the desired brightness; obtain a second corrected brightness of the backlight partition.
US11308894B2

A liquid crystal display, a display panel and a manufacturing method of a display device are disclosed. The liquid crystal display includes a backlight module and a display panel including a first region and a second region with different curvatures. The display panel receives a light from the backlight module, outputs a first light in the first region and outputs a second light in the second region. The first light and the second light respectively have a first normal brightness and a second normal brightness in a normal view angle, and respectively have a first oblique brightness and a second oblique brightness in an oblique view angle. A ratio of a difference between the first normal brightness and the second normal brightness to the first normal brightness is less than a ratio of a difference between the first oblique brightness and the second oblique brightness to the first oblique brightness.
US11308893B2

Disclosed by the present application are a method for controlling brightness in mobile terminal display, a mobile terminal and a storage device, the method comprising: controlling an optical sensor and an acceleration sensor within a mobile terminal to respectively monitor in real time a change value for environmental brightness and a change value for angle of rotation; determining whether the change value for environmental brightness and the change value for angle of rotation as monitored by the mobile terminal are less than a preset brightness and a preset angle, respectively; and when yes, controlling the brightness in mobile terminal display to not change.
US11308884B2

A display device includes: a display unit; a display driver configured to drive the display unit; and a display-data generator configured to transfer a screenful of update display data to the display driver. The display driver includes a light-emission controller configured to control self-luminous elements to emit light, and a memory storing a screenful of the update display data. After a lapse of a predetermined time period from a driving stop time, the display driver reads the update display data stored in the memory and then uses the update display data to drive a screen, the driving stop time being a time when the display unit is stopped from driving based on the update display data. The display driver causes the self-luminous elements of the display unit to emit light, even during a display update or no display update performed on the display driver by the display-data generator.
US11308880B2

A light emitting display device includes a display panel, a power supply configured to supply a first potential voltage and a second potential voltage to the display panel, and a switch circuit unit configured to sense the first potential voltage applied to the display panel and to feedback the first potential voltage to the power supply, wherein the power supply compensates for the first potential voltage based on the first potential voltage fed back from the switch circuit unit and to output the compensated first potential voltage.
US11308873B2

A method of stress compensation in a display device includes accumulating a brightness value of images displayed by the display device, encoding the accumulated brightness value to preserve a protected portion of the accumulated brightness value, compressing the accumulated brightness value, storing the compressed accumulated brightness value in a memory, retrieving and decompressing the compressed accumulated brightness value to generate a decompressed value, and decoding the decompressed value based on the protected portion to generate a decoded value corresponding to the accumulated brightness value, the decoded value having lower compression noise than the decompressed value.
US11308865B2

An electroluminescent display device according to the present disclosure includes a first pixel, a second pixel sharing a data line, a reference voltage line, and an initialization voltage line with the first pixel and disposed adjoining the first pixel, a first gate line provided to supply a first gate control signal to the first pixel, a second gate line provided to supply a second gate control signal to the second pixel, a third gate line provided to supply a third gate control signal to the first and second pixels, and a fourth gate line and provided to supply a fourth gate control signal to the first and second pixels, wherein a first driving element included in the first pixel and a second driving element included in the second pixel have different channel widths.
US11308863B2

Disclosed is a timing controller including a coordinate data generation circuit configured to generate X coordinate emission data for acquiring X coordinates and Y coordinate emission data for acquiring Y coordinates of the touch coordinates, a selection circuit configured to time-divide 1 frame duration, to output image data to a display driving circuit during a display field, to output the X coordinate emission data to the display driving circuit during an X coordinate field, and to output the Y coordinate emission data to the display driving circuit during a Y coordinate field, and a control data generation circuit configured to generate source control data and gate control data for outputting the image data, the X coordinate emission data, and the Y coordinate emission data to a display panel and to output the source control data and the gate control data to the display driving circuit.
US11308849B2

Display systems for displaying digital content. The display systems have one or more LED-based lighting channels adapted to generate a circadian-inducing blue light output in first operational mode and a less-circadian-inducing blue light output in a second operational mode. The circadian-inducing blue light can have a first circadian-stimulating energy characteristic related to the associated first spectral power distributions of light generated in the first operational mode, and the non-circadian-inducing blue light can have a second circadian-stimulating energy characteristic related to the associated second spectral power distribution of light generated in the second operational mode. Disclosure methods of generating digital display content with the display systems described herein. The methods can generate a circadian-inducing blue light output in first operational mode and a less-circadian-inducing blue light output in a second operational mode.
US11308841B2

A host control unit is configured to set a transition interval between a first period for which an image is displayed at a first frame rate and a second period for which the image is displayed at a second frame rate different from the first frame rate, the transition interval being a period in which a frame rate is changed between the first frame rate and the second frame rate, and cause a display control unit to reduce a luminance difference of the image data in the transition interval, the luminance difference being caused when the frame rate is changed between the first frame rate and the second frame rate.
US11308838B2

A shift register includes a first transistor, a second transistor, a pull-up node and a switch sub-circuit. A control electrode of the first transistor is connected to a signal input terminal, a first electrode of the first transistor is connected to a first voltage terminal, and a second electrode of the first transistor is connected to a first control node. A control electrode of the second transistor is connected to a reset signal terminal, a first electrode of the second transistor is connected to a second voltage terminal, and a second electrode of the second transistor is connected to the first control node. The switching sub-circuit is connected to the first control node and the pull-up node, and is configured to control a line between the first control node and the pull-up node to be closed and opened.
US11308836B2

A source driving circuit includes a first source channel configured to output a first source driving signal to a display panel; a second source channel configured to output a second source driving signal to the display panel; a first gamma circuit configured to output first gamma values to the first source channel; and a second gamma circuit configured to output second gamma values to the second source channel. The first gamma circuit may set the first gamma values to values corresponding to red or green depending on a first switching operation of a first demultiplexer of the display panel corresponding to the first source channel. The second gamma circuit may set the second gamma values to values corresponding to blue or green depending on a second switching operation of a second demultiplexer of the display panel corresponding to the second source channel.
US11308831B2

A display panel is provided. The display panel may include a glass, a driver formed on a first surface of the glass, and a circuit layer formed on a second surface of the glass. The circuit layer may include a plurality of pixel circuits configured to drive a plurality of micro light emitting diodes (LEDs) forming a plurality of pixels of the display panel; a plurality of driving circuits which are respectively connected to the driver via wiring formed over at least one side surface of the glass, and configured to supply driving signals to the plurality of pixel circuits based on signals received from the driver; and a plurality of redundancy driving circuits connected to the plurality of respective driving circuits in parallel, the plurality of redundancy driving circuits having a same circuit structure as the plurality of respective driving circuits.
US11308829B2

The application discloses a display panel and a display device. The display panel includes a substrate. The substrate includes a bonding region and a bend region connected to the bonding region. The substrate further includes a support block disposed corresponding to the bend region and the bonding region and disposed on a side of the substrate facing away from a display surface. The maximum thickness of the support block located in the bonding region is greater than the maximum thickness of the support block located in the bend region.
US11308826B2

A modular sign including a spacer assembly affixed to graphic panels is provided. The modular sign is movable between a knock-down configuration and an erected configuration. In the knock-down configuration, the spacer assembly lays flat on a back surface of the graphic panels. In the erected configuration, the spacer assembly is positioned behind the graphic panels so as to provide a support structure for the graphic panels while simultaneously being at least partially concealed by the graphic panels. The modular sign is moved from the knock-down configuration to the erected configuration by rotating the graphic panels up and away from a flat surface and is secured in the erected configuration by inserting a key flap into a keyhole. Once the modular sign is in the erected configuration, it can be installed onto a tube and/or another support structure, such as a register sign.
US11308823B2

Provided herein are a method of using thermochromic ink for blood simulation in medical training and a method of using thermochromic ink for blood simulation. A prominent application is for simulation of Extracorporeal Membrane Oxygenation (ECMO) simulation.
US11308819B2

An early intervention application that flexibly delivers a set curriculum of automated lessons based on research about childhood development. The software also has the ability to monitor and analyze the child's progress on a daily basis. It contains exercises specially designed to improve a child's ability to integrate multiple cues. Such training has been shown to transfer, over time, to the acquisition of a full syntactic language, and ultimately to the individual's ability to engage with the world and lead a productive, independent life.
US11308818B2

Embodiments of the present disclosure relate to a method and apparatus for outputting information. The method may include: acquiring flight information, airport gate information, taxiway information and a taxiing path; constructing an integer programming model according to the flight information, the airport gate information, the taxiway information and the taxiing path, the integer programming model including a target, a decision variable and a constraint; optimizing the integer programming model according to the constraint; and solving the optimized integer programming model to obtain a corresponding relationship table of flights and airport gates, and outputting the corresponding relationship table.
US11308816B2

A method and system for automatically controlling a vehicle is provided. The method includes generating an original route of travel for a first vehicle for travel from an original location to a destination location. The vehicle is directed from the original location to the destination location such that the vehicle initiates motion and navigates the original route of travel towards the destination location in accordance with the original route of travel. Monitored vehicular attributes of the first vehicle are received and environmental attributes associated with the original route of travel are monitored with respect the first vehicle. Navigational issues associated with the vehicle traveling along the original route of travel are determined based on the monitored vehicular attributes and results of monitoring the environmental attributes. The navigational issues are used to determine if the vehicle should continue to travel along the original route of travel.
US11308809B2

The present disclosure relates to a collision control method and apparatus, an electronic device, and a storage medium. The method includes: detecting a target object in an image photographed by a traveling object; determining a forward collision hazard region of the traveling object; and executing collision control on the traveling object based on a relative relationship between the target object and the forward collision hazard region, where the collision control includes collision warning and/or driving control.
US11308808B2

In a method for reducing risks in road traffic, using a motor vehicle an information signal is generated and transmitted to an analysis unit. The information signal contains a position of the corresponding motor vehicle and an associated hazard level. Using the analysis unit, the position is assigned to a route section and a risk characteristic value is determined as a function of the hazard level. Using the analysis unit, a risk signal is generated based on the risk characteristic value and provided to at least one traffic participant.
US11308803B2

The network system triggers registration of the start of a transport journey in response to a communication of a transport user device and a transport provider device with each other, performs a continuous coordinated proximity monitoring to verify the identity of a transport user and a transport provider vehicle, and triggers registration of the end of the transport journey through communication of the transport user device and the transport provider device with each other.
US11308794B2

A remote control device may be configured to be mounted over the toggle actuator of a light switch and to control a load control device. The remote control device may include a mounting assembly and a control unit that is removably attachable to the mounting assembly. The mounting assembly may include a release tab that is configured to be operated from a locking position in which the control unit is secured to the mounting assembly, to a release position in which the control unit may be detached from the mounting assembly. The mounting assembly may include a clamp that is configured to engage with the toggle actuator of a mechanical switch to which the remote control device is mounted.
US11308792B2

A security system having a seamless integration wearable, portable, personal or body cameras for observant personnel, a locator sensor associated with each camera, a graphical user interface (GUI) module having a display, and a processor connected to the cameras and the locator sensor associated with each camera, and connected to the GUI module. Video from the cameras may be fed to the GUI. The video may be annotated by the processor with locations from locator sensors associated with the cameras. The display may provide a visualization of the location of each camera. The processor may incorporate an artificial intelligence module to process the video and locations, and based on results of processing the video and locations, can detect and model threats from the video and locations. An assessment of the threats, based on models of the threats, may result in alerts.
US11308778B2

Described herein are methods and systems for providing an integrated system for sensor monitoring and mapping in a translated coordinate system. One general aspect can include translating a digital map of a geographical region in a global positioning coordinate system to a translated coordinate system, where the geographical region includes a physical building. The method can also include generating digital interior maps of the physical building in the translated coordinate system and including on the maps control elements associated with devices physically located within the geographical region. The method can also include receiving, from a sensor data interceptor, sensor data from the devices. The method can also include providing a graphical user interface for viewing the digital maps and the sensor data associated with the physical devices on the map to provide a holistic view of the geographical region, including the exterior and interior of the physical building.
US11308776B2

A surveillance system and method with at least one wireless input capture device ICD(s) and a corresponding digital input recorder (DIR) and/or another ICD, including the steps of providing the base system; at least one user accessing the DIR via user interface either directly or remotely; the DIR and/or ICD searching for signal from the ICD(s) and establishing communication with them, and the system providing for input capture and data transmission prioritization, thereby providing a secure surveillance system having wireless communication for monitoring a target environment with prioritization capabilities.
US11308773B2

A system for directing an emergency evacuation within a building composed of one or more rooms is provided. The system comprising: a fire panel (180); one or more fire detectors (114) configured to detect a fire in each of the one or more rooms; a fire panel (180) in electronic communication with each of the one or more fire detectors (114), the fire panel (180) being configured to determine evacuation information in response to whether a fire is detected in each of the one or more rooms; and one or more hologram systems (120) in electronic communication with the fire panel (180), wherein each of the one or more hologram systems (120) is configured to generate a hologram in the one or more rooms to convey evacuation information.
US11308771B2

The present disclosure relates to systems and methods for an Automated Teller Machine to issue a secured bank card. An Automated Teller Machine to issue a secured bank card includes one or more memories storing instructions and one or more processors configured to execute instruction to perform operations. The operations include receiving a request for a secured bank card from a user, determining if the user is a current customer, obtaining bank card application information about the user, receiving additional information to confirm the identity of the user, determining if there are already existing accounts tied to the user, transmitting the bank card application information to a server associated with the card issuer, receiving card options the user is qualified for, presenting the card options and instructions to select a cash amount to be remitted, approving, upon receipt of the cash amount, issuance of the secured bank card, creating a unique account for the secured bank card, activating the secured bank card and associating it with the unique account, and dispensing the newly activated secured bank card.
US11308770B2

Systems and methods which operate in at least two modes, such as an arcade mode and a hybrid arcade/wagering mode.
US11308766B2

Gaming systems and methods for providing one or more awards in association with the accumulation of designated playing cards during a playing card accumulation sequence including a predefined quantity of plays of a card game.
US11308762B2

A method of mapping sporting event results to inputs for a game is provided. One or more event results of a particular sporting event having a particular number of participants are received, and a set of rules is selected from a plurality of sets of rules based on the particular number of participants in the particular sporting event. For each of a plurality of bets, one or more inputs for a game are determined by applying the selected set of rules to the received one or more event results of the particular sporting event. The result of the game is then determined for each of the plurality of bets based at least on the one or more determined inputs for that bet.
US11308761B2

A blockchain system for providing ticketing within a blockchain network of participating electronic devices includes an electronic gaming machine (EGM) configured to participate in the blockchain network. The EGM a memory storing a local blockchain and a system blockchain. The EGM also includes at least one processor configured to execute instructions which, when executed, cause the at least one processor to identify a first ticket creation blockchain transaction in the local blockchain from a ticket creation device of the first plurality of electronic gaming devices, the first ticket creation blockchain transaction including at least a ticket value and a ticket identifier (ID), create a system ticket creation blockchain transaction including at least the ticket value and the ticket ID, and broadcast the system ticket creation blockchain transaction to the system blockchain.
US11308756B1

A system for wagering and viewing the event on the same device while receiving the wagering data on a separate data feed from the video feed. Separate feeds would allow the wagering markets to close in more real-time while not relying on the video latency.
US11308744B1

The present invention is directed to a secure tracking and monitoring device that may not be easily taken off by the wearer or by a perpetrator without biometrically authenticated authorization. The secure tracking and monitoring device includes: a smartwatch, the smartwatch including a first computer program product; a first band with a first end attached to the smartwatch; a second band with a first end attached to the smartwatch; a biometric locking device that attaches a second end of the first band to a second end of the second band; a processor, memory, a second computer program product, a wireless transceiver, one or more locking actuators, a battery, and first camera each operatively attached to the biometric locking device; and a gel ring attached to a surface of the biometric locking device.
US11308736B2

Techniques are described herein for facilitating V2X communications using a connected vehicle platform. The techniques include receiving, from an onboard diagnostics (OBD) accessory device, a vehicle report comprising vehicle data of a vehicle equipped with the OBD accessory device, the vehicle located at a target location. An additional vehicle located within a predetermined distance of the target location is identified. The additional vehicle is equipped with an onboard diagnostics unit (OBU). A traffic advisory message is generated based at least on the vehicle data in the vehicle report. Thereafter, the techniques include determining whether the additional vehicle is located within a communication range of the vehicle and in response to making a determination that the additional vehicle is located outside of the communication range of the vehicle, the traffic advisory message is broadcasted to the OBU of the additional vehicle.
US11308729B2

A biometric imaging device configured to capture an image of an object in contact with an outer surface of the imaging device, comprising: an at least partially transparent display panel comprising a repeating transmission pattern defined by an array of display unit cells, each display unit cell having the same transmission pattern; an image sensor comprising a photodetector pixel array arranged underneath the display panel; and a collimator layer arranged between the display panel and the image sensor that comprises a plurality of first collimating structures having a first collimator opening size and a plurality of second collimating structures having a second collimator opening size different from the first collimator opening size, wherein the respective collimator opening size and relative location of the first and second collimating structure in relation to the display unit cell is based on the transmission pattern of the display unit cell.
US11308725B2

A touch display device, including a protective layer, a display module, a touch layer, a fingerprint sensor layer, a backlight, and a shading layer. The fingerprint sensor layer and the touch layer are stacked together in the display area of the display device. By integrating the fingerprint sensor layer and the touch layer, the fingerprint recognition function can be realized while implementing the touch display, which not only reduces the production process, reduces the production cost, but also reduces the overall thickness of the display device.
US11308720B2

A vehicular imaging system includes an imaging device comprising an array of photo-sensing pixels and a control having an image processor operable for processing image data captured by the imaging device. The control utilizes edge detection in processing captured image data by the image processor for detecting objects present exterior of the vehicle. Responsive at least in part to processing at the control of captured image data by the image processor, the control detects an object of interest present in the field of view of the imaging device. In detecting the object of interest present in the field of view of the imaging device and responsive at least in part to processing at the control of captured image data by the image processor, shadows present in the field of view of the imaging device are discerned and distinguished from the object of interest.
US11308714B1

A computer-based method includes receiving, at a computer-based system, an aerial image of a property that includes a first visual indicator on the aerial image that follows and identifies a boundary line for the property; using a building rooftop Deep Fully Convolutional Network (DFCN), configured and trained to predict the presence of building rooftops in aerial imagery, to predict whether any building rooftops are present within the boundary line of the property based on the aerial image; and applying a second visual indicator to the aerial image to identify and outline a building rooftop in the aerial image identified by the building rooftop deep fully convolutional network. In some implementations, other Convolutional Networks (ConvNets) are used to predict other property attributes and characteristics.
US11308711B2

Enhanced contrast between an object of interest and background surfaces visible in an image is provided using controlled lighting directed at the object. Exploiting the falloff of light intensity with distance, a light source (or multiple light sources), such as an infrared light source, can be positioned near one or more cameras to shine light onto the object while the camera(s) capture images. The captured images can be analyzed to distinguish object pixels from background pixels.
US11308703B2

Methods, computer-readable media, and apparatuses for presenting a visualization of at least one wireless channel parameter as an overlay on top of an image of an environment are described. For example, a processing system including at least one processor may obtain at least a first wireless channel parameter of at least a first location, generate a first visualization of the at least the first wireless channel parameter, where the first visualization indicates at least one of: a magnitude of the at least the first wireless channel parameter or a direction of the at least the first wireless channel parameter, and present the first visualization of the at least the first wireless channel parameter as an overlay on top of a first image of an environment associated with the first location via a display device.
US11308696B2

One implementation forms a composited stream of computer-generated reality (CGR) content using multiple data streams related to a CGR experience to facilitate recording or streaming. A media compositor obtains a first data stream of rendered frames and a second data stream of additional data. The rendered frame content (e.g., 3D models) represents real and virtual content rendered during a CGR experience at a plurality of instants in time. The additional data of the second data stream relates to the CGR experience, for example, relating to audio, audio sources, metadata identifying detected attributes of the CGR experience, image data, data from other devices involved in the CGR experience, etc. The media compositor forms a composited stream that aligns the rendered frame content with the additional data for the plurality of instants in time, for example, by forming time-stamped, n-dimensional datasets (e.g., images) corresponding to individual instants in time.
US11308678B1

Systems and methods for generating cartoon images or emojis of an individual from a photograph of the individual is described. The systems and methods involve transmitting a picture of the individual, such as one taken with a mobile device, to a server that generates a set of emojis showing different emotions of the individual from the picture. The emojis are then transmitted to the mobile device and are available for use by the user in messaging applications, emails, or other electronic communications. The emojis can be added to the default keyboard of the mobile device or be generated in a separate emoji keyboard and be available for selection by the user.
US11308677B2

Described are systems and methods for generating personalized videos with customized text messages. An example method may commence with receiving a video template. The video template may include a sequence of frame images and preset text parameters defining an animation of a text. The method may continue with generating a configuration file based on the text and the preset text parameters. The configuration file may include text parameters defining rendering the text for each of the frame images. The method may further include receiving an input text and rendering an output video comprising the sequence of frame images featuring the input text rendered according to the text parameters. The rendering may be performed based on the configuration file. The method may continue with sending the output video to a further computing device via a communication chat.
US11308675B2

Techniques related to capturing 3D faces using image and temporal tracking neural networks and modifying output video using the captured 3D faces are discussed. Such techniques include applying a first neural network to an input vector corresponding to a first video image having a representation of a human face to generate a morphable model parameter vector, applying a second neural network to an input vector corresponding to a first and second temporally subsequent to generate a morphable model parameter delta vector, generating a 3D face model of the human face using the morphable model parameter vector and the morphable model parameter delta vector, and generating output video using the 3D face model.
US11308663B2

The present invention relates to production of 2D digital images suitable for use in medical imaging. The invention particularly relates to remapping X-ray images taken from a first viewpoint so that they present the same image as seen from a second viewpoint. Remapping is achieved by registering separate 2D images taken from the first and second viewpoints of an area with a 3D scan volume of the same region to ascertain their relative viewpoints with respect to the 3D scan volume. The image taken with respect to the first viewpoint is then remapped to yield the image as seen from the second viewpoint.
US11308660B2

Motion compensated reconstruction is currently not well-suited for reconstructing the valve, the valve leaflets and the neighboring vascular anatomy of the heart. Blurring of the valve and the valve leaflets occurs. This may lead to wrong diagnosis. A new approach for motion compensated reconstruction of the valve and the related anatomy is presented in which an edge-enhancing step is performed to suppress blurring.
US11308651B2

Disclosed herein is a method of transmitting point cloud data. The method may include acquiring point cloud data, encoding geometry information including positions of points of the point cloud data, generating one or more levels of detail (LODs) based on the geometry information and selecting one or more neighbor points of each point to be attribute-encoded based on the one or more LODs, encoding attribute information of each point based on the selected one or more neighbor points of each point, and transmitting the encoded geometry information, the encoded attribute information, and signaling information.
US11308639B2

A method and apparatus for annotating point cloud data. An apparatus may be configured to cause display of the point cloud data, label points in the point cloud data with a plurality of annotation points, the plurality of annotation points corresponding to points on a human body, move, in response to a user input, one or more of the annotation points to define a human pose and create annotated point cloud data, and output the annotated point cloud data.
US11308634B2

A device includes an image sensor and a processor to: receive training images that each include multiple visual features and an ROI; receive indications of locations of ROIs within each training image; perform at least one transform on the multiple visual features and ROI of at least one training image to align the multiple visual features and ROIs among all of the training images to identify a common set of visual features present within all of the training images; derive a converged ROI from at least a portion of the ROI of at least one training image; and generate an anchor model based on the converged ROI and the common set of visual features, wherein the common set of visual features defines the anchor and are each specified relative to the converged ROI, and the anchor model is used to derive a location of a candidate ROI in an image.
US11308628B2

Methods and systems are provided for generating mattes for input images. A neural network system is trained to generate a matte for an input image utilizing contextual information within the image. Patches from the image and a corresponding trimap are extracted, and alpha values for each individual image patch are predicted based on correlations of features in different regions within the image patch. Predicting alpha values for an image patch may also be based on contextual information from other patches extracted from the same image. This contextual information may be determined by determining correlations between features in the query patch and context patches. The predicted alpha values for an image patch form a matte patch, and all matte patches generated for the patches are stitched together to form an overall matte for the input image.
US11308625B1

The present invention relates to a novel method and system for crater detection in planetary data based on marked point processes (MPP), effective for various object detection tasks in Earth observation, and for planetary image registration. The resulting spatial features are exploited for registration, together with fitness functions based on the MPP energy, on the mean directed Hausdorff distance, and on the mutual information. Two different methods—one based on birth-death processes and region-of-interest analysis, and the other based on graph cuts and decimated wavelets—are included within the present framework. Experimental results confirmed the effectiveness of the present invention in terms of crater detection performance and sub-pixel registration accuracy.
US11308612B2

This disclosure generally pertains to systems and methods for detection of infectious respiratory diseases by implementation of an automated X-rays-based triage approach alongside algorithmic clinical sample pooling for molecular diagnosis. Certain embodiments relate to methods for the development of deep learning algorithms that perform machine recognition of specific features and conditions in chest X-ray imaging data. The chest X-ray imaging data is used to guide the pooling strategy of clinical samples for a molecular test.
US11308609B2

Methods and systems are provided for sequentially selecting scan parameter values for ultrasound imaging. In one example, a method includes selecting a first parameter value for the a first scan parameter based on an image quality of each ultrasound image of a first plurality of ultrasound images of an anatomical region, each ultrasound image of the first plurality of ultrasound images having a different parameter value for the first scan parameter, selecting a second parameter value for a second scan parameter based on an image quality of each ultrasound image of a second plurality of ultrasound images of the anatomical region, each ultrasound image of the second plurality of ultrasound images having a different parameter value for the second scan parameter, and applying the first parameter value for the first scan parameter and the second parameter value for the second scan parameter to one or more additional ultrasound images.
US11308607B2

A method of producing a tablet in which an uncoated tablet is coated by a coating agent, the method including: a coating process of coating uncoated tablets with a coating agent by spray coating the coating agent onto tablets that are churned and tumbled inside a container, and drying the tablets inside the container by supplying drying air into the container and exhausting air from the container, wherein spray coating conditions, including air supply temperature, air supply rate, and spray speed, are controlled according to the weight of the coating agent with which the uncoated tablets are coated, such that the humidity of air exhausted during spray coating is within a range of from 14% RH to 30% RH.
US11308606B2

With the disclosed systems and methods for DRAM and 3D NAND inspection, an image of the wafer is received based on the output for an inspection tool. Geometric measurements of a design of a plurality of memory devices on the wafer are received. A care area with higher inspection sensitivity is determined based on the geometric measurements.
US11308593B2

An electronic device, a method and a storage medium are disclosed. The electronic device includes a processor and a memory operatively coupled to the processor. The processor is configured to receive a user input from an external electronic device. The processor is also configured to synthesize a first region that is a first partial region of a first raw image and a second partial region of a second raw image based on the user input to generate a composite raw image. The processor is further configured to modify at least one of a first attribute of the first raw image and a second attribute of the second raw image to generate a third attribute. Additionally, the processor is configured to calibrate the composite raw image using the third attribute to generate a composite image.
US11308591B1

Various computational methods and techniques are presented to increase the lateral and axial resolution of an ultrasound imager in order to allow a medical practitioner to use an ultrasound imager in real time to obtain a 3D map of a portion of a body.
US11308582B2

Embodiments relate to a super-resolution engine that converts a lower resolution input image into a higher resolution output image. The super-resolution engine includes a directional scaler, an enhancement processor, a feature detection processor, a blending logic circuit, and a neural network. The directional scaler generates directionally scaled image data by upscaling the input image. The enhancement processor generates enhanced image data by applying an example-based enhancement, a peaking filter, or some other type of non-neural network image processing scheme to the directionally scaled image data. The feature detection processor determines features indicating properties of portions of the directionally scaled image data. The neural network generates residual values defining differences between a target result of the super-resolution enhancement and the directionally scaled image data. The blending logic circuit blends the enhanced image data with the residual values according to the features.
US11308570B2

A data processing system includes a producer processor that produces a sequence of data outputs for use by consumer processors of the data processing system. The system also includes a memory for storing a sequence of data outputs produced by the data processor. The data processor encodes data outputs as encoded blocks of data, storing a particular encoded block of a first frame in a first location in the memory and an indication of the first location. The data processor stores a corresponding encoded block of a second data output in a second location and updates the indication to the second location.
US11308563B2

Systems, methods, and other embodiments associated with predicting energy efficiency program participation are described. Embodiments of a method include obtaining load data for an energy customer, and determining an empirical load shape for the energy customer based on the obtained load data. A defined load shape that most closely matches the empirical load shape is selected for the energy customer. A data structure is generated to include the defined load shape, demographic data and/or site parcel data. It is determined that the energy customer is more likely to participate in an energy efficiency program than a different energy customer by applying a trained predictive model to the data structure. Transmission of information about the energy efficiency program is controlled by assigning a higher priority to a transmission to the energy customer than to a second transmission to the different energy customer.
US11308562B1

A method and system assists users of an electronic bookkeeping system to sort financial transactions into accounts representing bookkeeping categories. The method and system generates vectors representing the accounts and the merchants known to the bookkeeping system. The method and system generates compressed versions of the vectors by compressing the vectors. The method and system assists users to sort the financial transactions by analyzing the compressed vectors.
US11308559B1

Systems and methods for offering and purchasing tokenized securities on a blockchain platform meeting current and future federal, state, and offering and holding entity rules and regulations. Tokenized securities purchased during or after the tokenized securities offering are tradable on a secondary market. The server computer of the tokenized securities provides an automated transfer capability for tokenized securities holders.
US11308542B2

Methods and systems for generating recommendations to supplement a listing of a merchant offering are disclosed. In some examples one or more keywords are extracted from one or more stored reviews associated with a first category of merchant offering. An association is stored between at least a first one of the extracted keywords and the first category. A recommendation is generated, to a merchant electronic device, to include the first keyword in a listing of a first merchant offering belonging to the first category.
US11308533B2

An object of the present invention is to provide a reliable supplier evaluation system for correctly evaluating suppliers. A supplier evaluation system 117 according to the present invention is a system for evaluating suppliers based on information relating to a transaction conducted between a buyer and the supplier. The supplier evaluation system 117 is provided with a reception function for receiving communication information 134 and e-commerce information conducted between a buyer and a supplier and that exists in a company system such as that of a buyer, a conversion function for converting the communication information and the e-commerce information into a predetermined format, a database 133 for storing keyword information, and an analysis function 127 for comparing keyword information 138 registered in advance in a storage device with the converted communication information and e-commerce information, and determining a cause of a transaction result of the e-commerce information.
US11308520B2

A vehicle advertisement display system to be mounted on a vehicle includes a display unit, a detection unit, and a control unit. The display unit performs display at least toward an interior of the vehicle. The detection unit detects at least one of a state of an occupant riding the vehicle or a motion of the occupant as a target. The control unit causes the display unit to display the advertisement image having an advertising content corresponding to the target detected by the detection unit based on correspondence information that defines the advertising content corresponding to each candidate of the target.
US11308519B2

A housing provided with an advertisement display is mounted on a vehicle or a user's article or a user's body; a local communication unit or the like is provided in the housing; and the local communication unit, the mobile terminal are wirelessly connected to each other and the GPS is activated, and the mobile terminal transmits transmission and reception information and location and speed information to the server when the mobile terminal in possession of the user approaches the housing.
US11308518B2

Systems and methods are provided for increasing sales profits by dynamically determining a promotion associated with a coupon. The promotion may be determined and delivered to a mobile device once the mobile device is in a geographic location associated with the coupon. By allowing advertisers to change or decide promotions in real-time, demand may be smoothed and profits may be maximized. When the mobile device is in the location associated with the coupons, advertisers can use a variety of factors including location, time of day, current sales or redemption data, or information known about the mobile device to set or adjust an ideal promotion for the current situation.
US11308510B2

Methods, apparatus, systems and articles of manufacture are disclosed to collect and analyze driver rating information. An example apparatus includes at least one of an audio input device or a video input device to collect at least one of audio or video; a rating input device to receive a rating associated with a person; a first rating analyzer to analyze the at least one of the audio or the video to determine demographic information for the person; and a second rating analyzer to: analyze the demographic information, the rating, and historical rating information to detect a demographic trend in the rating information; and output an indication of the trend.
US11308505B1

An electronic computing device includes a processing unit and system memory. The system memory includes instructions which, when executed by the processing unit, cause the electronic computing device to receive data associated with one or more customers of an institution. The data is received from one or more other electronic computing devices. The received data is analyzed to identify grammatical elements in the data. Relationships are derived between a plurality of the grammatical elements. At least one derived relationship is used to update a profile for a customer. At least one derived relationship is used to identify a customer for which a remedial action is warranted.
US11308502B2

A method for detecting web tracking services during browsing activity performed by clients having associated client identifiers includes the steps of extracting key-value pairs contained into navigation data, looking for one-to-one correspondence between said client identifiers and the values contained in said keys and selecting the keys for which at least a client-value one-to-one correspondence for at least a predetermined number of clients is observed, the keys identifying the associated services as services performing tracking activities.
US11308484B2

The claimed solution relates to a method of making transactions in the blockchain framework using a protected hardware and software complex to ensure secure storage of digital currencies (cryptocurrencies) and control the entire lifecycle of multiple wallets simultaneously to make transactions in the blockchain network. Basic features of the hardware and software complex include the effective control over the entire life cycle of cold wallets, generation of digital wallets and secure storage of their private keys in an isolated environment using the hardware security modules (HSM), as well as maintaining the multiple level authentication of blockchain transactions. It is possible to use all the features of the complex due to compatibility with the application programming interface (API), which enables to integrate the complex into the existing software solutions, for example, banking systems.
US11308476B1

A system and method for locating mobile communication devices in a peer to peer communication using a beacon. The system and method include determining a first location of a first mobile communication device and transmitting the beacon from the first mobile communication device, which may be received by a second mobile computing device. In response to the beacon, the first mobile communication device may receive a message from a second mobile communication device. A peer to peer communication between the first mobile communication device and the second mobile communication device based on the message may be established. The first mobile communication device may receive a second location of the second mobile communication device from the second mobile communication device, and display both the first location and the second location on a map of the first mobile communication device.
US11308462B2

Secure electronic payment is disclosed as it may be implemented for a point of sale machine such as but not limited to, vending machines/devices, parking devices/facilities, and laundry machines/facilities. An example secure electronic payment system includes a remote payment processor to confirm payment for a transaction at a point of sale device and issue a token to a mobile device for completing the transaction. A wireless interface module at the point of sale device is configured to receive the token from the mobile device for the transaction via a wireless communications protocol. A token processing module at the point of sale device confirms validity of the token. A transaction processing module negotiates the transaction at the point of sale device by actuating the point of sale device.
US11308443B2

Embodiments of this disclosure provide a goods shelf system and a method of monitoring items of the goods shelf system. The goods shelf system comprises: a goods shelf comprising a bearing body for bearing an item; a signal transmitting unit located on a side of the bearing body; a plurality of signal receiving units, located on the bearing body, for receiving a signal transmitted by the signal transmitting unit; and a processing unit, electrically connected with the signal receiving unit, for acquiring a storage state of the item on the bearing body according to an signal outputted by the signal receiving unit, wherein one or more of the plurality of signal receiving units shielded by the items are not able to receive the signal transmitted by the signal transmitting unit.
US11308437B2

A computer-implemented method, according to one embodiment, includes: receiving an offer request including one or more desired services, and selecting available offerings, each of which include at least one of the desired services. A determination is made whether available benchmarks exist for each of the at least one desired service included in each of the selected available offerings. For each desired service determined as not having available benchmarks, a draft benchmark is computed for each of a plurality of criteria. A confidence weight is also computed for each of the draft benchmarks. The available benchmarks, the draft benchmarks, and the confidence weights are further used to construct an offer which is submitted in response to the received offer request. Moreover, the draft benchmarks and the corresponding confidence weights are re-computed for each of the respective desired services in response to determining that the submitted offer was not accepted.
US11308431B2

Certain aspects of the present disclosure provide techniques for hierarchical optimization including: receiving a request to optimize a primary objective; determining a set of stages to optimize the primary objective; for each respective stage of the set of stages: determining an objective function; when the respective stage is the first stage to be processed: determining values of a set of variable inputs to the respective stage and an output of the objective function; when the respective stage is not the first stage: updating a set of fixed inputs to the respective stage by including the variable inputs to one or more previously processed stages and their corresponding values to the set of fixed inputs to the respective stage; determining values of the set of variable inputs to the respective stage and output of the objective function for the respective stage; providing a final output for display on a display device.
US11308424B2

Disclosed are methods, apparatus, systems, and computer readable storage media for providing access to a private resource in an enterprise social networking system. One or more servers may receive a request for access to a private resource to be granted to a user from a publisher. The publisher may be configured to publish a message as a feed item to one or more feeds, where the message includes a user identification identifying the user. The user does not have access to the private resource. The feed item may be provided to display in the one or more feeds. Access may be granted to the user via the one or more feeds. In some implementations, access may be granted in response to a user input from the feed item associated with a moderator or owner, the moderator or owner having a privilege to control user access to the private resource.
US11308419B2

A method including: generating, from a text corpus, a lexicon of unigrams and bigrams comprising an embedding for each of said unigrams and bigrams; training a machine learning classifier on a training set comprising a subset of said lexicon, wherein each of said unigrams and bigrams in said subset has a sentiment label; applying said machine learning classifier to said lexicon, to (i) predict a sentiment of each of said unigrams and bigrams, and (ii) update said lexicon with the predicted sentiments; and performing statistical analysis on said updated lexicon, to extract one or more sentiment composition lexicons, wherein each of said one or more sentiment composition lexicons is associated with a sentiment composition class.
US11308417B2

An information handling system includes a processing system including a first sensor, and a second sensor, and a management system including an anomaly table, a learned model table entry associated with the processing system and including a learned model and a first sensor data history, and a prediction module to implement a prediction algorithm. The management system is configured to: receive first sensor data and second sensor data, determine an estimate of a first value of the first sensor data using a second value of the second sensor data, determine a residual of the first value by a comparison of the estimate to the first value, determine a significance of the residual, where the significance having a significant value is associated with a predicted anomaly, determine that an anomaly table entry has a known anomaly class for the predicted anomaly, and perform a remediation plan to resolve the predicted anomaly.
US11308416B2

A quantum computing system and methods for performing fusion based quantum computing on encoded qubits. A fusion controller sequentially performs a series of fusion measurements on respective physical qubits of first and second encoded qubits to obtain a respective series of classical measurement results. For respective fusion measurements of the series of fusion measurements, a basis for performing the respective fusion measurement is selected based on classical measurement results of previous fusion measurements. An encoded fusion measurement result is determined based on the classical measurement results, and the encoded fusion measurement result is stored in a memory medium.
US11308413B2

A method for generating a well completion plan includes: evaluating a plurality of different well completion plans using a reservoir simulator to calculate dynamic flows of fluid through a subsurface formation, each well completion plan having a flow control device with location and associated flow setting or rating, and optionally a packer and location to provide output data for each well completion plan evaluation; developing a surrogate reservoir model using the output data and input data for each well completion plan evaluation; using intelligent sequential sampling of the output and input data for each well completion plan evaluation to provide intelligent sequential sampling data in response to the surrogate reservoir model not meeting a validation criterion; updating the surrogate reservoir model using the intelligent sequential sampling data; and iterating the using and the updating using a latest surrogate reservoir model until the latest surrogate reservoir model meets the validation criterion.
US11308411B2

In some embodiments, systems, methods, and media for automatically identifying entrepreneurial individuals in a population using individual and population level data are provided. In some embodiments, a system is provided, comprising: a database storing: grades and identifying information for classes; a hardware processor configured to: calculate, for each class, a difficulty value based on the grade for each individual; modify grades associated with the individual based on the difficulties; determine a variance using the modified grades; determine an average variance; determine that the variance for a first individual is larger average; determine that the first individual is more likely than average to be entrepreneurial; in response to determining that the first individual is more likely than average to be entrepreneurial, add identifying information of the first student to a second database of potential entrepreneurs.
US11308401B2

Systems, methods, and computer readable media directed to interactive reinforcement learning with dynamic reuse of prior knowledge are described in various embodiments. The interactive reinforcement learning is adapted for providing computer implemented systems for dynamic action selection based on confidence levels associated with demonstrator data or portions thereof.
US11308396B2

Techniques are disclosed for debugging a neural network execution on a target processor. A reference processor may generate a plurality of first reference tensors for the neural network. The neural network may be repeatedly reduced to produce a plurality of lengths. For each of the lengths, a compiler converts the neural network into first machine instructions, the target processor executes the first machine instructions to generate a first device tensor, and the debugger program determines whether the first device tensor matches a first reference tensor. A shortest length is identified for which the first device tensor does not match the first reference tensor. Tensor output is enabled for a lower-level intermediate representation of the shortest neural network, and the neural network is converted into second machine instructions, which are executed by the target processor to generate a second device tensor.
US11308394B2

Methods, systems, and apparatus, including computer programs encoded on computer storage media, for processing images or features of images using an image classification system that includes a batch normalization layer. One of the systems includes a convolutional neural network configured to receive an input comprising an image or image features of the image and to generate a network output that includes respective scores for each object category in a set of object categories, the score for each object category representing a likelihood that that the image contains an image of an object belonging to the category, and the convolutional neural network comprising: a plurality of neural network layers, the plurality of neural network layers comprising a first convolutional neural network layer and a second neural network layer; and a batch normalization layer between the first convolutional neural network layer and the second neural network layer.
US11308393B2

A hardware-based artificial neural network receives data patterns from a source. The hardware-based artificial neural network is trained using the data patterns such that it learns normal data patterns. A new data pattern is identified when the data pattern deviates from the normal data patterns. The hardware-based artificial neural network is then trained using the new data pattern such that the hardware-based artificial neural network learns the new data pattern by altering one or more synaptic weights associated with the new data pattern. The rate at which the hardware-based artificial neural network alters the one or more synaptic weights is monitored, wherein a training rate that is greater than a threshold indicates that the new data pattern is malicious.
US11308386B2

A signal processing method and apparatus includes determining a first signal F1(t) output by a first neuron, processing the first signal F1(t) using q orders of synapse weight parameters wq(t), wq−1(t), . . . , w1(t) to obtain a second signal F2(t), and inputting the second signal F2(t) to a second neuron, where the second neuron is in a layer immediately subsequent to that of the first neuron.
US11308385B2

Systems, methods, devices, and other techniques are described herein for training and using neural networks to encode inputs and to process encoded inputs, e.g., to reconstruct inputs from the encoded inputs. A neural network system can include an encoder neural network, a trusted decoder neural network, and an adversary decoder neural network. The encoder neural network processes a primary neural network input and a key input to generate an encoded representation of the primary neural network input. The trusted decoder neural network processes the encoded representation and the key input to generate a first estimated reconstruction of the primary neural network input. The adversary decoder neural network processes the encoded representation without the key input to generate a second estimated reconstruction of the primary neural network input. The encoder and trusted decoder neural networks can be trained jointly, and these networks trained adversarially to the adversary decoder neural network.
US11308379B2

RFID tags are provided for incorporation into the packaging of a microwavable food item, with the RFID tag being configured to be safely microwaved. The RFID tag includes an antenna defining a gap and configured to operate at a first frequency. An RFID chip is electrically coupled to the antenna across the gap. A shielding structure is electrically coupled to the antenna across the gap and overlays the RFID chip. The shielding structure includes a shield conductor and a shield dielectric at least partially positioned between the shield conductor and the RFID chip. The shielding structure is configured to limit the voltage across the gap when the antenna is exposed to a second frequency that is greater than first frequency. In additional embodiments, RFID tags are provided for incorporation into the packaging of a microwavable food item, with the RFID tag being configured to be safely microwaved. The RFID tag includes an RFID chip and an antenna electrically coupled to the RFID chip. The antenna may have a sheet resistance in the range of approximately 100 ohms to approximately 230 ohms, optionally with an optical density in the range of approximately 0.18 to approximately 0.29. Alternatively, or additionally, the antenna may be configured to fracture into multiple pieces upon being subjected to heating in a microwave oven. Alternatively, or additionally, the RFID tag may be incorporated in an RFID label that is secured to the package by a joinder material with a greater resistance than that of the antenna, such as a sheet resistance in the range of approximately 100 ohms to approximately 230 ohms.
US11308376B2

An equipment management system is provided with an RFID provided for each equipment, an equipment position information storage unit, an equipment management data storage unit, an image information storage unit, a reader/writer, and a portable information terminal transmitting and receiving information with each storage unit. The image information storage unit has point group information and other image information of the inside of a facility. The equipment position information storage unit has installation position information of the equipment associated with the RFID and a virtual tag allowing reference to equipment management data on the equipment management data storage unit corresponding to the equipment and the image information associated with the equipment associated with the RFID in the image information storage unit. The portable information terminal has a confirmation information acquisition unit capable of acquiring information of the virtual tag corresponding to the RFID based on information from acquired RFID.
US11308371B2

An information printing apparatus includes a history-information acquiring section configured to acquire, from a plurality of printers, history information indicating errors that occurred in the printers and printing media used in the printers, a statistical-information acquiring section configured to acquire, based on the history information, statistical information obtained by collecting statistics of the errors for each of the printing media, and an output control section configured to cause a display section to output the statistical information for each of the printing media.
US11308366B2

Disclosed is a computer program stored in a computer readable storage medium according to an exemplary embodiment of the present disclosure. When the computer program is executed by one or more processors of a computing device, the computer program may perform operations for managing a model, and the operations may include: generating an anomaly detection model including a plurality of anomaly detection sub models having a pre-learned network function through using a plurality of training data subsets included in a training data set; determining one or more anomaly detection sub models for calculating an input data among the generated anomaly detection sub models; and judging whether or not the anomaly is existed in the input data through using the one or more determined anomaly detection sub models.
US11308365B2

An image classification system is provided for determining a likely classification of an image using multiple machine learning models that share a base machine learning model. The image classification system may be a browser-based system on a user computing device that obtains multiple machine learning models over a network from a remote system once, stores the models locally in the image classification system, and uses the models multiple times without needing to subsequently request the machine learning models again from the remote system. The image classification system may therefore determine likely a classification associated with an image by running the machine learning models on a user computing device.
US11308363B2

A training device may include one or more processors configured to generate, using a data augmentation model, augmented sensor data for sensor data, the sensor data provided by a plurality of sensors, wherein the augmented sensor data comprise error states of one or more sensors of the plurality of sensors providing the sensor data, and to train an object detection model based on the augmented sensor data.
US11308357B2

A data generation apparatus for automated travel, the data generation apparatus being a data collection apparatus characterized by comprising: obtaining means for obtaining external environment information; and labeling means for adding, to focus information included in the external environment information obtained by the obtaining means, a label corresponding to passing of a vehicle through a position at which the external environment information has been collected.
US11308352B2

An apparatus comprising: an obtaining unit configured to obtain target data as a result of discrimination of each portion of input data performed by a discriminator having learned in advance by using existing labeled data; a setting unit configured to set each portion of the target data, which is effective for additional learning of the discriminator, as local data; a determining unit configured to determine not less than one partial region of the target data, which accepts labeling by a user, based on a distribution of the set local data in the target data; and a display control unit configured to cause a display unit to display the determined not less than one partial region.
US11308351B2

The present disclosure relates to a method and apparatus for recognizing a sequence in an image, an electronic device, and a storage medium. The method includes: performing feature extraction on a to-be-processed image to obtain a first feature map of the to-be-processed image, where the to-be-processed image includes a sequence formed by stacking at least one object along a stacking direction; determining a region feature of each segmented region in the to-be-processed image based on the first feature map, where all segmented regions are obtained by dividing the to-be-processed image into k regions along the stacking direction, k is a set number of objects stacked along the stacking direction, and k is an integer greater than 1; and determining a category of each object in the sequence based on the region feature of each segmented region. Embodiments of the present disclosure may implement recognition of stacked objects in a sequence.
US11308338B2

In various examples, a deep neural network (DNN) is trained to accurately predict, in deployment, distances to objects and obstacles using image data alone. The DNN may be trained with ground truth data that is generated and encoded using sensor data from any number of depth predicting sensors, such as, without limitation, RADAR sensors, LIDAR sensors, and/or SONAR sensors. Camera adaptation algorithms may be used in various embodiments to adapt the DNN for use with image data generated by cameras with varying parameters—such as varying fields of view. In some examples, a post-processing safety bounds operation may be executed on the predictions of the DNN to ensure that the predictions fall within a safety-permissible range.
US11308331B2

A method and system for summarizing multimedia content is disclosed. The method includes the steps of extracting a set of video files from a multimedia content such that each of the set of video files comprises a plurality of frames, and summarizing each of the set of video files to generate a set of summarized video files. Summarizing includes modifying a number of frames in each of the set of video files while retaining a caption generated for each of the set of video files. The method further includes generating sets of bridge frames for the set of summarized video files, based on a deep learning model. A set of bridge frames from the sets of bridge frames maintains continuity between corresponding adjacent summarized video files. The method includes generating a summarized multimedia content based on the set of summarized video files and the sets of bridge frames.
US11308326B2

An electronic apparatus and a controlling method thereof are provided. The controlling method according to an embodiment includes acquiring contents and storing the contents in a memory, identifying a first section of the contents related to a first behavior by analyzing the stored contents, outputting contents of the identified first section, acquiring a user image captured while the contents of the first section is output, identifying whether the first behavior is completed by analyzing the user image, and based on identifying that the user has completed the first behavior, outputting contents of a second section, the second section being a next section of the first section.
US11308324B2

An object detecting system, which detects an object by using a hierarchical pyramid structure includes: a pyramid image generator configured to receive a plurality of input images respectively corresponding to a plurality of time points and generate a plurality of pyramid images corresponding to each of the plurality of input images; an object extractor configured to generate a plurality of pieces of object data by extracting at least one object from the plurality of pyramid images; and a buffer storing the plurality of pieces of object data on an object basis.
US11308321B2

There is provided a method, system, and non-transitory computer-readable storage medium for performing three-dimensional, 3D, position estimation for the cornea center of an eye of a user, using a remote eye tracking system, wherein the position estimation is reliable and robust also when the cornea center moves over time in relation to an imaging device associated with the eye tracking system. This is accomplished by generating, using, and optionally also updating, a cornea movement filter, CMF, in the cornea center position estimation.
US11308319B2

A technique making use of a few-shot model to determine graphical features present in an image based on a small set of examples with known graphical features. Where a support set including a number of images that each have a known combination of graphical features, the image recognition can identify unknown combinations of those graphical features in any number of query images. In an embodiment of the present disclosure examples of a filled-out form are used to interpret any number of additional filled out versions of the form.
US11308317B2

An electronic device according to an embodiment disclosed in the present document may comprise: an imaging device for generating image data; a communication circuit; at least one processor operatively connected to the imaging device and the communication circuit; and a memory operatively connected to the processor, for storing a command.
US11308307B2

A fingerprint sensing module including a substrate, a plurality of photosensitive devices, a collimation structure layer, a light-shielding layer, an interposer and a plurality of micro lenses is provided. The photosensitive devices are disposed on the substrate. The collimation structure layer is disposed on the photosensitive devices. The light-shielding layer is disposed on the collimation structure layer and has a surface and a plurality of first openings recessed from the surface. The first openings respectively overlap the photosensitive devices. The interposer is disposed on the collimation structure layer and positioned in a part of the first openings of the light-shielding layer. The micro lenses are disposed on the interposer and respectively overlap the first openings.
US11308305B2

This application provides a fingerprint collection apparatus. According to the fingerprint collection method and the related apparatus that are provided in this application, a sensor array is divided into a plurality of areas in terms of a column based on a quantity of input ports of an analog front end component and a quantity of columns of the sensor array, and sensor units in different areas multiplex input channels of the analog front end component by using switches. In this way, when scanning row scanning lines in the sensor array, a row scanning circuit may control the switches to output, to the analog front end component in a time division manner, original fingerprint data collected by the sensor units in the different areas, so that fewer input channels of the analog front end component can be required, and a size of a fingerprint collection apparatus can be reduced.