US10986758B2
A charger is provided with an intake hole through which outside air may flow into the interior of and through the body of the charger, and an exhaust hole from which the outside air is discharged through by the driving a cooling fan. A first vertical wall that surrounds the intake hole or a region exposed to water that drops down the intake hole in a fence-shaped manner, and a second vertical wall that surrounds the exhaust hole or a region exposed to water that drops down the exhaust hole in a fence-shaped manner are provided on a bottom plate of the housing. An electrical circuit board is disposed outward of an area where the first vertical wall surrounds the intake hole and also disposed outward of an area where the second vertical wall surrounds the region exposed to water that drops down the exhaust hole etc.
US10986755B2
A heat transfer apparatus includes a first chamber horizontally offset from a second chamber to form an upper housing and a lower housing. The upper housing may be stacked on top of and fastened to the lower housing. The heat transfer apparatus may include a heat exchange interface fixed to a bottom surface of the lower housing. The heat exchange interface may absorb heat from a proximate heat source and transfer the absorbed heat to an inner surface of the lower housing. The apparatus includes a pump including an impeller and a stator disposed therein. The lower housing may separate the impeller from the stator so that the stator is isolated from the impeller by a surrounding casing. A liquid coolant may be circulated from an inlet, over the heat exchange interface and out to an outlet to remove heat from a processer proximate to the heat exchange interface.
US10986753B2
A cooling apparatus and method including a plurality of heat-producing devices positioned in a plurality of cabinets arranged in a row that allows flow of a first fluid through the heat-producing devices and cabinets where the flow is directed from an upstream end of the row to a downstream end of the row. The cabinets have a space therebetween wherein a heat exchanger is positioned between and adjacent to the cabinets, thereby the cabinets and heat exchangers alternate in the row. Each heat exchanger allows flow of a second fluid therethrough for cooling the first fluid. A fluid-moving device is positioned adjacent the heat-producing devices for encouraging flow of the first fluid through the cabinets' heat-producing devices and through the heat exchangers, thereby encouraging heat transfer in each of the heat exchangers from the first fluid to the second fluid.
US10986741B2
Provided is an electronic control device that can be reduced in size and weight and can maintain high reliability even under a severe environment.
The electronic control device includes: a control substrate; a connector having one end connected to the control substrate and the other end connected to an external terminal; and a housing that covers at least the control substrate and a connecting portion on the connector with the control substrate, in which the housing includes a resin and a metal plate, the metal plate includes a bend part at its outer peripheral portion, and the bend part is covered with the resin.
US10986733B2
A method for manufacturing an electromechanical structure, includes producing conductors and/or graphics on a substantially flat film, attaching electronic elements on the said film in relation to the desired three-dimensional shape of the film, forming the said film housing the electronic elements into a substantially three-dimensional shape, and using the substantially three-dimensional film as an insert in an injection molding process by molding substantially on said film, wherein a preferred layer of material is attached on the surface of the film. A corresponding arrangement for carrying out the method is also presented.
US10986719B2
A security system for use with a wireless access point that is configured to transmit a first wireless signal within a predetermined transmission range includes an outdoor lighting fixture including a master wireless transceiver configured and located to receive the first wireless signal from the wireless access point and to re-transmit the first wireless signal beyond the predetermined transmission range; and a first peripheral device located and configured to receive the first wireless signal re-transmitted from the master wireless transceiver, and to transmit a second wireless signal to at least one of (a) the wireless access point via the master wireless transceiver, and (b) a second peripheral device.
US10986717B1
An apparatus comprising a camera sensor and a processor. The camera sensor may be configured to generate video data of an area of interest. The processor may be configured to (A) analyze the video data, (B) generate control signals and (C) adjust a status of a plurality of security responses. The control signals may be generated in response to (a) the analysis of the video data and (b) the status of the security responses. The control signals may adjust an activation of the security responses. A first of the security responses may be activated in response to an event detected by the analysis of the video data. A first communication to a first contact may be initiated based on the analysis of the video data of the event. A second communication to a second contact may be initiated based on a response to the first communication.
US10986716B2
The anti-fouling load arrangement uses the hull of a vessel as one plate of a capacitor to capacitively couple an electrode of the anti-fouling load arrangement to a power source within the hull. The other electrode of the anti-fouling load arrangement receives current from the power source via a wire, or via the conductivity of the sea water, which may be enhanced by the presence of a conductive plate on the surface of the water. A plurality of anti-fouling load arrangements may be applied to the hull as flexible tiles, or rigid tiles that conform to the shape of the hull.
US10986715B1
In driving a segmented LED loading, an alternating current (AC) voltage is rectified into a direct current (DC) voltage; the DC voltage is regulated into an input voltage and the input voltage is maintained higher than a lowest voltage used for lighting at least one LED segment of the segmented LED loading; the input voltage and a current flowing through the segmented LED loading is detected to generate a switch control signal and a current control signal; respective operation states of each of a plurality of switches of a LED segment switch module are controlled by the switch control signal to control each LED segment of the segmented LED loading as power-supply state or no-power-supply state; and the current of the segmented LED loading is regulated based on the current control signal.
US10986708B2
Aspects of the disclosure provide for a circuit including a binary-weighted DAC, a first transistor, a second transistor, a switch, a first current mirror, a second current mirror. The binary-weighted DAC is coupled between a first node and a second node and configured to receive a plurality of bits of a digital control signal. The first transistor has a source coupled to the first node, a drain coupled to a third node, and a gate coupled to a fourth node. The second transistor has a source coupled to the first node, a drain coupled to the third node, and a gate. The switch is coupled between the gate of the second transistor and the fourth node and configured to receive a partition control signal. The first current mirror is coupled to the third node and the second node. The second current mirror is coupled to the first current mirror.
US10986702B2
Described herein is an apparatus for induction heating. The apparatus includes a plurality of induction heating cells attachably coupled together. Each induction heating cell of the plurality of induction heating cells is movable relative to adjacent induction heating cells of the plurality of induction heating cells to conform the plurality of induction heating cells to a non-planar surface. Each induction heating cell of the plurality of induction heating cells includes a power connector and a coupling feature to couple the respective induction heating cell with one or more other induction heating cells of the plurality of induction heating cells.
US10986696B2
Embodiments of the present application provide a method and a device for wireless communication, which can balance the relationship between resource utilization and transmission reliability. The method includes: a network device determines a transmission mode of a packet data convergence protocol PDCP protocol data unit PDU, where the transmission mode includes a duplicate data transmission mode or a single link transmission mode; and the network device transmits the PDCP PDU to the terminal according to the transmission mode of the PDCP PDU.
US10986689B2
A method, mobile device (101) and radio access network RAN (102) are disclosed for suspending and re-establishing a radio resource control (RRC) connection. In some examples, the mobile device (101) indicates a preference to have the RRC connection either suspended or released. In other examples, RAN (102) sends to the mobile device (101) a connection suspend command message instructing the mobile device to suspend a RRC connection with the RAN (102). The mobile device (101), in response to the connection suspend command message, suspends the RRC connection. When the RRC connection is suspended the mobile device (101) cannot transmit or receive user plane data to the RAN (102) and performs functions the same as or similar to idle mode functions. On suspension, RRC connection information is stored and can be used to re-establish the suspended RRC connection.
US10986687B2
A method of supporting a buffer status report (BSR) associated with a device-to-device (D2D) communication includes: establishing a radio resource control (RRC) connection with an evolved NodeB (eNB) and receiving configuration information associated with a D2D communication from the eNB, the configuration information including information of a resource allocation mode for a D2D data transmission and information of a timer associated with a BSR for a D2D data transmission; determining, by a user equipment (UE), a radio link failure (RLF), the RLF being associated with a connection problem of the RRC connection; initializing a re-establishment process for the RRC connection; canceling all BSRs for a D2D data transmission in response to the determined RLF, the canceled BSRs for a D2D data transmission being associated with a D2D data transmission scheduled by the eNB; and initializing the timer associated with a BSR for a D2D data transmission.
US10986686B2
Described herein are techniques for transmitting data to an offline Internet of Things (IoT) device using a transient device. The techniques including a method comprising receiving, at a transient device in a first location that is communicatively coupled to a base station by a first network at a first time, a first portion of a plurality of portions of data for delivery to an offline IoT device. The method further including connecting the transient device in a second location to the offline IoT device using a short-range network at a second time after the first time. The method further including transferring the first portion of the plurality of portions of data from the transient device to the offline IoT device using the short-range network.
US10986684B2
The present disclosure provides a network matching and pairing method, including: connecting to a device via bluetooth; transmitting an instruction of setting a high bluetooth connection parameter to the device via bluetooth, for the device to set a bluetooth connection parameter thereof as a high bluetooth connection parameter; transmitting WiFi information to the device via bluetooth, the WiFi information comprising information of a WiFi connection end; and transmitting an instruction of setting a low bluetooth connection parameter to the device via bluetooth, for the device to set the bluetooth connection parameter thereof as a low bluetooth connection parameter and to connect to the WiFi connection terminal via WiFi under the low bluetooth connection parameter.
US10986681B2
Disclosed is a method and apparatus for processing an initialization for a D2D communication between user equipments (UEs). The method includes: determining D2D subframes available for a D2D communication, the D2D subframes including a first D2D subframe and a second D2D subframe, each of the first D2D subframe and the second D2D subframe including a D2D slot corresponding to D2D slot number 0; and at a start of the D2D slot of the first D2D subframe and at a start of the D2D slot of the second D2D subframe, processing an initialization associated with a pseudo-random sequence of a D2D communication. The first D2D subframe and the second D2D subframe each include a D2D slot corresponding to D2D slot number 1. At least one of the first D2D subframe and the second D2D subframe corresponds to a non-zero subframe number of a radio frame.
US10986680B2
A terminal communication method includes obtaining, by a communications device, start information and length information, where the start information is used to indicate a start location of a first time resource. The method further comprises determining the first time resource based on the start information and the length information, where the first time resource is used to indicate a transmit or receive time resource of a sidelink signal.
US10986670B2
A random access feedback method, a random access processing method, a base station and a terminal are provided. The random access feedback method includes: receiving a first message sent by a terminal in performing a random access, wherein the first message comprises a preamble field and a data field; detecting the preamble field and the data field of the first message to obtain a detection result of whether or not a preamble exists in the first message and/or whether or not data is successfully obtained in the first message; and feeding back the detection result to the terminal.
US10986663B2
The present invention relates to uplink signal transmission by a user equipment (UE) in terms of timing advance value in a wireless communication system. According to an embodiment of the invention, the UE applies a predetermined timing advance value for a TAG (Timing Advance Group) if the TAG includes only one or more first type cells. Here, a random access procedure is not supported on the first type cells. Based on it, the UE transmits the uplink signals to the network on one of the first type cells based on the timing advance value applied for the TAG.
US10986660B2
Disclosed is an uplink (UL) multi-user (MU) transmission method by a station (STA) in a wireless LAN (WLAN) system. The uplink multi-user transmission method by an STA in a WLAN system according to the present invention includes the steps of: receiving a trigger frame including resource unit allocation information for orthogonal frequency division multiple access (OFDMA) transmission; transmitting a UL MU physical protocol data unit (PPDU) frame, on the basis of frequency resource allocation information; and receiving an ACK frame for the UL MU PPDU.
US10986646B1
Apparatuses, methods, and systems for data source reporting are disclosed. A method includes receiving, by a base station, one or more preambles from a set of one or more data sources during a scheduled time slot, receiving, by the base station, one or more virtual preambles from a network server during the scheduled time slot, wherein the one or more virtual preambles are associated with another set of one or more data sources, generating, by the base station, responses to the preambles and the virtual preambles, wherein the responses included scheduled time and frequency allocations for uplink communication from the set of one or more data sources and the other set of one or more data sources, and transmitting, by the base station, the responses to the set of one or more data sources and the other set of one or more data sources.
US10986641B2
A wireless communication platform utilizes flexible bandwidth assignment to re-allocate bandwidth between spot beams. The platform may assign a first combination of frequency and polarization (FP) to a first spot beam and a second combination of frequency and polarization to a second spot beam that is adjacent and at least partially overlapping the first spot beam. The platform may assign to the first spot beam a reserved combination of frequency and polarization during a first time period, and at second time, assign the reserved combination to the second spot beam. The platform may also assign the reserved combination simultaneously to adjacent spot beams by managing user of the reserved combination by geographically isolated terminals in the spot beams. The platform may further assign different portions of the reserved combination to adjacent spot beams without geographical limitations.
US10986635B2
A wireless terminal capable of communicating with multiple wireless base stations through a network in which multiple wireless communication methods are used in a mixed manner. A storage unit stores, as a communication history, at least location information for the wireless terminal and information pertaining to the wireless base station at the time of communication with each wireless base station. An acquisition unit acquires the location information for the wireless terminal. On the basis of the acquired location information for the wireless terminal and the communication history stored in the storage unit a derivation unit derives a connection base station from the multiple wireless base stations, as the wireless base station to be used in data communication. A communication unit performs data communication with the derived connection base station.
US10986633B2
A communications device transmits and receives data via a wireless access interface in a mobile communications network. First resource allocation messages are received by communications devices to allocate one or more of plural communications resource elements of a host frequency range of a host carrier. Second resource allocation messages are received by reduced capability devices to allocate one or more of a first section of the communications resources within the first frequency range for preferable allocation to the reduced capability devices of a first virtual carrier, the first resource allocation messages identifying one or more of the communications resource of the host carrier allocated to the communications devices with reference to a first reference frequency and the second resource allocation messages identifying one or more communications resources of the first virtual carrier allocated to the reduced capability devices with reference to a second reference frequency within the first virtual carrier.
US10986632B2
A method by which a user equipment (UE) transmits device-to-device (D2D) data in a wireless communication system, according to one embodiment of the present invention, comprises the steps of: determining a bitmap to be applied to a subframe pool for data transmission by using information indicating a time resource pattern (TRP); and transmitting D2D data in a subframe indicated by the bitmap, wherein a set of bitmaps indicatable by the information indicating the TRP when a radio resource control (RRC) information element related to a TRP subset is configured in the UE is a subset of a bitmap set indicatable by the information indicating the TRP when the UE is not concerned in the RRC information element related to the TRP subset.
US10986626B2
Systems and methods are introduced for managing a multi-band wireless networking system using a robust control plane. In an embodiment, multiple wireless networking devices are interconnected via a dedicated wireless backhaul to collectively form a single multi-band wireless network providing broad coverage to a client device. The multi-band wireless networking system is managed by wirelessly communicating control information between the multiple wireless networking devices over the control plane in a robust manner that guarantees delivery while minimizing latency. Example techniques for achieving this robust transfer of information include use of robust data rates, use of multiple backhaul channels, use of hybrid Automatic Repeat Request (ARQ), use of dedicated control channels, use of alternative transport protocols, and implementation of distributed router functionality.
US10986625B2
Methods and apparatuses are provided for transmitting and receiving control information. A method for transmitting control information, performed by a base station, includes transmitting, to a terminal, information associated with a resource region carrying a control channel; transmitting, to the terminal, by upper layer signaling, a plurality of values associated with control channel candidates, each of the plurality of values corresponding to each of a plurality of numbers associated with CCEs constituting one control channel candidate, wherein the each of the plurality of values indicates a number of control channel candidates to be monitored by the terminal; determining a set of control channel candidates based on an ID of the terminal and at least one of the plurality of values associated with the control channel candidates; selecting at least one control channel candidate from among the set of control channel candidates; and transmitting the control information to the terminal through the at least one selected control channel candidate in the resource region.
US10986621B2
Disclosed are a method, device and system for determining a coding modulation parameter. The method includes: a terminal receives downlink control information from a base station, and determines a coding modulation parameter according to a domain, within the downlink control information, used for determining the coding modulation parameter. In the present invention, a coding modulation parameter is determined according to a domain, within downlink control information, used for determining the coding modulation parameter, thereby implementing coding modulation parameter determination for an NB-IOT system.
US10986614B2
Various communication systems may benefit from an improved signaling protocol. For example, communication systems may benefit from an improved network support for a narrowband internet of things in a hosting long term evolution carrier. A method, in certain embodiments, includes shifting a frequency of a downlink long term evolution channel by a pre-determined amount. The shift causes a duplex distance between the downlink long term evolution channel and an uplink long term evolution channel to change. The method includes blanking at least one overlapping radio resource in at least one of the uplink long term evolution channel or an uplink narrowband internet of things channel. The uplink narrowband internet of things channel and the uplink long term evolution channel at least partially overlap. In addition, the method includes receiving data on the uplink narrowband internet of things channel and an additional uplink narrowband internet of things channel at a network entity from a user equipment.
US10986608B2
A communication apparatus comprises a memory storing instructions which cause to function as: a first communication unit configured to communicate with an external apparatus using a first communication method in which directionality of radio waves is variable; a second communication unit configured to communicate with the external apparatus using a second communication method in which directionality of radio waves is variable; and a control unit configured to control the first communication unit and the second communication unit so as to, after communication using the first communication method has been established, switch communication with the external apparatus to communication using the second communication method, wherein the control unit controls directionality of second radio waves in the second communication method, using information regarding directionality of first radio waves used in the first communication method.
US10986604B2
Distributed systems, controllers and methods for processing information from a plurality of devices are provided. A distributed system includes a plurality of devices distributed in an environment. Each device has at least a communication capability for interchanging information with others of the devices and/or with a communication system. Each of at least some of the devices has one or more sensors for acquiring sensor data related to the environment proximate to the device. At least one of the communication system or one or more of the devices is configured as a controller configured to: select a subset of devices from among the plurality of devices, receive information based on the acquired sensor data of the selected subset, and combine the received information from the selected subset to determine a characteristic of the environment proximate to one or more of the devices.
US10986600B1
A first communication device generates a first ranging frame for transmission to a set of second communication devices, and transmitting the first ranging frame during an multi-user (MU) ranging measurement procedure for estimating respective distances between respective second communication devices, among the set of second communication devices, and the first communication device based on measuring times of flight of transmissions between the first communication device and the respective second communication devices. The first communication device then generates a second ranging frame to include timing information corresponding to transmission of the first ranging frame, the timing information indicative of a time of transmission of the first ranging frame by the first communication device. The first communication device transmits the second ranging frame during the MU ranging measurement procedure to second communication devices to permit the second communication devices to synchronize ranging measurement timing with the first communication device.
US10986599B2
Embodiments of the present disclosure provide timing advance (TA) obtaining methods and apparatuses. One example method includes generating, by a base station, an indication message and sending the indication message to UE, and receiving, by the UE, the indication message sent by the base station. The UE can then obtain a TA of a second carrier based on the indication message, where the second carrier is a carrier not used to transmit a PUSCH. Although the second carrier is a carrier not used to transmit a PUSCH, the TA of the second carrier can still be obtained.
US10986596B2
This disclosure provides a base station for a cellular network, and a method of operating the base station in the cellular network, the cellular network also including a second base station, wherein the first and second base stations include first and second oscillators providing a first and second periodic timing pulse respectively, the method including determining a relative timing offset between a first instance of the first periodic timing pulse for transmission of a frame from the first base station and a first instance of the second periodic timing pulse for transmission of a frame from the second base station; determining that the relative timing offset is changeable; and adjusting the first periodic timing pulse to maintain the relative timing offset by varying a first period between instances of the first periodic timing pulse such that the rate of change of the relative timing offset over time is reduced.
US10986595B2
Apparatuses, methods, and systems are transmitting and/or receiving a synchronization signal block. One method includes receiving a synchronization signal block. The method includes detecting a primary synchronization signal and a broadcast channel of the synchronization signal block. Receiving the synchronization signal block includes receiving at least one synchronization signal block of multiple synchronization signal blocks within a time window and the broadcast channel includes multiple sub-bands.
US10986579B2
A communication technique of integrating a 5th generation (5G) or pre-5G communication system for supporting a higher data transmission rate after a 4th generation (4G) communication system such as long term evolution (LTE) with an IoT technology, and a system thereof. The disclosure may be applied to an intelligent service (for example, a smart home, a smart building, a smart city, a smart car, or a connected car, health care, digital education, retails, security and a safety related service, and the like) based on the 5G communication technology and the IoT related technology. According to various embodiments, a device and a method for optimizing mobile initiated communication only (MICO) mode related parameter values for reducing power consumption of a terminal in a mobile communication system.
US10986570B1
Aspects of the subject disclosure may include, for example, identifying a local mobile country code (MCC) for a wireless communication device, accessing a home MCC list for the wireless communication device, and determining whether the local MCC for the wireless communication device matches any home MCC comprised in the home MCC list for the wireless communication device. In various embodiments, an operating parameter of the wireless communication device may be modified responsive to a determination that the local MCC for the wireless communication device does not match any home MCC comprised in the home MCC list for the wireless communication device. Other embodiments are disclosed.
US10986568B1
A user device may receive information indicating that a universal integrated circuit card has been installed in the user device, where the universal integrated circuit card may store a default table that includes network slice selection assistance information used to route data from the user device to correct slices of a network. The user device may execute an application stored in the user device based on receiving a selection of the application, where execution of the application may cause data to be generated. The user device may identify a slice of the network to which to route the data based on the network slice selection assistance information included in the default table. The user device may cause the data to be routed to the slice of the network identified based on the network slice selection assistance information included in the default table.
US10986550B2
A method for localizing a voice call is disclosed, comprising: receiving an originating leg setup message for an originating leg bearer from the first base station for a first user equipment (UE); creating a first call correlation identifier and storing the first call correlation identifier in association with the first UE; extracting a second call correlation identifier from a terminating leg setup message for a terminating leg bearer received from the core network; determining a real time protocol (RTP) localization status for the originating leg bearer and the terminating leg bearer based on matching the second call correlation identifier of the terminating leg against the stored first call correlation identifier of the originating leg; and sending transport layer assignment messages to the first base station to redirect RTP packets from the first UE to the second UE via the terminating leg bearer without the RTP packets transiting the core network.
US10986549B2
A method includes: sending, by a first network device, a first configuration message to a terminal device, where the first configuration message is used to instruct the terminal device to configure a second ciphering/deciphering function associated with a second network device and share a first data packet numbering/reordering function, and the terminal device is configured with the first data packet numbering/reordering function and a first ciphering/deciphering function associated with the first network device; and receiving, by the first network device, a first configuration complete message sent by the terminal device. In this embodiment, the first configuration message is used so that the terminal device may configure the function associated with the second network device. Therefore, during handover, the terminal device may simultaneously perform data transmission with the second network device and the first network device, to reduce or avoid a service interruption time caused by handover.
US10986539B2
Embodiments of Vehicle-to-everything (V2X) communications authentication are described. In some embodiments, a user equipment (UE) configured V2X communication and configured to operate within a fifth-generation system (5GS) and/or a combined 5GS and fourth-generation system (4GS) can encode a V2X capability indication in a request message for transmission to a network entity, such as a Access and Mobility Management Function (AMF). The V2X capability indication can indicate a capability of the UE for V2X communication over a PC5 reference point, and the request message can further include an indication of a Radio Access Technology (RAT). In some embodiments, the AMF can determine whether the UE is authorized to use the V2X communications over the PC5 reference point, and whether the UE is authorized to use the RAT indicated in the request message. Accordingly, the AMF can transmit a V2X services authorization to a next generation radio access network (NG-RAN).
US10986538B2
This application provides a method and apparatus for controlling traffic steering and a communications system. In an implementation of the method for controlling traffic steering, the method is applicable to an RAN node and includes: traffic steering indication information is determined; and the traffic steering indication information is transmitted to UE, so that the UE steers corresponding traffic to a traffic steering target according to the traffic steering indication information. With the method, load balance between 3GPP RAN and WLAN at an RAN level may be ensured, and in comparison with an existing mechanism, user experiences and system performance are improved.
US10986526B2
Disclosed is a method for transmitting data traffic, the method comprising: receiving control information for indicating that the transmission of data traffic of a specific application is suppressed; determining whether uplink data traffic is for the specific application suppressed by the control information, if the uplink data traffic is received from an application layer, deleting the uplink data traffic if it is indicated that the uplink data traffic is to be suppressed; and transmitting the uplink data traffic to a network entity if it is not indicated that the uplink data traffic is to be suppressed.
US10986522B2
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 of the present disclosure provide a channel state information measurement method, including receiving, by the UE, configuration information indicating resources for a channel state information (CSI) measurement; receiving, by the UE, from a base station, signaling information indicating one or more resources in which the base station occupies a carrier on an unlicensed band; identifying, by the UE, at least one resource in which the base station occupies the carrier on the unlicensed band, based on the signaling information; generating a CQI report based on measurement results at the at least one identified resource, while excluding a measurement result of at least one resource in which the base station does not occupy a carrier on the unlicensed band; and transmitting the CQI report to the base station.
US10986520B2
Methods and apparatus are provided for configuring beam pair links during random access. A User Equipment (UE) receives, in a first message of a Random Access Channel (RACH) procedure, a request from a Base Station (BS) to report information relating to a plurality of BS beams. The UE reports, in a second message of the RACH procedure, the information relating to one or more of the plurality of BS beams in response to the request. The UE receives configuration information including information relating to one or more beam pair links configured for communication between the UE and the BS based on the reported information.
US10986515B2
Communication network architectures, systems and methods for supporting a network of mobile nodes. As a non-limiting example, various aspects of this disclosure provide communication network architectures, systems, and methods for providing context-aware and/or profile-based security in a dynamically configurable communication network comprising a complex array of both static and moving communication nodes (e.g., the Internet of moving things).
US10986511B2
A base station includes a processing unit, a plurality of radio frequency units, a plurality of antenna units, a control unit and an adjustment unit. The processing unit generates a baseband signal and provides a control strategy. The radio frequency units receive the baseband signal to generate a plurality of radio frequency signals. The antenna units transmit a plurality of output signals. The control unit receives the control strategy and generates a plurality of control signals according to the control strategy. The adjustment unit receives the radio frequency signals and the control signals, switches the connection of RF paths with high-gain or low-gain between the radio frequency units and the antenna units and adjusts gains of the radio frequency signals according to the control signals, so as to generate the output signals.
US10986507B2
A method for monitoring performance of Cooperative Periodic Activity between Spectrum Access Systems, CPAS, process in a network operating Citizens Broadband Radio Service, CBRS. The method comprises performing a first check of a status of a transmission Grant of a Citizens Broadband Radio service Device, CBSD at the start of the CPAS process and if the result of the first check indicates that the Grant is suspended then performing a second check of the status of said transmission Grant at the end of the CPAS process. The method further comprises raising an alarm if the result of the second check indicates that the Grant is suspended. An apparatus and a network implementing the method are also disclosed.
US10986500B1
In a wireless network, a distributed ledger client maintains hardware-trust with a wireless network slice and distributed ledger nodes. The wireless network slice delivers wireless communication services to wireless user devices. When the distributed ledger client maintains hardware-trust with the wireless network slice, the wireless network slice transfers slice data to the distributed ledger client. The slice data that characterizes the delivery of the wireless communication services. The distributed ledger client transfers the slice data to the distributed ledger nodes. The distributed ledger nodes log the slice data when the distributed ledger client maintains hardware-trust with the distributed ledger nodes.
US10986497B2
Apparatuses, methods, and systems are disclosed for key refresh triggering. One apparatus includes a transceiver and a processor that starts a counter corresponding to a UE having a small-data traffic pattern. In response to the transceiver receiving small-data traffic associated with the UE, the processor determines if a security key is valid based on a value of the counter. If the value of the counter indicates the security key is invalid, then the processor triggers a key refresh procedure. The processor relays the small-data traffic in response to the UE having a valid security key.
US10986491B2
Method and apparatus for adaptive data collection operations where a first user equipment (UE) is paired to a second UE. The first UE may receive capability data from the second UE, the capability data comprising cellular capabilities of the second UE. The first UE may further collect service history data for the second UE, where the service history data corresponds to the cellular capabilities indicated by the capability data. The first UE may further transmit the service history data to the second UE.
US10986488B2
A method and device for sending capability information of a communications device are disclosed. The method includes: determining, by a communications device, information about maximum data transmission bandwidth supported by the communications device; and sending, by the communications device, the information about the maximum data transmission bandwidth supported by the communications device. In the embodiments of the present disclosure, the communications device determines the information about the maximum data transmission bandwidth supported by the communications device and sends the information about the maximum data transmission bandwidth supported by the communications device, so that communications devices supporting different maximum data transmission bandwidth can coexist in a communications system, to implement communication between communications devices supporting different maximum data transmission bandwidth.
US10986487B2
The present disclosure relates to a communication method and system for converging a 5th-Generation (5G) communication system for supporting higher data rates beyond a 4th-Generation (4G) system with a technology for Internet of Things (IoT). The present disclosure may be applied to intelligent services based on the 5G communication technology and the IoT-related technologies, such as smart home, smart building, smart city, smart car, connected car, health care, digital education, smart retail, security and safety services. A method of providing a profile package by a profile server and the profile server includes generating a profile package, dividing the profile package in a unit installable in a UICC of an electronic device, reconfiguring the divided profile information in an encryptable unit, and transmitting the reconfigured profile information to the electronic device. Further, provided is an operating method and apparatus of an electronic device communicating with the profile server.
US10986484B2
Aspects of the subject disclosure may include, for example, a system that receives a notification, from an identity proxy function, indicating an identity mobile subscriber identity (IMSI) is being registered. That is, a communication device sends a registration request that includes the IMSI to a first registration function. Further, the identity proxy function intercepts the registration request and sends the first notification to the device. Also, the system, sends a first registration message to the first registration function. The first registration function includes a first registry. Further, the first registration message indicates to the first registration function to add the IMSI to the first registry. The system also sends a second registration message to a second registration function. The second registration function includes a second registry. Further, the second registration message indicates to the second registration function to remove the IMSI to the first registry. Other embodiments are disclosed.
US10986483B2
This communication apparatus C is provided with: a first communication unit which, after establishing a link necessary for first near field communication with a communication counterpart existing within a first communication available range, performs the first near field communication with the link-established communication counterpart; and a second communication unit which performs second near field communication with a communication counterpart existing within a second communication available range that is narrower than the first communication available range. And when it is detected that any one among a plurality of communication counterparts with which links are established has entered the second communication available range, the communication apparatus C limits the transmission and reception of data through the first near field communication with communication counterparts other than the communication counterpart detected to have entered the second communication available range, while maintaining the establishment of each link with each of the plurality of link-established communication counterparts.
US10986482B2
A first wireless communication device (UE device) associated with a certain user (or included in a specified set/group of UE devices) may establish a first communication link with an accessory device according to a short-range radio access technology, and transmit link (pairing) information associated with the first communication link to a server, such as a cloud-based server. The server may share this (first) link information with other UE devices associated with the same user (or belonging to the same specified group of UE devices as the first UE device). Link information associated with the other UE devices (i.e. second link information) may equally be shared with the accessory device, and the other UE devices and accessory device may use the first link information and second link information in establishing respective communication links between any of the other UE devices and the accessory device without having to undergo a pairing procedure.
US10986477B1
A device for vehicle-to-X (V2X) communication, including a computing apparatus for data processing and a generating apparatus for generating vehicle-to-X messages by a protocol stack. The computing apparatus is configured to forecast an anticipated event triggering the broadcasting of a V2X message and to produce data forecast on the basis of the anticipated event and to provide the same to the generating apparatus for generating a forecast vehicle-to-X message. A corresponding method as well as the use of the device in a vehicle is also disclosed.
US10986470B2
A communications system is provided employing two-way integration approach providing access to notifications and actions occurring on unmanaged communication devices through the use of TV. The system includes installation of an application on unmanaged devices providing the ability to access all notifications and actions occurring on the unmanaged devices using TV. The unmanaged device obtains an input directly from TV from an application server which in turn obtains its input primarily from a TV. The input is not limited to the TV only, and can come from other sources.
US10986463B2
Methods and systems for mitigating the impact of beamforming on the accuracy of Wi-Fi based location tracking of client devices. An embodiment takes the form of a process that includes (a) obtaining a plurality of received signal strength indicator (RSSI) values respectively associated with frames in a plurality of frames that were (i) received by various access points in a plurality of access points and (ii) transmitted by a client device that is connected to a first access point in the plurality of access points; (b) segmenting the access points in the plurality of access points into (i) a beamforming-path set of one or more access points and (ii) a non-beamforming-path set of one or more access points; (c) identifying a location-determination subset of the obtained RSSI values; and (d) determining a location of the client device using the identified location-determination subset of the obtained RSSI values.
US10986458B2
An information processing apparatus includes: an action recognition unit; an audio data selection unit; and an audio information generation unit, in which the action recognition unit is configured to recognize an action pattern of a user on the basis of sensor information. The audio data selection unit is configured to select audio data corresponding to the action pattern of the user recognized by the action recognition unit. The audio information generation unit generates, on the basis of the audio data selected by the audio data selection unit, multichannel audio information for localizing a sound image of a sound source in real space around the user. The information processing apparatus makes it possible to achieve augmented reality that follows a qualitative change in the action of the user.
US10986456B2
In general, techniques are described by which to perform spatial relation coding using virtual higher order ambisonic coefficients. A device comprising a memory and a processor may perform the techniques. The memory may be configured to store audio data, the audio data representative of zero-ordered higher order ambisonic (HOA) coefficient, and one or more greater-than-zero-ordered HOA coefficients. The processor may be configured to obtain, based on the one or more greater-than-zero-ordered HOA coefficients, a virtual zero-ordered HOA coefficient. The processor may also be configured to obtain, based on the virtual HOA coefficient, one or more parameters from which to synthesize the one or more greater-than-zero-ordered HOA coefficients. The processor may further be configured to generate a bitstream that includes a first indication representative of the zero-ordered HOA coefficients, and a second indication representative of the one or more parameters.
US10986454B2
Method and devices for processing audio signals based on sound profiles are provided. A sound profile can include data related to haptic movement of the audio data which is specific to a left ear or a right ear, demographic information, ethnicity information, age information, location information, social media information, intensity score of the audio data, previous usage information, or device information. A sound profile can be customized for individual user to include the inaudible frequency range at high frequency end and low frequency end. Audio data within the inaudible frequency range can be compensated by haptic movement corresponding to the inaudible frequency range. A sound profile can further include an audio frequency range and its lowest audible volume for a user. A sound profile can be provided to a user without any action from the user's part.
US10986446B2
A panel loudspeaker controller for controlling a panel loudspeaker including a plurality of actuators, the panel loudspeaker controller including a plurality of electrical signal inputs, each input being associated with each actuator of the panel loudspeaker to be controlled; a plurality of signal processors, each signal processor being associated with each input and having an output for an electrical signal to control an actuator of the panel loudspeaker, and each signal processor implementing a transfer function from its input to its output based on each actuator of the panel loudspeaker to a desired acoustic receiver; and a signal processor controller associated with all of the plurality of signal processors, wherein the signal processor controller is preconfigured to improve phase alignment between the signals as an ensemble output at the outputs of the signal processors.
US10986437B1
A beamformer system isolates a desired direction of an audio signal received from a first microphone array disposed on a first plane of the system and a second microphone array disposed on a second plane of the system. A spatial covariance matrix (SCM) defines the spatial covariance between pairs of microphones. A diagonal of the SCM is varied based on the placement of the microphones; values corresponding to one microphone array are increased, and values corresponding to the other microphone array are decreased.
US10986433B2
Embodiments describe an eartip including an eartip body having an attachment end and an interfacing end opposite from the attachment end. The eartip body can include an inner eartip body having a sidewall extending between the interfacing end and the attachment end, the sidewall defining a channel and having a first thickness near the attachment end and a second thickness different from the first thickness at the interfacing end. The eartip can also include an attachment structure coupled to the inner eartip body at the attachment end, the attachment structure having an inner surface and an outer surface. The attachment structure can include an upper region interfacing with the sidewall and defining discrete through-holes, a lower region below the upper region where the inner surface defines a plurality of recesses positioned around the lower region, and a mesh extending across the channel and into the upper region.
US10986413B2
The present invention relates to methods for creating and delivering an interactive video including a first sequence of frames based on a first video. A last delivered frame of the first sequence of frames is delivered. An updated input corresponding to an updated path position within a first video path is received. At least one frame is selected for inclusion in the first sequence of frames based on the last delivered frame and the updated path position, and the at least one frame is delivered.
US10986394B2
A camera system includes: a camera base position-providing unit providing an image that bases are displayed on a map based on the information with respect to the positions of the bases wherein cameras are installed, the information being stored by the camera installation information-storing unit; a thumbnail image-providing unit providing an image wherein a list of thumbnail images are displayed, the thumbnail images corresponding to the cameras installed within one or more bases selected from among the bases displayed on the map, the thumbnail images being obtained from an image data-storing unit; and a moving image-providing unit providing moving images corresponding to one or more cameras selected from among the cameras whose thumbnail images are displayed in the list by the thumbnail image-providing unit, the moving images being obtained from the image data-storing unit.
US10986374B2
A target sample x(i,j) of a two-dimensional array of reconstructed samples is filtered based on values of samples in a neighboring region of the target sample to produce a two-dimensional array of modified reconstructed samples, according to the equation: y(i,j)=round(x(i,j)+g(Σm,n∈Ra(m,n)ƒ(x(i,j)−b(m,n)×(m,n)))), where y(i,j) is a modified target sample value, R is the neighboring region of the target sample, a(m,n) and b(m,n) are real-valued coefficients, round(x) is a function that maps the value x to an integer value in the range [0,2B−1], B is the number of bits representing each sample of the two-dimensional array of modified reconstructed samples, f(x) and g(x) are functions, wherein (a) f(x) is a non-linear function, or (b) g(x) is a non-linear function and both a width and a height of R is more than one sample.
US10986368B2
According to the present invention, an image encoding/decoding method comprises the steps of: performing an intra prediction on a current block so as to generate a prediction block; performing filtering on a filtering target pixel in the prediction block on the basis of the intra prediction mode of the current block so as to generate a final prediction block; and generating a reconstructed block on the basis of a reconstructed differential block corresponding to the current block and on the final prediction block. According to the present invention, image encoding/decoding efficiency can be improved.
US10986361B2
Decoding a video sequence may include generating decoded video data by decoding encoded video data from an encoded bitstream, wherein decoding the encoded video data includes identifying candidate reference motion vectors used to decode previously decoded blocks, identifying reconstructed pixel values from a block spatially adjacent to a current block in the current frame, for each candidate reference motion vector, determining a respective score based on a difference between the reconstructed pixel values and pixel values obtained using the candidate reference motion vector, identifying a candidate reference motion vector having the minimal score from the candidate reference motion vectors as the reference motion vector, decoding a motion vector from the encoded bitstream using the reference motion vector, and decoding the current block from the encoded bitstream using the motion vector.
US10986357B2
A system for decoding a video bitstream includes receiving a bitstream and a plurality of enhancement bitstreams together with receiving a video parameter set and a video parameter set extension. The system also receives an output layer set change message including information indicating a change in at least one output layer set.
US10986351B2
The invention relates to a method and a device for decoding an image by means of a partition unit comprising an additional region. The method of decoding an image by means of a partition unit comprising an additional region comprises the steps of: partitioning, by reference to a syntax element acquired from a received bit stream, an encoded image, which is included in the bitstream, in at least one partition unit; define an additional region for at least one partition unit; and decoding the encoded image based on the partition unit for which the additional region is defined. The invention improves the image coding efficiency.
US10986348B2
An inter-prediction method according to the present invention comprises the steps of: deriving motion information of a current block; and generating a prediction block for the current block on the basis of the derived motion information. According to the present invention, computational complexity can be reduced and encoding efficiency can be improved.
US10986346B2
A method and an apparatus of encoding/decoding intra prediction mode using a plurality of candidate intra prediction modes are disclosed. The method includes deriving three candidate intra prediction modes about a current block and deriving an intra prediction mode of the current block.
US10986344B2
A video picture is divided into a plurality of columns, each column covering only a part of the video picture in a horizontal dimension. All coded tree blocks (“CTBs”) belonging to a slice may belong to one or more columns. The columns may be used to break the same or different prediction or in-loop filtering mechanisms of the video coding, and the CTB scan order used for encoding and/or decoding may be local to a column. Column widths may be indicated in a parameter set and/or may be adjusted at the slice level. At the decoder, column width may be parsed from the bitstream, and slice decoding may occur in one or more columns.
US10986335B2
An image coding method for coding a current block, by assigning two or more reference picture indexes to one or more reference pictures that are different from a current picture which includes the current block, and the image coding method comprises the following when the two or more reference picture indexes are used to code the current block: determining whether or not reference pictures identified by two or more reference picture indexes are identical to each other; and switching, based on a result of the determining, between whether or not a prediction direction for coding the current block in a predetermined coding mode is fixed.
US10986333B2
According to exemplary embodiments of the present invention, references to a motion vector in a neighboring block of an enhancement layer or in a block of a previously coded picture, and a motion vector of a base layer are equally handled. Accordingly, a motion_prediction_flag with identification information can be integrated for further improved coding efficiency.
US10986325B2
Scene flow represents the three-dimensional (3D) structure and movement of objects in a video sequence in three dimensions from frame-to-frame and is used to track objects and estimate speeds for autonomous driving applications. Scene flow is recovered by a neural network system from a video sequence captured from at least two viewpoints (e.g., cameras), such as a left-eye and right-eye of a viewer. An encoder portion of the system extracts features from frames of the video sequence. The features are input to a first decoder to predict optical flow and a second decoder to predict disparity. The optical flow represents pixel movement in (x,y) and the disparity represents pixel movement in z (depth). When combined, the optical flow and disparity represent the scene flow.
US10986320B2
A projector and a method for projecting an image light beam according to an image signal are provided. The method includes: receiving the image signal; decoding the image signal to obtain a metadata of the image signal; converting a color space of the image signal from a wider color gamut to a narrower color gamut according to the metadata so as to generate a converted image signal; performing a gamma correction on the converted image signal according to the metadata to generate a corrected image signal; transferring the corrected image signal into an optical signal; providing a light beam; respectively modulating the light beam and a illumination beam according to the optical signal to form an image light beam; and projecting the image light beam.
US10986319B2
A method of projecting imagery. In one embodiment, the method comprises projecting on a surface, from a projector device, a projected image of a matte displayed on a display device; adjusting the size, shape, position, orientation, or any combination thereof, of the projected image of the matte by adjusting the matte displayed on the display device; associating imagery content with the matte; and projecting the associated imagery in the projected image of the matte.
US10986313B2
A method of assembling a vehicular camera includes providing a front camera housing including a lens and an imager, providing a rear camera housing, and a PCB. The rear camera housing includes a spring-loaded electrical connector and the PCB has first and second electrically conductive traces. The spring-loaded electrical includes inner and outer electrically conductive terminals that are movable relative to the base portion and are spring-biased towards an extended state and are compressible towards a compressed state. The rear camera housing is moved toward engagement with the front camera housing so that the terminals, in their extended state, engage the traces. The rear camera housing is attached at the front camera housing so that the terminals compress towards their compressed state. After the rear camera housing is attached at the front camera housing, the terminals are in spring-biased electrical connection with the traces at the PCB.
US10986299B2
The present disclosure concerns a sensor for the acquisition of an optical signal modulated at an acoustic frequency, including a plurality of pixels, each including: a photodiode; an integration circuit configured to, at each period of the modulated optical signal, integrate a photocurrent delivered by the photodiode successively into K capacitors, K being an integer greater than or equal to 2; and a phase detection circuit configured to detect an order in the crossing of a predetermined voltage threshold by the K capacitors and to generate, according to the detected order, a signal representative of the phase of the modulated optical signal.
US10986297B2
An image sensor is provided. The image sensor includes a pixel array including a plurality of pixels connected between a plurality of row lines and a plurality of column lines; an analog-to-digital converter configured to convert each of a plurality of column signals received through the plurality of column lines into a plurality of first digital signals, and convert a level of the plurality of row lines into a second digital signal; and a compensator configured to generate digital pixel data based on the plurality of first digital signals and the second digital signal.
US10986296B2
An image sensor controls the gain of a pixel signal on a pixel-by-pixel basis and extends a dynamic range while maintaining a S/N ratio at a favorable level. A column unit in an image sensor is independently detects a level of each pixel signal and independently sets a gain for level of the signal. A photoelectric converting region unit has pixels arranged two-dimensionally with a vertical signal line for each pixel column to output each pixel signal. The column unit is on an output side of the vertical signal line. The column unit for each pixel column has a pixel signal level detecting circuit, a programmable gain control, a sample and hold (S/H) circuit. Gain correction is performed according to a result of a detected level of the pixel signal.
US10986294B2
A sensing module includes a linear image sensor and an optical unit. The unit includes an optical element having a curved, outward surface and a covering on the outward surface. The covering has a slit formed therein. The optical unit faces the sensor with the slit perpendicular to a longitudinal axis of the sensor and images a wide field of view onto a single pixel of the linear sensor, wherein light impinging normal to the slit, at any location along the slit, is imaged on a central pixel of the sensor while light impinging one of a plurality of non-normal angles to the slit is imaged on an associated one of a plurality of non-central pixels of the sensor.
US10986286B2
An image creation device is provided with an image acquisition unit acquiring multiple captured images of a peripheral area, a detection unit detecting a three-dimensional object present in the peripheral area, a first conversion unit converting the multiple captured images into multiple individual overhead images to create a first conversion image by means of an overall overhead image, a second conversion unit creating a second conversion image in which an image captured from a virtual camera is converted in accordance with the conversion rule, the virtual camera being virtually arranged at a virtual position set on the vehicle such that a virtual optical axis direction faces the direction of the three-dimensional object, and a synthesis unit synthesizes the second conversion image on the first conversion image to create a synthesis image.
US10986280B2
An electronic apparatus includes: a connecting unit (connector) that connects with an external apparatus; a setting unit sets a connection mode to any of a plurality of connection modes, including a first connection mode in which an image having a gradation resolution which is not higher than a first gradation resolution is outputted, and a second connection mode in which an image having a gradation resolution which is higher than the first gradation resolution is outputted; and a control unit controls so that in a case where the connection is in the second connection mode and an instruction to switch a first screen including a captured image to a second screen not including a captured image is received, the set connection mode is switched from the second connection mode to the first connection mode, and the second screen is outputted from the connecting unit.
US10986270B2
A head mounted display system can process images by assessing relative motion between the head mounted display and one or more features in a user's environment. The assessment of relative motion can include determining whether the head mounted display has moved, is moving and/or is expected to move with respect to one or more features in the environment. Additionally or alternatively, the assessment can include determining whether one or more features in the environment have moved, are moving and/or are expected to move relative to the head mounted display. The image processing can further include determining one or more virtual image content locations in the environment that correspond to a location where renderable virtual image content appears to a user when the location appears in the display and comparing the one or more virtual image content locations in the environment with a viewing zone.
US10986269B2
Provided is an apparatus for providing external panoramic view contents for an aircraft during flight by installing a plurality of cameras in a plurality of windows installed in an aircraft for displaying external panoramic views inside the aircraft while the aircraft flies in order for aircraft passengers to enjoy them. The apparatus includes a shooting unit having a plurality of cameras for shooting aircraft's external panoramic views; a control unit for receiving a plurality of images from the cameras and processing them; and a display unit comprising a single display and a multi-display including a plurality of sub-displays.
US10986264B2
The present technology relates to an image processing device, an image processing method, an image sensor, an information processing device, and a program that facilitate cancellation of a locked state. An image processing device includes: a detection unit that detects a predetermined state, using data from a plurality of sensors; and an imaging unit that captures an image of a predetermined object, in a case where the predetermined state is detected by the detection unit. The image processing device further includes a plurality of input interfaces that input the data from the plurality of sensors. When an application processor switches from an activated state to a non-activated state, detection by the detection unit is started. The present technology can be applied to a smartphone, for example.
US10986261B2
An image capturing apparatus comprising: an image sensor that includes a plurality of focus detection pixels capable of outputting a pair of signals to be used for focus detection; a setter that sets an exposure control value based on a result of photometry; a controller that controls to perform image shooting by controlling exposure based on the exposure control value set by the setter; a detector that detects a focus state based on the pair of signals read out from the plurality of focus detecting pixels under control of the controller; and an estimator that estimates reliability of the focus state detected by the detector by normalizing an evaluation value obtained at a time of detecting the focus state by the detector in a case where the image shooting is performed using the exposure control value set by the setter.
US10986260B2
A selfie stick comprises: a fixing support assembly, configured for clamping a photographic device; a telescopic tube assembly, a first end of which connects to the fixing support assembly; and a handle assembly, connecting to a second end of the telescopic tube assembly, the second end of the telescopic tube assembly being distant from the first end. The handle assembly comprises a touch screen assembly wirelessly connecting to the photographic device, and the photographic device is controlled by touching the touch screen assembly. The selfie stick according to the present disclosure can adjust photographic parameters or functions of the photographic device. The present disclosure further discloses a method for controlling the photographic device by the selfie stick.
US10986258B2
A camera module, a molded circuit board assembly, a molded photosensitive assembly and manufacturing method thereof are disclosed. The camera module includes a molded base which is integrally formed with a circuit board through a molding process, wherein a photosensitive element may be electrically connected on the circuit board and at least a portion of a non-photosensitive area portion of the photosensitive element is also connected by the molded base through the molding process. A light window is formed in a central portion of the molded base to provide a light path for the photosensitive element, wherein a cross section of the light window is configured to have a trapezoidal or multi-step trapezoidal shape which has a size increasing from bottom to top to facilitate demoulding and avoiding stray lights.
US10986249B1
An image processing device includes a neutral edge detection and enhancement component which, for pixels of an input image, computes an edge strength for the pixel as a function of differences between the input luminance value of the pixel and input luminance values of neighboring pixels, computes a neutral adjustment factor for the pixel as a function of the input luminance value of the pixel, and computes a chroma adjustment factor for the pixel as a function of the input chrominance values of the pixel. An adjusted luminance value for the pixel is computed as a function of the input luminance value, the edge strength, and the neutral adjustment factor. Adjusted chrominance values for the pixel may be computed as a function of the input chrominance value, the edge strength, and the chroma adjustment factor. The system allows detection and enhancement of neutral edges in monochrome and color images.
US10986247B2
A communication apparatus that communicates with a data transfer apparatus using a plurality of communication methods that include a first communication method with which the communication device is unable to connect to a second network while connected to the data transfer apparatus via a first network, and a second communication method with which the communication device is able to connect to the second network while connected to the data transfer apparatus, executes a communication application for data communication, and controls the communication device. While the communication apparatus is executing the communication application and is connected to the data transfer apparatus using the first communication method, the communication controller controls the communication device so as to switch from the first communication method to the second communication method upon the state of the communication application transitioning to a background state.
US10986230B1
An information handling system receives messages of a chat conversation, and may convert the messages into request and response pairs. The information handling system may also determine customer reaction determinations for respective ones of the request and response pairs, integrate the request and response pairs and the customer reaction determinations into a customer reaction timeline, and generate a chatbook from the customer reaction timeline.
US10986226B1
When a customer service representative (CSR) calls a customer, the customer may be able to authenticate himself or herself by providing the CSR with personal identifying information. However, the CSR may be unable to provide information to authenticate himself or herself to the customer. Thus, this patent document describes authentication techniques that can allow the CSR to authenticate himself or herself to the customer. For example, before or during a call that the second person (e.g., CSR) initiates to call a first person (e.g., customer), a notification message may be sent to the first person's user device. The content of notification message displayed on the user device may provide information to the first person which can allow the first person to determine whether the second person is trustworthy.
US10986219B2
Fault-tolerant signaling in a Long Term Evolution (LTE) network architecture is disclosed. A method can comprise initiating a primary signaling path to a signaling server device; in response to the initiating, establishing an alternate signaling path to a web application server device, wherein a call session is established over the primary signaling path; monitoring the primary signaling path for a session failure; and in response to the session failure, switching the call session from using the primary signaling path to using the alternate signaling path.
US10986214B2
Data associated with a selectively offline capable voice action is locally persisted in a voice-enabled electronic device whenever such an action cannot be competed locally due to the device being offline to enable the action to later be completed after online connectivity has been restored. Synchronization with an online service and/or another electronic device, and/or retrieval of context sensitive data from an online service may be performed after online connectivity has been restored to enable the voice action to thereafter be completed.
US10986212B2
A method executed at a M2M server, capable of interacting with a remotely located M2M client, is suggested. The method comprise: acquiring resources and/or parameters for provisioning a policy applicable for the M2M client; initiating formulation of the policy by arranging policy dependent mutually associated objects based on said resources and/or parameters, such that a M2M client on which the policy has been provisioned is capable of making decisions on the basis of said policy without having to communicate with any external device, and, initiating provisioning of the policy by provisioning said objects on the M2M client.
US10986210B2
Disclosed are various examples for providing network content filtering to client devices on a per-application basis. A network stack receives a request from an application to connect to a network service. The network stack then determines the identity of the application. Based at least in part on the identity of the application, the network stack initiates a network connection between the application and the network service using or without using a managed network tunnel.
US10986208B2
A method for fetching a content from a web server to a client device is disclosed, using tunnel devices serving as intermediate devices. The client device accesses an acceleration server to receive a list of available tunnel devices. The requested content is partitioned into slices, and the client device sends a request for the slices to the available tunnel devices. The tunnel devices in turn fetch the slices from the data server, and send the slices to the client device, where the content is reconstructed from the received slices. A client device may also serve as a tunnel device, serving as an intermediate device to other client devices. Similarly, a tunnel device may also serve as a client device for fetching content from a data server. The selection of tunnel devices to be used by a client device may be in the acceleration server, in the client device, or in both. The partition into slices may be overlapping or non-overlapping, and the same slice (or the whole content) may be fetched via multiple tunnel devices.
US10986207B2
Techniques for providing a data request method are described. A data request is received from a user requesting a calculation. In response to receiving the data request, an inquiry message is transmitted to a plurality of service nodes. A confirmation message is received from each service node from the plurality of service nodes, wherein the confirmation message comprises data indicating whether a service node will participate in the requested calculation or will not participate in the requested calculation. A contribution of the service node is determines based on the confirmation message. A resource is allocated to each service node that will participate in the requested calculation.
US10986206B2
An information processing apparatus that provides content information, a control method thereof, and a computer program. In a case where a predetermined condition regarding a request of access such as capacity for a communication band and a number of requests of access is satisfied when requests of direct or indirect access to content information associated with a first user from information terminal apparatuses of a plurality of second users are received, the information processing apparatus controls provision of information to each of the information terminal apparatuses on a basis of priority set for each information terminal apparatus.
US10986200B1
A method includes assigning unique symbols to pages of a website, respectively. The method includes obtaining page symbol sequences of browsing sessions, respectively. Each browsing session corresponds to a visitor of the website. For each browsing session, the page symbol sequence of the browsing session is a sequence of symbols that corresponds, respectively, to a sequence of pages of the website visited during the browsing session by the corresponding visitor. The method includes generating a master string including the page symbol sequences, generating a suffix array corresponding to the master string, and generating a longest common prefix (LCP) array corresponding to the suffix array. The method includes, based on the suffix array and LCP array, determining one or more most common n-step subsequences of pages (n is an integer greater than 1).
US10986199B2
A method for remotely monitoring persons and their behavior applies to a person wearing an electronic device which is tracked. The method includes sensing posture and changes in posture of the person within a tracking area to generate posture sensing signals, acquiring wireless signals of the electronic device and further obtaining changes in position of the person according to signal strength of the wireless signals of the electronic device, and transmitting the posture sensing signals and the changes in position of the person to at least one server to analyze and identify the position and behavior of the person and issue warning to caregiver if appropriate. A behavior tracking device is also provided.
US10986191B2
Disclosure method that includes traversing a user instance distribution of user instances of a user on hosts in a cluster to detect whether a trigger condition for user scheduling of adjustment of the user instance distribution is satisfied; migrating the user instance to be migrated out from the one or more hosts from which the user instances are to be migrated out to the one or more second hosts to which the one or more user instances are to be migrated in if the trigger condition for user scheduling is satisfied. The implementations of the present disclosure may schedule resources based on user instance distributions of users on hosts and achieve a balanced distribution of user instances. The implementations further avoid placing user instances of all users into a small number of hosts, increase the ability to prevent risks, and enhance the user experience.
US10986180B2
A method for smart mounting of a first storage device to a first server includes receiving, at a first peer-to-peer communication component of a first server, a request from a second peer-to-peer communication component of a second server, the request being a request to mount a first storage device to said first server. The request is a request to mount a first storage device to said first server. The request is using a peer-to-peer communication protocol between the first and the second peer-to-peer communication components without using a central instance between the first and the second server.
US10986176B2
A method for dynamically allocating upload bandwidth to consumer nodes by a resource node that are communicatively connected by a channel-swarm in a peer-to-peer network. The method comprises periodically computing a dynamic quota value to determine a number of acceptable connections between the resource node and one or more of the consumer nodes connected by the channel-swarm; and allocating an available upload bandwidth to the one or more of the consumer nodes in the channel-swarm based on the computed dynamic quota value.
US10986174B1
A cluster management system sends a first message over a communications network to detect a server node which runs a base operating system image configured to communicate with the cluster management system to enable discovery and network configuration of the server node. In response to receiving the first message, the base operating system image sends a second message to the cluster management system, wherein the second message includes node identifying information associated with the server node. The cluster management system and the base operating system image communicate to configure network settings of the server node based on server cluster specifications and the node identifying information. Subsequent to completion of the network configuration, the cluster management system automatically provisions the server node for inclusion in a server cluster by re-imaging the server node with a server operating system to enable operation of the server node in the server cluster.
US10986168B2
A first portion of a distributed catalog service is implemented for a given one of a plurality of distributed processing node clusters associated with respective data zones, each of the clusters being configured to perform processing operations utilizing local data resources locally accessible within its corresponding data zone. The first portion of the distributed catalog service receives a request to identify for each of a plurality of data resources to be utilized by an application initiated in the given cluster whether the data resource is a local or remote data resource relative to the given cluster, and provides a response to the request. The first portion of the distributed catalog service in combination with additional portions implemented for respective additional ones of the distributed processing node clusters collectively provide the distributed catalog service with capability to resolve local or remote status of data resources in each of the data zones.
US10986154B2
A method or system configured for receiving a first single data stream representing a first multimedia file, the first single data stream including an interleaved sequence of data elements of a plurality of media, and/or transmitting a second single data stream representing a second multimedia file, the second single data stream including an interleaved sequence of data elements of said plurality of media, where the second multimedia file differs from said first multimedia file by at least one data element of a selected medium extracted from said first multimedia file, and/or by at least one data element of a selected medium added to the first multimedia file, and/or by at least one data element of a selected medium added to the first multimedia file being a converted version of the at least one data element of a selected medium extracted from the first multimedia file.
US10986146B2
Apparatuses, systems, and methods are disclosed for a speaker pool. A method includes receiving electronic consent from a plurality of speakers over an interface with a third party for the speakers to join a speaker pool. A method includes receiving criteria for selecting one or more speakers from a speaker pool from a third party via a hook in an interface. A method includes electronically displaying a selected one or more speakers from a speaker pool to a visitor of a third party using a hook in an interface based on received criteria.
US10986140B2
A method in a communication system is disclosed. In the method a procedure for setting up a communication link between a first user equipment and a second user equipment via a communications network is initiated. Information regarding at least two modes of communication that can be used for communication via the communication link is signalled between the first and second user equipment. An indicator regarding a mode to be used for the communication is also signalled between the first user equipment and the second user equipment. After the signalling steps, a procedure for setting the mode of communication in accordance with the indicator is initiated in at least in one of the user equipment. According to an alternative embodiment signalling for reserving a possibility for at least tow different communication modes occurs between elements of the communication system.
US10986135B2
A security management system may be remotely deployed (e.g., using a cloud-based architecture) to add security to an enterprise network. For example, the security management system may scan assets within the enterprise network for vulnerabilities and may receive data from these scans. The security management system may also receive data from other sources, and, as a result, the system may handle data having many different formats and attributes. When the security management system tries to associate data to assets, there may not be a globally unique identifier that is applicable for all received data. Provided in the present disclosure are exemplary techniques for tracking assets across a network using an asset correlation engine that can flexibly correlate data with assets based on attribute information.
US10986127B1
Disclosed herein are methods, systems, and processes for dynamically deploying deception computing systems based on network environment lifecycle. Lifecycle metadata associated with protected host computing devices in a network is retrieved and a configurable ratio of deception computing systems to the protected host computing devices is accessed. One or more deception computing systems are deployed in or discharged from the network based on the configurable ratio.
US10986122B2
A threat management facility generates a simulated phishing threat based on one or more characteristics of a network user. Based on whether the user fails to respond appropriately to the simulated phishing threat, the threat management facility may implement one or more prophylactic measures to remediate the security weakness exposed by the user's failure to respond appropriately to the simulated phishing threat. For example, a security policy for an endpoint associated with the user may be adjusted to address the security weakness. Additionally, or alternatively, the user may be enrolled in training directed at reducing the likelihood that the user will be the victim of an actual phishing attack in the future.
US10986116B1
A system and method of correcting an anomaly in a split computer network, where the split computer network includes a first subnet, connecting one or more requestor nodes to a first intermediary node, and a second subnet, connecting the first intermediary node to one or more approver nodes may include performing, by at least one processor associated with the first intermediary node: monitoring transactions between the one or more requestor nodes and the one or more approver nodes, via the first intermediary node; analyzing the monitored transactions, to obtain a transaction pattern; probing communication between an examined requestor node and at least one approver node; analyzing the probed communication, in view of the transaction pattern, to identify a suspected transaction anomaly; and producing a suggestion of at least one corrective action, based on the suspected transaction anomaly.
US10986111B2
One or more entities are selected for which logged Events are to be displayed in an Event Series Chart. One or more filters and a timeframe are selected. Events are fetched from one or more selected log files based on the one or more selected filters and the timeframe. The fetched Events are displayed in an Event Series Chart according to an associated timestamp and identification Event property value associated with each fetched Event.
US10986107B2
There is provided a method including: during a training period, collecting a plurality of scan cycle times of a programmable logic controller (PLC) program executing on a PLC; calculating one or more baseline parameters based on the plurality of scan cycle times; determining a baseline PLC program signature based on the one or more baseline statistical parameters; and storing the baseline PLC program signature.
US10986097B2
An access control system may include one or more computer processors; a memory, wherein the memory comprises an entitlement database of a resource access manager; a network communication device; and an access control module stored in the memory, executable by the one or more computer processors. The access control module may be configured to: perform the steps of: receiving a request to add one or more entitlement data records to a distributed electronic ledger; validating the one or more entitlement data records; appending the one or more entitlement data records to the distributed electronic ledger; and verifying a first entitlement data record stored in the entitlement database by comparing the first entitlement data record with a first corresponding entitlement data record stored in the distributed electronic ledger, wherein the first entitlement data record and first corresponding entitlement data record are both associated with a first user.
US10986090B1
Disclosed herein are methods, systems, and processes for facilitating security orchestration, automation, and response (SOAR) in cybersecurity computing environments that use biometric data or implement biometric data gathering. An instruction is periodically transmitted to a protected computing device to perform a security scanning operation that captures biometric data generated from a biometric device associated with the protected computing device. The biometric data received from the protected computing device includes a biometric identity of a trusted user or an untrusted user. A security database is accessed to determine whether the biometric identity matches a stored biometric identity of the trusted user. A security workflow that includes orchestrated security operations configured to identify the untrusted user and to prevent the untrusted user from accessing the protected computing device if the biometric identity does not match the stored biometric identity is generated and transmitted to the protected computing device. A confirmation is received from the protected computing device that the orchestrated security operations have been performed.
US10986081B1
A managed directory service receives a request from a first service to link a directory of a contractor service to the first service's directory. The managed directory service identifies a group within the directory of the contractor service and links the directories using this group. Through the link, the managed directory service enables users in the group to authenticate to the first service's directory using credentials for the directory of the contractor service.
US10986076B1
A multilevel security (MLS) network is disclosed. The MLS network includes untrusted nodes (UTN) capable of receiving messages en route from a source node to a destination node, each message having an unencrypted outer header, an encrypted inner header, and a data payload. UTNs route messages toward their destination as directed by the outer header. Global trusted nodes (GTN) decrypt a portion of the inner header to validate source and destination information before routing the message forward. GTNs further modify the outer header to obfuscate source and destination information from the UTNs. Local trusted nodes (LTN) serve as gateway nodes into a local network. LTNs also validate source and destination information to regulate admission to the local network. LTNs include an address manager which decrypts an additional portion of the inner header to read local address data and generates local messages for routing through the local network.
US10986075B2
A method for transmitting packets in a network is provided. The method includes determining that a first packet will be encrypted prior to transmitting the first packet to a network device. The first packet includes a first source address for the first packet. The method also includes generating a routing value based on the first source address. The routing value allows the network device to determine which of a plurality of processing cores will be used to process the first packet. The method further includes encrypting the first packet to generate an encrypted first packet. The method further includes encapsulating the encrypted first packet within a second packet. A payload of the second packet comprises the encrypted first packet and a packet header of the second packet includes the routing value. The method further includes transmitting the second packet to the network device.
US10986070B2
To make high-level copyright protection of transmission audio data possible. Audio data is sequentially transmitted to a reception side via a predetermined transmission channel for each unit audio data. Audio data to be transmitted is encrypted, and encryption information indicating that the audio data has been encrypted is added to the audio data. For example, the encryption information is added using a predetermined bit area of a channel status of each block that is configured every predetermined number of unit audio data pieces.
US10986067B2
A network apparatus of a communication system classifies traffic flows containing packets based on packet features. The network apparatus provides a copy of a packet contained in a traffic flow to a cluster node, and controls the cluster node to select at least one detector node based on the features of the packet and to forward said copy to the selected detector node to find out based on said copy whether the packet is malicious or not. In response to receiving from the detector node a flow indication on the traffic flow, the network apparatus controls a switch node to perform at least one flow control action on the traffic flow, the action including one or more of flow removal, flow modification and flow installation.
US10986058B2
In one embodiment, the first processors of a mobile device determine an operating condition of the mobile device. These operating conditions are based on a current velocity of the mobile device, and the current time of day. If the operating conditions satisfy an operating criteria for the mobile device, the first processors send a message to second processors of the mobile device, causing one or more of the second processors to wake up from a sleeping state to an active state.
US10986056B2
Techniques, including systems and methods for distributing electronic messages, are disclosed. In an embodiment, information relating to a message thread is maintained. The information includes information identifying one or more members of a distribution list to be excluded from receiving messages in the message thread. When it has been determined to prevent distribution of the electronic message to one or more members of the distribution list, the electronic message is distributed to members of the distribution list excluding the one or more members to whom distribution is to be prevented. The distributed electronic message may identify the distribution list as an intended recipient.
US10986055B2
Systems and methods for controlling contacts with a client's users make use of segment-based contact limits. A contact limit sets a maximum number of contacts that a client can have with a user within a predetermined time window. A segment-based contact limit only applies the contact limit to a subset of all the client's users. The type of contact being limited could include messages that are sent to the user or advertising or sales campaigns that are conducted for the user. A segment is a subset of all of the client's users, and a segment may be defined based on one or more filters.
US10986053B2
An electronic device with a touch-sensitive surface and display can execute a messaging application. The messaging application provides options for sending a message with a large attachment. In one option it allows for sending a message with a large attachment by uploading and storing the attachment on a cloud server, embeds a link to the storage location in the message, and sends the message without the attachment. The messaging application may also include a UI element in the message that includes an indicator about the status of the stored attachment. Furthermore, the messaging application may embed in the message a smaller sized version of the attachment before sending the message. The status indicator may display whether the link to the storage location has expired or whether the attachment has previously been retrieved from the cloud server.
US10986052B1
A collaborative communication system that includes a plurality of endpoints and interconnecting nodes configured to communicate via messages over interconnecting channels. Each of the plurality of endpoints and/or interconnecting nodes can determine whether to apply protection to the messages on a per message basis and/or base on the interconnecting channel being used. Thus, a balance between adequate protection and use of system resources and bandwidth can be maintained.
US10986049B2
Disclosed are a messaging system, apparatuses circuits and methods of operation thereof. A messaging client device is adapted to receive an impermanent message and to manage the received message in accordance with a message management policy associated with the message. An impermanent messaging server is adapted to validate said messaging client device as complying with message management policies prior to authorizing transmission of the message to said messaging client device.
US10986040B2
A network communication method used in a network communication apparatus is provided that includes the steps outlined below. An external network communication apparatus is electrically coupled through a communication path. A communication capability packet is transmitted to the external network communication apparatus. Whether an acknowledgement packet from the external network communication apparatus is received through the communication path is determined. When the acknowledgement packet is not received, a single direction communication is performed within any single time period by using a time division communication mechanism such that an auto negotiation process is performed by exchanging the communication capability packet and the acknowledgement packet of both of the network communication apparatus and the external network communication apparatus.
US10986026B2
A network device includes network ports to communicate with source devices and destination devices. The network device receives respective packets from each source device and, for each source device, respectively performs the following operations. The network device stores the respective packets in a shared memory that stores all packets from all of the source devices, and dequeues the respective packets from the shared memory to send the packets to destination devices. Responsive to the storing and the dequeuing, the network device respectively increases and decreases an input packet count for the source device. The network device determines for the source device a packet sending rate based on the input packet count and a flow control threshold common across all of the source devices in accordance with a proportional integral (PI) control equation. The network device transmits to the source device a control message including the packet sending rate.
US10986025B2
A packet queueing system includes an ingress port configured to receive packets; queueing logic communicatively coupled to one or more egress queues for transmission via an egress port, wherein the queueing logic is configured to maintain an Acceptable Burst Size (ABS) token bucket which is set to enable absorption of microbursts, and implement a congestion avoidance algorithm to one of randomly drop packets and queue packets, wherein the congestion avoidance algorithm only performs the randomly drop packets responsive to the ABS token bucket being empty.
US10986019B2
A communication system includes multiple Point-of-Presence (POP) interfaces distributed in a Wide-Area Network (WAN), and one or more processors coupled to the POP interfaces. The processors are configured to assign to an initiator in the communication system a client Internet Protocol (IP) address, including embedding in the client IP address an affiliation of the initiator with a group of initiators, to assign to a responder in the communication system a service IP address, including embedding in the service IP address an affiliation of the service with a group of responders, and to route traffic between the initiator and the responder, over the WAN via one or more of the POP interfaces, in a stateless manner, based on the affiliation of the initiator and the affiliation of the service, as embedded in the client and service IP addresses.
US10986007B2
A method for performing a performance measurement on a packet flow is based on division of the packet flow to be measured in alternating blocks. A couple of connections are provided, originated by respective originating network points (physical or logical interface or port) and terminated by respective terminating network points (physical or logical interface or port). Division of the packet flow to be measured is implemented by periodically switching transmission of the packets between the two originating network points. At each network point originating or terminating a connection, a measurement point is implemented which provides performance parameters (counter and/or timestamp) relating to the packets to be transmitted by or which have been received from the related connection. The performance measurement on the packet flow is then performed based on the performance parameters provided by the measurement points.
US10986004B2
A method including: in a network element that includes one or more hardware memory resources of fixed storage capacity for storing data used to configure a plurality of networking features of the network element and a utilization management process running on the network element, the utilization management process performing operations including: obtaining a plurality of entries of the one or more hardware memory resources representing utilization of the one or more hardware memory resources by network traffic passing through the network element; sorting the plurality of entries of the one or more hardware memory resources by statistics associated with the network traffic passing through the network element to produce sorted entries; and sending the extracted to a network management application for display is disclosed. An apparatus and one or more non-transitory computer readable storage media to execute the method are also provided.
US10985992B2
According to one embodiment of the present invention, a system for configuring a cluster of virtualization network functions (VNFs) includes an infrastructure driver configured to register virtualized infrastructure managers (VIMs) of multiple sites distributed across a network, a monitoring tool configured to collect monitoring information through the registered VIMs, a request queue configured to receive a clustering request message, a network functions virtualization (NFV) embedder configured to define a resource requirement necessary for cluster creation using the monitoring information according to the clustering request message, a policy manager configured to form a clustering template according to the resource requirement, and a clustering engine configured to transmit a request for configuring a cluster to the VIMs according to the clustering template.
US10985988B2
Profile generation for bandwidth management is provided. A content provider receive a notification regarding a new application or media file. Profile information for the application or media file is determined. Such profile information includes information regarding consumption of bandwidth throughout a time period of usage of the application or media file. The profile may be stored in memory in association with the application or media file. A request is received from a user device regarding access to the application or media file. Access to the requested application or media is provided to the user device; the profile is also provided to the user device for use in evaluating whether bandwidth requirements of the application or media file exceeds an available network bandwidth of a network of the user device.
US10985965B2
A power amplifier system includes an input operable to receive an original value that reflects information to be communicated and an address data former operable to generate a digital lookup table key. The power amplifier system also includes a predistortion lookup table coupled to the address data former and a power amplifier having an output and coupled to the predistortion lookup table. The power amplifier system further includes a feedback loop providing a signal associated with the output of the power amplifier to the predistortion lookup table and a switch disposed in the feedback loop and operable to disconnect the predistortion lookup table from the output of the power amplifier.
US10985958B2
Systems, methods, and instrumentalities are disclosed for separating a channel and data without the use of reference signals. For example, a wireless transmit/receive unit (WTRU) may determine a first orthogonal frequency-division multiplexing (OFDM) symbol based on a data vector. The WTRU may determine a second OFDM symbol by applying a circular time-inverse operation and a conjugate operation to the first OFDM symbol. The WTRU may send the first OFDM symbol and the second OFDM symbol. The first and the second OFDM symbols may be sent to consecutively. Discrete Fourier Transform (DFT)-spread and nonlinear preprocessing (exponential transformation at the transmitter) may be used and/or peak-to-average power ratio (PAPR) may be reduced via randomizer block at the receiver.
US10985954B1
A data transmission device includes first and second lines, and a transmitter configured to convert received binary data into ternary data and output the ternary data onto the first and second lines by toggling only one of the first and second lines during each of a plurality of consecutive 2-bit data transmission time intervals. A receiver is also provided, which is configured to receive the ternary data from the first and second lines and convert the received ternary data into binary data. The transmitter is configured to output the ternary data onto the first and second lines using return-to-zero toggling during each of the 2-bit data transmission time intervals.
US10985949B2
It is desirable to provide a technology capable of supporting reverse connection in which the front and back of a connector are reversed while expansion of circuit scale is suppressed. A reception control device is provided including a polarity detection unit that detects, as a polarity determination result signal, at least one of a polarity of a first reception signal received by a first reception unit or a polarity of a polarity inversion result of a second reception signal received by a second reception unit and a reception control unit that controls output destinations of a third reception signal received after the first reception signal by the first reception unit and a fourth reception signal received after the second reception signal by the second reception unit, on the basis of the polarity determination result signal.
US10985948B2
Noise and interference may be estimated at a user equipment (UE) in a system that may support transmissions having different transmission time intervals (TTIs). The UE may perform a channel estimation for a first set of transmissions having a first TTI based at least in part on an estimated interference from a second set of transmissions having a second TTI that is shorter than the first TTI. The UE may perform channel estimation for orthogonal frequency division multiplexing (OFDM) symbols of the first set of transmissions. The first set of transmissions may then be demodulated based at least in part on the channel estimation for the first set of transmissions. Noise and interference may also be estimated based on one or more null tones within one or more OFDM symbols of the allocated resources.
US10985944B2
A method for routing a data frame in a communication system on board a motor vehicle. The method includes a step of determining, on the basis of a first list and a second list, a “target” list indicating, for each communication network of the system, whether the transmission state of the communication network is active or has to switch to the active state to transmit the equipment data, and for each communication network in the target list, and if the transmission state of the communication network is inactive but has to switch to the active transmission state to transmit the equipment data, a step of activating the communication network and a step of transmitting the equipment data over the communication network, or if the communication network communication is already in the active transmission state, a step of transmitting the equipment data over the communication network.
US10985940B2
An on-vehicle device for a driver monitoring system can be configured to be isolated from the vehicle bus while connected to the vehicle's OBD port. In a fully-isolated mode, the device only receives power and ground from the vehicle's OBD port and there is no other communication sent or received from the vehicle bus. In a passive mode, the device can obtain some information from the vehicle bus but does not request any information on the vehicle bus. The device may be undetectable on the vehicle bus. Optionally, the device receives commands via a communication interface to be switched among the three modes: fully active mode, fully isolated mode and passive mode. The commands may come from a server and may be communicated over the internet or over a cell network to a communication module on the device.
US10985936B2
Various arrangements for using captured voice to generate a custom interface controller are presented. A vocal recording from a user may be captured in which a spoken command and multiple smart-home devices are indicated. One or more common functions that map to the multiple smart-home devices may be determined. A custom interface controller may be generated that controls the one or more common functions of each smart-home device of the multiple smart-home devices.
US10985933B1
A distributed notification system is described herein. A distributed notification grouping can be created in which a master device is appointed for a subnet. The master device can poll a server periodically on behalf of peer or slave devices so that the peer or slave devices do not poll the server unless they are appointed as the master or are retrieving notification data from the server.
US10985923B2
Implementations of the present specification disclose a consensus verification method, apparatus, and device. In the implementations of the present specification, for each piece of service data, if first consensus verification on the service data fails, a first node determines whether the service data satisfies a predetermined retry condition instead of directly considering the service data to be invalid. If the predetermined retry condition is satisfied, then the service data is stored as service data to be retried. The first node can perform the first consensus verification on the service data to be retried in response to determining that a predetermined retry execution condition is triggered.
US10985922B2
A device includes a first memory circuit, a second memory circuit and a processing circuit. The memory circuit is configured to store a distinguishable identification (ID). The second memory circuit is configured to store first hash data, wherein the first hash data is generated according to the distinguishable ID. The processing circuit is configured to generate second hash data according to the distinguishable ID when the device is powered on, and to compare the first hash data and the second hash data to determine whether the second hash data matches the first hash data.
US10985920B2
The invention relates to a biometric authentication device, comprising: a positioning module with measurement zone; a cryptographic calculation module; ultrasound module; a module for measuring heart rate and blood pressure; a photographic module configured to create a photograph of the venous network of the finger; a photograph of the fingerprint of the finger; a contrast light spectrometry of the finger; and a photograph of the venous network of the finger by infrared which would capture the intrinsic emission of the finger. The cryptographic module is configured to authenticate the user according to the vector image relating to said ultrasound of the venous and nervous networks of said finger, the measurement of a heart rate and the measurement of a blood pressure, the photograph of the venous network of said finger, the photograph of the fingerprint of said finger, and the spectrometry of said finger.
US10985916B2
An apparatus receives a signal to perform secure erasure of a storage medium. The apparatus, responsive to reception of the signal, erases the storage medium by performing at least the following operations. An encryption key is erased. The encryption key is stored on the storage medium and is used to encrypt data on the storage medium. The apparatus generates a fake encryption key that is different from the encryption key and stores storing the fake encryption key on the storage medium. The encryption key and/or fake encryption key may be stored on the medium in multiple parts. The encryption key may be generated using random data from the medium. The apparatus may be the storage medium or a computer system that access the storage medium. The erasure can be performed in response to a request by a user. The medium may be an erasure-resistant storage medium.
US10985914B2
A key generation device includes a generation circuit, a concealment processing unit, and a cryptography processing unit. The generation circuit generates a value dependent on hardware. When acquiring a concealed cryptographic key, the concealment processing unit generates first data by performing a mask process to the concealed cryptographic key by using the value generated by the generation circuit, generates second data by decoding the first data by a first error correction decoding method, and generates a cryptographic key by decoding the second data by a second error correction decoding method. When acquiring the concealed cryptographic key and a plain text or an encrypted text, the cryptography processing unit acquires the cryptographic key corresponding to the concealed cryptographic key from the concealment processing unit, and encrypts the plain text or decrypts the encrypted text by using the cryptographic key.
US10985910B2
The invention relates to a method for exchanging keys between peers, of Diffie-Hellmann type, authenticated by means of a blockchain of transactions. The public keys of the peers are recorded in the ledger distributed by means of transactions transmitted by the peers, the latter being identified by their wallet addresses and authenticated by their respective signatures.
US10985907B2
An example operation may include one or more of initiating a timer to begin timing an audit procedure, when the timer expires after a predefined period of time, randomly selecting a committer node member of a blockchain, transmitting a request for a hash of a blockchain block, comparing the hash of the blockchain block, received from the randomly selected committer node, to a known value of the hash of the blockchain block, and determining whether the hash of the blockchain block received matches the known value of the hash of the blockchain block.
US10985883B2
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). The present disclosure relates to the retransmission in wireless communication system. A method of operating a base station comprises transmitting resource configuration information related to a resource for an initial transmission and a resource for a retransmission to a terminal, receiving initially-transmitted data through a first resource, and receiving retransmitted data through a second resource, if a decoding of the initially-transmitted data fails. The second resource is determined based on the first resource and the resource configuration information.
US10985880B2
Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a user equipment may receive a group-specific radio network temporary identifier (RNTI) associated with non-orthogonal multiple access (NOMA); receive an indication of whether the group-specific RNTI is associated with contention-based NOMA or contention-free NOMA; and selectively use a group-specific multiple access (MA) signature or a UE-specific MA signature for a NOMA transmission based at least in part on the indication. Numerous other aspects are provided.
US10985863B2
A method and apparatus for transmitting a transport block, and a method and apparatus for receiving a transport block are provided. The method includes: acquiring, by a transmitting node, a data signal obtained by performing a process of a physical layer procedure on the transport block, where the physical layer procedure at least includes channel coding and modulating, one transport block has multiple modulating and coding schemes, the multiple modulating and coding schemes include multiple modulating schemes, or multiple coding schemes, or multiple modulating schemes and multiple coding schemes; and transmitting, by the transmitting node, the data signal and a control signal corresponding to the data signal to a receiving node.
US10985858B2
This application relates to the mobile communications field, and in particular, to a random access technology in a wireless communications system. This application provides a method for sending a random access preamble sequence, an apparatus, and a system. In this solution, a terminal device obtains a cyclic shift value that satisfies a high-speed movement scenario and sends a random access preamble sequence corresponding to the cyclic shift value. Impact brought by the high-speed movement scenario is considered when the random access preamble sequence is determined, thereby avoiding interference between terminal devices in the high-speed scenario.
US10985849B2
Disclosed is an interference coordination method, a base station, and a high altitude platform station. The high altitude platform station receives information that includes a location of a base station and a radius of a central area of a coverage area of the base station, and calculates an interference start time and an interference end time according to the received information and a flight parameter of the high altitude platform station. The high altitude platform station sends interference coordination information to the base station, where the interference coordination information includes the interference start time, the interference end time, and a frequency band of a carrier used in both an edge area of a coverage area of the high altitude platform station and the central area of the coverage area of the base station. The base station adjusts the coverage area of the carrier according to the interference coordination information.
US10985847B2
A method divides data traffic into multiple optical transport units formatted according to an optical transport network (OTN) standard. The multiple optical transport units include a master optical network unit and one or more slave optical network units. Each optical network unit includes overhead and a payload. The overhead includes used overhead specifically defined in the OTN standard and unused overhead not specifically defined in the OTN standard. The method encrypts each optical network unit with a respective one of multiple encryption keys, defines security control parameters identifying the multiple encryption keys, and inserts the security control parameters into the unused overhead of a first slave optical network unit among the one or more slave optical network units. The method transmits the optical network units in encrypted form.
US10985841B1
Examples herein relate to wavelength division multiplexing optical interconnects. In particular, implementations herein relate to an optical interconnect that include a wavelength translator. The optical interconnect includes a first transmitter configured to modulate, combine, and transmit multi-wavelength optical signals, the modulated optical signals having a first number of optical channels, a first data rate per wavelength, and a first wavelength spacing between neighboring modulated optical signals. The optical interconnect includes a wavelength translator configured to convert the modulated optical signals such that the converted modulated optical signals have at least one or more of: a second number of optical channels different from the first number of optical channels, a second data rate per wavelength different from the first data rate per wavelength, or a second wavelength spacing different from the first wavelength spacing.
US10985837B2
A network element includes a client port configured to receive a signal for transmission; a line port configured to transmit the signal to a far end via Optical Transport Network (OTN); circuitry configured to communicate one or more of a fault and a status associated with the signal to the far end via OTN overhead. The circuitry configured to communicate can be for the fault and utilizes one or more Tandem Connection Monitoring (TCM) layers in the OTN overhead. The circuitry configured to communicate can be for the status and utilizes one or more of Optical Data Unit (ODU) Performance Monitoring (PM) and one or more Tandem Connection Monitoring (TCM) layers.
US10985833B2
The described features generally relate to adjusting a native antenna pattern of a satellite to adapt communications via the satellite. For example, a communications satellite may include an antenna having a feed array assembly, a reflector, and a linear actuator coupled between the feed array assembly and the reflector. The feed array assembly may have a plurality of feeds for communicating signals associated with a communications service, and the reflector may be configured to reflect the signals transmitted between the feed array assembly and one or more target devices. The linear actuator may have an adjustable length, or otherwise provide an adjustable position between the feed array assembly and the reflector. By adjusting the position of the feed array assembly relative to the reflector, the communications satellite may provide a communications service according to a plurality of native antenna patterns.
US10985817B2
A method for beamforming training and a device using the same are provided. A station (STA) receives a beacon frame from an access point (AP) during a beacon transmission interval (BTI). The beacon frame includes information on a sector sweep (SSW) frame type used in at least one of a plurality of SSW slots. During association beamforming training (A-BFT), the STA transmits the SSW frame according to the SSW frame type from an SSW slot, among a plurality of SSW slots, having succeeded in a random backoff.
US10985809B2
The described technology is generally directed towards selecting a compression and/or quantization function for communicating data to and from an analog front end of a radio unit of a base station coupled to a digital baseband processor of a central unit of the base station. The compression function and/or quantization function can be adaptively and/or otherwise selected based on various criteria, such as the amount of data being transmitted, whether the data corresponds to reference signals or other data, the network architecture (e.g., digital beamforming or hybrid beamforming) in use, and so on.
US10985806B2
Using a transformation based at least in part on a non-simple orthogonal or unitary matrix, data may be transmitted over a data bus in a manner that is resilient to one or more types of signal noise, that does not require a common reference at the transmission and acquisition points, and/or that has a pin-efficiency that is greater than 50% and may approach that of single-ended signaling. Such transformations may be implemented in hardware in an efficient manner. Hybrid transformers that apply such transformations to selected subsets of signals to be transmitted may be used to adapt to various signal set sizes and/or transmission environment properties including noise and physical space requirements of given transmission environments.
US10985805B2
A first-transceiver for use in an antenna diversity scheme. The first-transceiver comprises a first-time/clock-generation-unit; a first-receiver; and a first-transmitter. The first-receiver is configured to receive a wireless second-alignment-signal from a second-transceiver with a second-time/clock-generation-unit. The wireless second-alignment-signal is representative of a state of the second-time/clock-generation-unit. The first-transceiver is configured to set the first-time/clock-generation-unit, based on the wireless second-alignment-signal, to reduce an alignment-error between the first-time/clock-generation-unit and the second-time/clock-generation-unit. The first-transmitter is configured to transmit a wireless first-transmission-signal, in accordance with the first-time/clock-generation-unit, as part of the antenna diversity scheme. The first-transmission-signal corresponds to a second-transmission-signal that is transmitted by the second-transceiver. The antenna diversity scheme comprises aligned transmission of both the first-transmission-signal and the second-transmission-signal.
US10985804B2
Systems and methods for processing, transmitting and displaying data received from an analyte sensor, such as a glucose sensor, are disclosed. In an embodiment, a method for transmitting data between a first communication device associated with an analyte sensor and a second communication device configured to provide user access to sensor-related information comprises: activating a transceiver of a first communication device associated with an analyte sensor at a first time; and establishing a two-way communication channel with the second communication device; wherein the activating comprises waking the transceiver from a low power sleep mode using a forced wakeup from the second communication device.
US10985797B2
Systems, devices, and methods are provided for mixed-mode signal processing that achieves unprecedented levels of out-of-band and in-band interference suppression. Embodiments of the present disclosure mitigate the effects of blockers and jammers, which have surfaced as issues in emerging cognitive radio systems as those networks struggle to co-exist with licensed and unlicensed users.
US10985788B2
The present document discloses a transmission arrangement for coupling an amplifier to a transmission medium. An input node of the amplifier is couplable to a transmitter and an output node of the amplifier is couplable to a terminal of the transmission medium. The transmission arrangement may comprise a first branch coupled between the input node of the amplifier and an intermediate node which is couplable to a receiver. The transmission arrangement may further comprise a second branch coupled between the output node of the amplifier and the intermediate node. In particular, the first branch comprises a first capacitive element, while the second branch comprises a second capacitive element. Furthermore, at least one of the first and second branches further comprises a phase matching circuit coupled in series with the respective capacitive element.
US10985787B1
Provided are a system and method for generating phase-coherent signaling when ranging between a transmitting node and a receiving node during wireless communication. Phase coherence is established in response to phase adjustment of a signal to be transmitted from the receiving node, in which such adjustment is commensurate with at least an amount of phase attributable to signaling transmitted by the transmitted node and received at the receiving node.
US10985786B2
Disclosed is an electronic device that performs communication in multiple bands by using a single antenna, and includes an antenna, a radio frequency front end module (RF FEM) connected to the antenna, a first signal processing module connected to the RF FEM and configured to process a signal of a first radio access technology (RAT), and a second signal processing module connected to the RF FEM and configured to process a signal of a second RAT, the signal of the second RAT being different than the signal of the first RAT, and the RF FEM including a frequency separating circuit configured to separate a signal received through the antenna into the signal of the first RAT and the signal of the second RAT, and a switch including a first input terminal coupled with the antenna, a first output terminal coupled with an input terminal of the frequency separating circuit, a second input terminal coupled with one of output terminals of the frequency separating circuit, and a second output terminal coupled with a path for the first signal processing module.
US10985769B2
A transceiver system includes a clock generator and an analog-to-digital circuit (ADC). The transceiver system also includes a coupling correction circuit coupled to the clock generator and to the ADC, wherein the coupling correction circuit is configured to provide an in-phase correction and a quadrature-phase correction to a signal received by the ADC.
US10985760B2
A field-programmable-gate-array (FPGA) IC chip includes multiple first non-volatile memory cells in the FPGA IC chip, wherein the first non-volatile memory cells are configured to save multiple resulting values for a look-up table (LUT) of a programmable logic block of the FPGA IC chip, wherein the programmable logic block is configured to select, in accordance with its inputs, one from the resulting values into its output; and multiple second non-volatile memory cells in the FPGA IC chip, wherein the second non-volatile memory cells are configured to save multiple programming codes configured to control a switch of the FPGA IC chip.
US10985759B2
An example apparatus includes a line driver and an interface circuit. The line driver has a plurality of source-series terminated (SST) driver segments including switching circuitry to selectively switch among at least three voltage-reference levels to drive an output node, common to each of the SST driver segments, in response to received digital signals by switching at a rate that is faster than a baud rate characterizing the received digital signals. The interface circuit drives a transmission link, in response to a drive signal at the output node, with an analog signal representing an oversampling of the received digital signals.
US10985758B2
A random code generator includes a memory cell, two write buffers and two sensing circuits. The memory cell includes a first program path between a first source line and a first bit line, a second program path between the first source line and a second bit line, a first read path between a second source line and a third bit line, and a second read path between a third source line and a fourth bit line. The two write buffers are connected with the first bit line and the second bit line, respectively. The two sensing circuits are connected with the third bit line and the fourth bit line, respectively. The two sensing circuits generate a first output signal and the second output signal to the corresponding write buffers according to the read currents in the corresponding read paths.
US10985757B2
A system and method of performing off chip drive (OCD) and on-die termination (ODT) are provided. A common pull-up network composed of transistors and a common pull-down network composed of transistors are employed to implement both of these functions. In drive mode, the pull-up network is configured to produce a calibrated drive impedance when an “on” output is to be generated, and the pull-up network is configured to produce a calibrated drive impedance when an “off” output is to be generated. In termination mode, the pull-up network and the pull-down network are configured to produce a calibrated pull-up resistance and pull-down resistance respectively such that together, they form a split termination.
US10985756B2
The present application generally relates to antennas embedded in or on glass structures. More specifically, the application teaches a wideband conformal antenna employing thin film constructions facilitating attachment to external automotive surfaces with capacitive feedback and integrated lighting to enable a conformal activation switch.
US10985733B2
Radio-frequency core circuitry includes a first switch arm associated with a first signal band and coupled to a common node, a second switch arm associated with a second signal band and coupled to the common node, a first shunt arm connected to a first shunt node in the first switch arm, and a first transmission line disposed in the first switch arm between the common node and the shunt node and having a length configured present an open circuit at a fundamental frequency associated with the second signal band and to present a short circuit at a harmonic of the fundamental frequency associated with the second signal band.
US10985728B2
Acoustic filters, resonators and methods are disclosed. An acoustic filter device includes a substrate having a surface and a single-crystal piezoelectric plate having front and back surfaces and a thickness ts, the back surface attached to the surface of the substrate except for portions of the piezoelectric plate forming a plurality of diaphragms that span respective cavities in the substrate. A conductor pattern is formed on the front surface of the piezoelectric plate, the conductor pattern comprising a plurality of interdigital transducers (IDTs) of a plurality of acoustic resonators, interleaved fingers of each IDT of the plurality of IDTs disposed on a respective diaphragm of the plurality of diaphragms. Zero or more dielectric layers are deposited over all of the IDTs and the diaphragms, wherein a total thickness of the zero or more dielectric layers is the same for all of the plurality of acoustic resonators.
US10985726B2
Acoustic resonator devices, filters, and methods are disclosed. An acoustic resonator includes a substrate and a piezoelectric plate having front and back surfaces, the back surface attached to a surface of the substrate except for a portion of the piezoelectric plate forming a diaphragm that spans a cavity in the substrate. An interdigital transducer (IDT) is formed on the front surface of the piezoelectric plate such that interleaved fingers of the IDT are disposed on the diaphragm. The IDT is configured to excite a primary acoustic mode in the diaphragm in response to a radio frequency signal applied to the IDT. At least one finger of the IDT is disposed in a groove in the diaphragm. A depth of the groove is equal to a thickness of the at least one finger.
US10985724B1
A radio frequency filtering circuitry includes a first inductor, a second inductor, and a conductive loop. The first inductor receives a first current that induces a second current in the second inductor upon receiving the first current. The first inductor and/or the second inductor induce a third current in the conductive loop. The conductive loop adjusts the third current to reduce a first gain peak of an output signal to correlate to a second gain peak of the output signal.
US10985717B2
The present invention relates to a multi-level class D audio power amplifier for supplying an N-level drive signal to a loudspeaker. The multi-level class D audio power amplifier further comprises a switching matrix comprising a plurality of controllable semiconductor switches where the switching matrix comprising at least (N−2) switch inputs, coupled to respective ones of (N−2) DC input voltage nodes, and at least 2*(N−2) switch outputs coupled to respective ones of 2*(N−2) intermediate nodes of a first output driver. A control circuit is configured to sequentially connect each of the (N−2) DC input voltages to a predetermined set of nodes of the 2*(N−2) intermediate nodes of the first output driver via the switching matrix in accordance with one or more of the 2*(N−1) modulated control signals of the first output driver. N is a positive integer larger than or equal to 3.
US10985713B2
Systems and methods are described for a power amplifier with a tracking power supply. The power amplifier may use envelope tracking. The power amplifier is protected when the output of the power amplifier is short circuited or overloaded.
US10985710B2
A power amplifier module includes an amplifier that amplifies an input signal and outputs the amplified signal, a harmonic termination circuit that is disposed subsequent to the amplifier and that attenuates a harmonic component of the amplified signal, the harmonic termination circuit including at least one field effect transistor (FET), and a control circuit that controls a gate voltage of the at least one FET to adjust a capacitance value of a parasitic capacitance of the at least one FET. The control circuit adjusts the capacitance value of the parasitic capacitance of the at least one FET, and thereby a resonance frequency of the harmonic termination circuit is adjusted.
US10985693B2
In an arc detector, a frequency analyzer analyzes frequency components of a current subject to detection in a first frequency band. A detector detects an occurrence of an arc by referring to the frequency components in the first frequency band. When the detector does not detect the occurrence of an arc by referring to the frequency components in the first frequency band, the frequency analyzer analyzes frequency components of the current subject to detection in a second frequency band lower than the first frequency band, and the detector detects the occurrence of an arc by referring to the frequency components in the second frequency band.
US10985691B1
A solar tracker waterless cleaning system for cleaning solar panels of a solar tracker being able to be positioned at a pre-determined angle, including a docking station and an autonomous robotic cleaner (ARC), the docking station coupled with an edge of the solar tracker, the ARC including at least one rechargeable power source, at least one cleaning cylinder and a controller, the cleaning cylinder including a plurality of fins which rotates for generating a directional air flow for pushing dirt off of the surface of the solar tracker without water, the controller including a motion sensor for determining an angle of the solar tracker and a heading of the ARC, the docking station including at least one electrical connector for recharging the rechargeable power source, the controller for controlling a cleaning process of the ARC and for transmitting and receiving signals to and from the ARC.
US10985687B2
A motor drive system including a motor including two three-phase winding sets, wherein each three-phase winding set is connected a respective three-phase three-level inverter.
US10985679B2
A continuously rotating electric motor includes a rotor provided with permanent magnets and a stator formed by two coils in which, when the rotor is rotating, two induced voltage signals (UB1 and UB2) are respectively generated, which signals have an electric phase shift φ where 5°≤φ≤90°, preferably 30°<φ<65°. The control device includes a circuit for detecting intersection times (TC) at which values of the two induced voltage signals are substantially equal. The control device is arranged to generate electric driving pulses to rotate the rotor, which are respectively initiated at initiation times determined by respective intersection times, and such that the electric driving pulses can be applied to the two coils arranged in series. Preferably, the control device is arranged such that the initiation times of the electric driving pulses occur directly after detections of corresponding intersection times.
US10985678B2
A motor control apparatus includes: a motor drive control section that controls driving of a motor using a predetermined phase; a rotation position detecting section that, at every 180 degrees of an electrical angle of the motor, outputs two kinds of detection signals according to the rotation position of the rotor of the motor; a stopped position estimating section that estimates the stopped position at the start of rotation of the rotor using an elapsed time from when rotation the rotor starts until the kind of the detection signal outputted from the rotation position detecting section switches; a rotational speed estimating section that estimates the rotational speed of the rotor using the elapsed time and the stopped position; and an estimated phase calculating section that calculates an estimated phase as the aforementioned predetermined phase using the rotational speed.
US10985674B2
The invention relates to an ultrasonic motor comprising a plate-shaped piezoelectric ultrasonic actuator (2) and a of friction element (5) arranged on a side surface thereof, wherein the connection line (V) through the friction point and the focal point (S) of the ultrasonic actuator defines an operating direction, and a perpendicular plane intersecting the ultrasonic actuator defines an operating plane (W). A holder (6) has two force inlet sections (7) in order to move the holder and thereby the ultrasonic actuator in a direction parallel to the operating direction, and to press same against an element to be driven. The force inlet sections, preferably based on permanent magnets (8, 9) are each arranged in the operating plane and laterally next to and at a distance from the the ultrasonic actuator, and the intersection point (SP) of the connection line (V) with the operating plane (W) either coincides with the focal point (S) or lies between the focal point and the side surface having the friction element.
US10985672B2
An inverter device includes: three phase sections each including multiple single-phase output inverter cells connected in series, wherein each inverter cell receives input of alternating current power via a transformer; a neutral point to which an end of the series connection of each phase section is connected; current sensors each disposed at a line between the neutral point and a neutral-point-side inverter cell of the corresponding phase section; a transformer board containing the transformer; an inverter board containing the inverter cells, and being adjacent to the transformer board; and an output board containing a controller, wherein the output board includes a three-phase output terminal connected to a load, and is adjacent to the inverter board. Each line from the neutral-point-side inverter cell to the neutral point includes a part diverted from the inverter board into the output board, wherein each current sensor is arranged in the output board.
US10985668B2
A method of an estimator of an inner control loop controlling a three-to-single-phase converter connected to an AC power grid via a transformer includes obtaining a value of a voltage reference uRef produced by the inner control loop for the converter, obtaining a value of a secondary side current produced by the converter and measured between the converter and the transformer, obtaining a value of a primary side current produced by the converter and measured between the grid and the transformer, and obtaining a value of a primary side voltage measured between the grid and the transformer. The method also includes estimating a control current iCtrl component of the primary or secondary side current iMeas which results from the voltage reference, based on the obtained values of the voltage reference, the secondary side current, the primary side current and the primary side voltage, and feeding the estimated control current iCtrl* to the inner control loop.
US10985666B2
A switched-mode power supply includes an input, an output, and a transformer including primary and secondary windings. The power supply also includes a synchronous rectifier coupled to selectively conduct current through the secondary winding of the transformer. The synchronous rectifier includes a source, a gate and a drain terminal. The power supply further includes a controller having a supply voltage terminal and a gate terminal to supply a control signal to the gate of the synchronous rectifier, and a circuit coupled between the supply voltage terminal of the controller and at least one of the gate terminal of the controller and the drain terminal of the synchronous rectifier to supply power from the gate terminal of the controller or the drain terminal of the synchronous rectifier to the supply voltage terminal of the controller. Methods of supplying power in switched-mode power supplies are also disclosed.
US10985663B2
Various embodiments of apparatuses, systems, and methods for controlling the operating status of a power converter during, a standby mode, a powered mode, and a transition from the standby mode to the powered mode is described. For at least one embodiment, a power converter includes a primary controller and a secondary controller wherein the primary controller includes a first circuit configured to initiate a transition from standby mode to powered mode upon receipt of a wake-up signal and wherein the first circuit is powered during standby mode. For at least one embodiment, the first circuit is powered during a transition from a standby mode to a powered mode by voltages induced in a third coil of a transformer by a device battery powering a second coil of the transformer.
US10985660B2
The present invention provides a DC-DC converter, wherein the DC-DC converter includes a controller, a first switch, a second switch, an inductor and a ripple signal generator. The controller is configured to generate an up signal and a down signal according to an output signal and a ripple signal. The first switch is coupled between an input voltage and a first node, and is controlled by the up signal. The second switch is coupled between the first node and a reference voltage, and is controlled by the down signal. The inductor is coupled between the first node and an output node, and is configured to receive a first signal from the first node to generate the output signal at the output node. The ripple signal generator is configured to generate the ripple signal, and reset the ripple signal every cycle to a specific voltage.
US10985656B2
A system that provides intelligent constant on-time control may include a first switch coupled to a power input; a second switch coupled to the first switch; a switching node between the first switch and the second switch, the switching node configured to be connected to an inductor and a power output; feedback paths coupled to (1) a synthesized node and (2) the power output, the feedback paths enabling feedback of signals from (1) the synthesized node, and (2) the power output; and a controller coupled to the feedback paths. The controller may be configured to control a voltage at the power output based on a combination of the signals carried by the feedback paths.
US10985655B1
Slope-compensated current mode DC-DC converters. Example embodiments are methods of operating a slope-compensated current mode DC-DC converter including asserting a pulse width modulation (PWM) signal in a switching period to couple an input voltage to the inductor; sensing an inductor current through an inductor to generate a sensed current signal; generating a slope compensation signal having a peak amplitude during the switching period; generating a slope offset signal based on a sum of a predefined threshold with a product of a duty cycle of the PWM signal and the peak amplitude; and de-asserting the PWM signal during the switching period based on the sensed current signal and the slope offset signal.
US10985651B2
An apparatus for converting a first voltage into a second voltage includes a reconfigurable switched capacitor power converter having a selectable conversion gain. The power converter has switch elements configured to electrically interconnect capacitors to one another and/or to the first or second voltage in successive states. The switch elements are configured to interconnect at least some capacitors to one another through the switch elements. A controller causes the reconfigurable switched capacitor power converter to transition between first and second operation modes. The controller minimizes electrical transients arising from transition between modes. In the first operating mode, the power converter operates with a first conversion gain. In the second operating mode, it operates with a second conversion gain.
US10985647B2
A multiphase interleaved forward power converter includes two or more subconverters and two or more subconverters clamping circuits. Each subconverter includes an input, an output, and a transformer coupled between the input and the output. The subconverters are phase shifted relative to each other such that a conduction period of one subconverter is at least partially complementary to an idle period of another subconverter. The clamping circuits each include a switching device coupled to at least one winding of the transformer of each subconverter. The clamping circuits each are configured to clamp a voltage across the at least one winding to substantially prevent a resonance voltage from propagating in the subconverters during their idle period. Additional example subconverters, clamping circuits, and methods for substantially preventing a resonance voltage from propagating in multiphase interleaved forward power converters are also disclosed.
US10985640B2
A vibration motor includes a stationary portion including a casing, a substrate disposed above a bottom portion of the casing, and a coil disposed above the substrate and wound with a conductive wire in a circumferential direction, a vibrating body that includes a magnet and weight and that is supported so as to be capable of vibrating up and down with respect to the stationary portion, and an elastic member disposed between bottom and lower end portions of the vibrating body, in which a lead-out portion led out from the coil is connected to the substrate at a connection portion, a lower end portion of the weight includes at least one protrusion protruding downward, and the protrusion, as viewed in an axial direction, is disposed at a radial position on a radial-direction outer side of the lead-out portion and the connection portion and in a region overlapping the elastic member.
US10985639B2
A method of assembling an electric motor includes coupling a rotor hub to a rotor disk to form a rotor assembly and slidably coupling the rotor hub to a shaft at a first position. The method also includes coupling a stator assembly to the shaft to define a first axial gap between the stator assembly and the rotor assembly. The method further includes sliding the rotor assembly to a second position along the shaft to define a second axial gap between the stator assembly and the rotor assembly. The second position is based on a measured back EMF constant of the electric motor when the rotor assembly is in the second position.
US10985620B2
There is provided a device to be used as a magnet. The device comprises a first member, a second member, and a third member. The first member defines a trench extending along a longitudinal direction. The trench has a top being open. Moreover, the first member comprises a first material being magnetizable. The second member is received in the trench and secured to the first member. The second member comprises a second material being magnetizable. Furthermore, the third member is received in the trench and secured to the first member. The third member comprises a third material being magnetizable. The third member and the second member are disposed side-by-side along the longitudinal direction.
US10985618B2
A wireless transmitter includes a an amplifier; and a switchable transformer, coupled to the amplifier, wherein the amplifier is configured to be coupled to the switchable transformer in first and second configurations, wherein the first configuration causes the amplifier to provide a first output impedance to the switchable transformer, and wherein the second configuration causes the amplifier to provide a second output impedance to the switchable transformer, the first and second output impedances being different from each other.
US10985604B2
A system comprises a redundancy circuit board including a plurality of primary input connectors each connectible to a primary power supply that supplies primary electrical energy, a redundancy power input connector connectible to a redundant power supply that supplies redundant electrical energy, a plurality of output connectors connectible to a display component powerable by the primary or redundant electrical energy, and a plurality of electrical pathways including primary pathways each connecting a primary input connector to a corresponding output connector, redundant pathways each connecting the redundancy input connector to a corresponding output connector. The system also includes one or more electrical devices that detect whether primary electrical energy has been interrupted along a first primary pathway, activate the redundant power supply to supply redundant electrical energy to the redundancy input connector, and direct redundant electrical energy along a first redundant pathway to the first output connector.
US10985598B2
An emergency converter according to the invention is used in lighting applications for operation from an energy storage device in case of mains failure. The converter device comprises a charger circuit configured to charge the energy storage device and a microcontroller circuit configured to control the charger circuit. The driver circuit is preferably implemented in a coupled inductor boost circuit topology. The microcontroller circuit is further configured to control the switch based on a zero crossing of a measured inductor current.
US10985597B2
The invention is in the field of emergency lighting devices and power supply of emergency lighting devices. A LED converter for an emergency lighting unit comprises a LED driver for supplying a current to a LED lighting device, an energy storage interface for connecting an energy storage device, a charging circuit for charging the energy storage, and a control circuit. The energy storage interface is configured to connect at least two different types of energy storage devices. The charging circuit sets at least one energy storage management parameter according to the type of energy storage device connected by the energy storage interface. The control circuit determines the type of energy storage device connected by the energy storage interface and controls the charging circuit to set the energy storage management parameter according to the determined type of energy storage device.
US10985578B1
A tablet charging cabinet includes a storage space having a base, a top wall, two opposed side walls, and a back wall, and a plurality of angled partition panels defining a plurality of storage and charging compartments at different elevations therein, each compartment having a respective connector at the back of the respective panels. Each connector is configured for providing power supply and network connection to a respective electronic device connected thereto. At least two alignment posts located on two sides of each connector to facilitate alignment of an electronic device to a respective connector. Each partition panel is configured to have an opening to allow a charging indicator light of an electronic device to be visible from outside the cabinet. The plurality of partition panels are angled downward toward the back wall to facilitate connection of an electronic device to a respective connector.
US10985571B2
Provided is a power conversion system. The system includes a DC bus line including a common terminal, a power generation device configured to provide DC power to the common terminal, a first inverter configured to convert a first input power provided from the common terminal into a first AC power and output the first AC power, and a second inverter configured to convert a second input power provided from the common terminal into a second AC power in response to the first input power being greater than a first threshold power while the first inverter operates and output the second AC power.
US10985564B2
An electric power-regulating system includes an electric-load end, a power-supply end, a power regulator, a DC-bus device, a flywheel energy-storage device, a switch device and a controller. The flywheel energy-storage device connects the DC-bus device. The switch device is connected between the flywheel energy-storage device and the DC-bus device. The switch device provides at least one current-flow direction between the DC-bus device and the flywheel energy-storage device. The controller controls the power regulator and the flywheel energy-storage device. When a voltage of the DC-bus device exceeds a operation range, the controller selectively limits the current-flow direction of the switch device. Further, when a voltage-bias direction of the switch device and the current-flow direction are the same, the controller allows a current of the DC-bus device to flow into or out of the flywheel energy-storage device in the current-flow direction. In addition, an electric power-regulating method is also provided.
US10985563B2
A system includes first and second sources configured to provide power to first and second medium-voltage direct current (MVDC) buses, respectively. The system also includes a rotating electrical machine having first and second primary windings and first and second secondary windings. Each primary winding is electrically connected to one of the first and second MVDC buses. The rotating electrical machine is configured to receive the power from the first and second MVDC buses. Each secondary winding is configured to provide output power to a pulsed load. The system further includes at least one battery or ultra-capacitor subsystem electrically connected to the rotating electrical machine. The at least one battery or ultra-capacitor subsystem is configured to receive electrical energy from and provide electrical energy to the rotating electrical machine.
US10985558B1
The wide application of power electronic components in power systems with renewable energy sources has changed the fault characteristics of conventional power systems, resulting in the performance degradation of conventional protections. To solve these problems, a novel principle of pilot protection based on structural similarity and square error criteria is provided. The structural similarity criterion utilizes the difference of fault characteristics between renewable sources and synchronous generators to identify internal faults, and the square error criterion is used to solve abnormal calculation of the conventional similarity based protection. Compared with conventional differential protections, the disclosed protection shows excellent performance in speed and reliability during various faults.
US10985556B2
A system and method for creating and making use of customer profiles, including energy consumption patterns. Devices within a service point, using the active load director, may be subject to control events, often based on customer preferences. These control events cause the service point to use less power. Data associated with these control events, as well as related environment data, are used to create an energy consumption profile for each service point. This can be used by the utility to determine which service points are the best targets for energy consumption. In addition, an intelligent load rotation algorithm determines how to prevent the same service points from being picked first each time the utility wants to conserve power.
US10985551B2
A circuit for protecting energy storage cells in which at least one energy storage cell is part of an AC battery having at least one module. The at least one module includes at least one half-bridge having two power semiconductor switches, a module storage element and a module controller. The at least one module is connected to the at least one energy storage cell to form a first connection and the first connection between the at least one module and the at least one energy storage cell has a first fuse that can interrupt the first connection. The circuit has a second connection between the module controller of the at least one module and the at least one energy storage cell.
US10985550B1
A progressive protection method automatically adapts a protection trip delay or fault timeout for a motor that is a member of a group of motors performing mutually similar or related tasks, based on the occurrence of a fault in another motor within the group, without requiring manual intervention. If the user requires stringent protection of the motors in a particular application, then the trip delay time for all of the motors in the group, may be shortened in response to recently-detected similar trips of other motors within the group. Alternatively, if the user prefers continuity of service for a particular application, then the trip delay time for all of the motors in the group, may be increased in response to recently-detected similar trips of other motors within the group, based on past experience with the occurrence of fault self-clearing for the motors in the group.
US10985546B2
A circuit including a source, a load, and an isolation circuit for controllably isolating the load from the source. The isolation circuit is disposed between the source and the load. The isolation circuit includes at least one insulated-gate bipolar transistor (IGBT) and at least one gate turn-off thyristor (GTO) in parallel with the insulated-gate bipolar transistor. When no fault condition exists, the GTO is configured to be ON to couple the load to the source. When a fault condition exists, the at least one IGBT is configured to turn ON. After the at least one IGBT turns ON, the at least one GTO is configured to turn OFF. After a predetermined amount of time, reflecting the post fabrication alteration to the GTO's minority carrier lifetime (e.g. electron irradiation), after the at least one GTO turns OFF, the at least one IGBT is configured to turn OFF. Alternatively, the circuit is used as an inverter switch, where at the command to turn ON is supplied, the at least one IGBT is turned ON, followed by the at least one SGTO. When commanded to turn OFF the at least one SGTO is turned OFF followed by the at least one IGBT. This alternative configuration allows the robust, controllable switching speeds of IGBTs and the superior conduction efficiency of SGTOs. The two configurations mentioned above utilize a wide range of SGTO performance, thus the ability to control the SGTOs turn-off speed by reducing its minority carrier lifetime after the device is processed is of large importance. The efficiency of all uses of the circuit can be optimized with the judicious selection of SGTO minority carrier lifetime and the ratio of active area between the SGTO and IGBT devices. In all cases there is a balance between the time the circuit can achieve hard turn-off without current commutation, the conduction efficiency of the circuit and the maximum amount of controllable current. In all cases both the conduction efficiency of the circuit is higher than an IGBT-only based circuit, and the switching performance is higher than a GTO-only based circuit.
US10985530B2
Provided is a tunable semiconductor laser including an active gain region in which an optical signal is generated according to a modulation signal, a mode control region in which a resonant mode is controlled according to a mode control signal, and a signal chirp of the optical signal is compensated according to a first compensation signal determined based on the modulation signal, and a distributed Bragg reflector (DBR) region in which an oscillation wavelength of the optical signal is determined based on a wavelength selection signal for the optical signal, a second compensation signal for compensating for a thermal chirp of the optical signal on a basis of the modulation signal, and a heater signal provided to a heater electrode.
US10985529B2
A semiconductor laser diode includes a semiconductor layer sequence with an active layer having a main extension plane and that generates light in an active region and emits light via a light outcoupling surface during operation, wherein the active region extends from a rear surface opposite the light outcoupling surface to the light outcoupling surface along a longitudinal direction, the semiconductor layer sequence includes a trench structure having at least one trench or a plurality of trenches on at least one side laterally next to the active region, and each trench of the trench structure extends in a longitudinal direction and projects from a top side of the semiconductor layer sequence in a vertical direction into the semiconductor layer sequence, and the trench structure varies in a lateral and/or vertical and/or longitudinal direction with respect to properties of the at least one trench or the plurality of trenches.
US10985528B2
A laser diode includes a semiconductor body having a substrate and a semiconductor layer sequence arranged on the substrate, which includes an active zone that generates electromagnetic radiation, wherein the semiconductor body has a first main surface and a second main surface opposite the first main surface and at least one first and second laser facet, which are respectively arranged transversely to the first and second main surfaces, and at least one structured facet region located at a transition between the first main surface and at least one of the first and second laser facets, and the structured facet region includes at least a strained compensation layer or a recess.
US10985522B2
A laser apparatus calculates a temperature of a temperature increase portion that is raised in temperature by reflection light, and determines and outputs an emergency optical output command with the aim of ensuring that the calculated temperature does not exceed a first predetermined temperature, which is set at a lower temperature than an upper limit heat resistance temperature, and if necessary, controlling the temperature to or below a second predetermined temperature set at a lower temperature than the first predetermined temperature. When the emergency optical output command is to be output, a control unit switches an optical output command output thereby to the emergency optical output command and outputs the emergency optical output command.
US10985516B1
The present embodiments disclose an outlet wall plate charger apparatus. The outlet wall plate charger apparatus includes a wall plate having a lower portion and an upper portion. The lower portion includes a mounting aperture and an outlet aperture extending therethrough. The upper portion protrudes from the lower portion to define an upper cavity and includes a top face having at least one cord slot. A charger includes a charger body dimensioned to fit within the upper cavity and a pair of plug blades extending from the charger body. An upper face of the charger body has at least one cable port, each being configured to receive a charging cable.
US10985512B1
An electronic device includes a socket and a casing. The socket includes a first connecting structure and a second connecting structure. The casing includes a first side wall and a second side wall, wherein the first side wall is essentially perpendicular to the second side wall. The first side wall includes a third connecting structure and the second side wall includes a fourth connecting structure. The first connecting structure is connected to the third connecting structure along a first connecting axis and the second connecting structure is connected to the fourth connecting structure along a second connecting axis, such that the socket is fixed on the casing, wherein the first connecting axis is essentially perpendicular to the second connecting axis.
US10985510B2
A connector includes a housing having a fitting portion fitted into a mounting hole, a conductor held by the housing, and a sealing member mounted on the fitting portion and sealing between the housing and the mounting hole. The sealing member includes an annular sealing portion formed in an annular shape fitted into the fitting portion, and a band portion connected to the annular sealing portion at both ends and disposed along an end surface of the fitting portion.
US10985503B2
An electrical connector includes: an insulating body, a first terminal and a second terminal. The insulating body is provided with a mating slot. At least one side of the mating slot is provided with two accommodating holes, and the accommodating holes are in communication with the mating slot. One end of the first terminal has a first contact located in a first accommodating hole, and a first distance exists between the first contact and an inner wall of the first accommodating hole. One end of the second terminal has a second contact. A width of the second contact is equal to a width of the first contact. The second contact is located in a second accommodating hole. A second distance exists between the second contact and an inner wall of the second accommodating hole. By reducing the second distance, the second distance is less than the first distance.
US10985501B2
The lever-type connector includes a first housing, a housing fitted to and removed from the first housing, and a lever turnably supported by the housing, where the lever is configured to fit the both housings. The lever includes a provisional lock arm portion having a provisional locking portion, and the housing includes a provisional locked portion configured to be provisionally fitted to and detached from the provisional locking portion of the provisional lock arm portion and a provisional set arm portion configured to suppress detachment between the first housing and the housing in the provisionally set state during the provisional lock release of the lever. The first housing includes a release rib portion configured to release the provisional locking state between the provisional locking portion of the provisional lock arm portion and the provisional locked portion of the housing.
US10985498B2
Embodiments of a framing assembly including modular connectors for interconnecting components of the framing assembly are disclosed.
US10985492B2
An illustrative example embodiment of a connector includes a terminal configured to establish an electrically conductive connection with another component and a shroud surrounding the terminal. The shroud includes a first sidewall and a second sidewall that is transverse to the first sidewall. The first sidewall and the second sidewall have a sidewall dimension in a direction parallel to a longitudinal axis of the terminal. The shroud includes a first transition between the first sidewall and the second sidewall in the form of a hollow cylindrical sector having a first angular measurement of more than 90 degrees. The transition has a transition dimension that is less than the sidewall dimension.
US10985486B2
A female terminal 10 to be fit to a male terminal 50 is provided with a box-shaped female body portion 12 including a ceiling wall 14 and a bottom wall 21 facing each other in a vertical direction and open in a front-rear direction, the male terminal 50 being inserted into the female body portion 12, contact pressure applying portions 16 provided between the ceiling wall 14 and the bottom wall 21 of the female body portion 12 and configured to apply a contact pressure to the male terminal 50 by contacting the male terminal 50 from the side of the ceiling wall 14, and a pressure increasing plate 30 configured to displace the contact pressure applying portions 16 toward the bottom wall 21 by being inserted into between the ceiling wall 14 of the female body portion 12 0 and the contact pressure applying portions 16.
US10985481B2
In the prior art, there is the disadvantage that automatic population methods for printed circuit boards are worthwhile only for large numbers. On the other hand, individual solutions and small series are expensive and complicated and are currently often implemented in manual work. The present disclosure provides a device which facilitates the population of a printed circuit board economically, even for small series. This is achieved by a device which has a contact carrier having contact elements. The device can firstly be installed on printed circuit boards in high numbers in an automated manner and, secondly, permits the connection of electric components and/or electric cables with only little manual effort.
US10985479B2
An electrical connector includes electrical contacts that are configured to be mounted to an electrical cable, and mating ends that are configured to be surface mounted to a contact pad of an underlying substrate, such that the mating ends flex and apply a pressure against the contact pad.
US10985478B1
A low profile lighting adapter can include a first housing section configured to hold an electrical ground connection, and a second housing section configured to couple with the first housing section, the second housing section including a planar surface orthogonal to the first housing section. The low profile lighting adapter can include a second electrical connection disposed in the first housing section and opposite of a first electrical connection, wherein the first housing section is configured to allow individual actuation of the second electrical connection along an axis orthogonal to a planar surface of the second housing section. The low profile lighting adapter can include an extending arm coupled to the second housing section and configured to rotate about the axis. Certain of the disclosed embodiments can permit a live connection to be individually set at different levels to engage different electrical circuits on a light track.
US10985471B2
A radar device includes: a housing that includes an aperture in a front direction as a transmitting direction of an electromagnetic wave; a circuit board disposed in the housing such that a board surface extends along the front direction; an antenna unit that includes antenna elements being arrayed along a direction intersecting the front direction in a region on a side in the front direction of the circuit board, and that transmits the electromagnetic wave to the outside of the housing through the aperture and receives a reflected wave of the electromagnetic wave; and a dielectric lens that is disposed in the aperture of the housing to extend along a direction in which the antenna elements are arrayed and that has a semi-cylindrical shape or a parabolic-cylindrical shape projecting in the front direction.
US10985467B2
A GNSS RHCP stacked patch antenna with wide dual band, high efficiency and small size is made of a molded high-permittivity material, such as ceramics, with a patterned cavity in the dielectric substrate. The perforated cavities in the substrate reduce the effective dielectric constant, increase the bandwidth and efficiency. The high-order modes can be manipulated through the design of cavities.
US10985466B2
The present disclosure discloses a terahertz detector based on a N×M dielectric resonant antenna array, wherein a N×M on-chip dielectric resonant terahertz antenna array is connected to a matching network, the matching network is connected to a source of a NMOSFET, a gate of the NMOSFET is sequentially connected to a first bias resistor and a first bias voltage, a third transmission line is connected between the first bias resistor and the gate, a drain of the NMOSFET is connected to a first DC blocking capacitor, the other end of the first DC blocking capacitor is connected to a low noise preamplifier, a second bias resistor and a second bias voltage are further connected between the first DC blocking capacitor and the low noise preamplifier, and the low noise preamplifier is further provided with a voltage feedback loop. The present disclosure also discloses a design method for the same.
US10985465B2
Various embodiments of a multi-mode antenna are described. The antenna is preferably constructed having a first inductor coil and a second inductor coil. A plurality of shielding materials are positioned throughout the antenna to minimize interference of the magnetic fields that emanate from the coils from surrounding materials. The antenna comprises a coil control circuit having at least one of an electric filter and an electrical switch configured to modify the electrical impedance of either or both the first and second coils.
US10985463B2
According to various embodiments, an electronic device comprises: a first plate; a second plate facing the opposite direction of the first plate; a housing including a lateral member for encompassing the space between the first plate and the second plate; and an antenna structure, wherein the antenna structure includes: a plurality of insulating layers arranged in a stacked manner so as to be parallel to the first plate; a loop antenna array formed by the insulating layers and/or by the peripheries of the insulating layers; and a wireless communication circuit electrically connected to loop antennas, and configured to transmit and receive a first signal having a first frequency of a range of 3 GHz to 100 GHz.
US10985446B1
A method of making a reconfigurable antenna comprises the steps of applying one or more first layers of a prepreg laminate fabric to a form having a desired contour; applying a pattern corresponding to an antenna shape to the first layers of prepreg fabric; applying one or more second layers of the prepreg laminate fabric atop the pattern to form a laminate stack; curing the laminate stack; and removing the pattern to form channels in the antenna shape. The desired contour may be an aircraft skin panel or an airfoil panel. The pattern may be a polymer sheet with an applied cPLA antenna design. The curing step may be performed in a vacuum bag under the application of vacuum and heat. The removing step may be performed by heating the cured laminate stack to remove the pattern.
US10985439B2
A retaining and/or fastening frame (10) which is formed on or in a mobile-communications antenna (1) and/or on or in an electronic and/or filter module (4), or which can be fastened thereon, comprises a frame carrier (11) which is, or can be, fastened for example on a mobile-communications antenna (1). A movable plug-connector-receiving sleeve (12) comprises a housing wall (14), encircling a longitudinal axis (13) of the movable plug-connector-receiving sleeve (12) at least in part, and has two end sides (12a, 12b) located opposite one another. The encircling housing wall (14) surrounds an accommodating space (15), in which an antenna-side plug connector (9a) is, or can be, arranged. A connection port (6a) and/or a module-side plug connector (7a) of an electronic and/or filter module (4) can be introduced into the accommodating space (15). The movable plug-connector-receiving sleeve (12) is, or can be, connected directly or indirectly to the frame carrier (11) by means of a play-compensation device (16), with an amount of play being permitted, as a result of which the movable plug-connector-receiving sleeve (12) can be moved in relation to the frame carrier (11) in at least one direction transverse to the longitudinal axis (13).
US10985435B2
A tunable probe includes a first resonator, a second resonator spaced from the first resonator, and a cross-couple extending from the first resonator to the second resonator. The cross-couple includes a first substrate and a second substrate disposed between the first and second resonator to create a capacitance between the first and second resonators. The cross-couple further includes a wire connecting the first and second substrates and a dielectric surrounding the wire.
US10985434B2
A waveguide assembly which includes an elongated waveguide element (1) and a connector body (2). The connector body (2) is connected to an end of the elongated waveguide element (1) and has a substantially planar bottom surface (24) and an opposing top surface (23). The connector body is made from a single piece of partially metallized dielectric. The connector body has a waveguide coupling element (21) adjacent to the elongated waveguide element (1). The connector body further has an arrangement of electromagnetic band gap elements (27) adjacent to the waveguide coupling element (21).
US10985433B2
A battery module has a cell stack including a first battery cell and a second battery cell, which respectively have electrode leads and are stacked to face each other. A connector configured to connect the electrode leads of the pair of battery cells. A support frame provided to at least one side of the cell stack and having a pair of lead slits at which the electrode leads are drawn and an injection slit formed at a location corresponding to the connector to give a passage through which a venting gas discharged at venting of the battery cell is injected.
US10985428B2
Improved battery separators are disclosed herein for use in flooded lead-acid batteries, and in particular enhanced flooded lead-acid batteries. The improved separators disclosed herein provide for enhanced electrolyte mixing and substantially reduced acid stratification. The improved flooded lead-acid batteries may be advantageously employed in applications in which the battery remains in a partial state of charge, for instance in start/stop vehicle systems. Also, improved lead-acid batteries, such as flooded lead-acid batteries, improved systems that include a lead-acid battery and a battery separator, improved battery separators, improved vehicles including such systems, and/or methods of manufacture and/or use may be provided.
US10985422B2
A battery housing for a vehicle driven by an electric motor comprises a tray part with a bottom and side walls formed thereon, for receiving at least one battery module. The side walls of the tray part are respectively interconnected by a curved edge section. Said battery housing is characterized in that each curved edge section of the tray part is connected to at least one of the side walls connected thereby, with a connecting wall section curved in the opposite direction to the curved edge section being connected between the respective curved edge sections and side walls, and the side walls as well as each curved edge section and each curved connecting wall section are at a distance from the, or the plurality of, battery module(s).
US10985421B2
The present disclosure provides a battery module including: at least one cell; and a frame assembly including a lower plate configured to support a lower end surface of the cell, a side plate extending perpendicularly from any opposite edge ends of the lower plate and placed adjacent to an outermost side of the cell, and an upper plate coupled to an upper end of the side plate to cover an upper portion of the cell.
US10985418B2
An apparatus comprises an electrochemical energy storage device, a non-conductive film at least partially covering the electrochemical energy storage device, and a nano-grain metallic film at least partially covering the non-conductive film. The electrochemical energy storage device may include a cathode electrode layer, an anode electrode layer, and a separator layer therebetween.
US10985417B2
A battery is provided. The battery includes a battery pouch including at least one conductive terminal exposed to the outside, a printed circuit board electrically connected with the at least one conductive terminal and including a signal area and a non-signal area, a protection circuit electrically connected with the battery pouch, disposed on the signal area, and a heat dissipation plate connected with the non-signal area.
US10985414B2
A power storage module includes: a plurality of power storage elements; a plurality of cooling members each of which has a coolant and a sealing body hermetically sealing the coolant, is stacked on the power storage element, and is configured to form a bulging portion by deformation of the sealing body caused by evaporation of the coolant at an extension portion extending in a region not overlapping the power storage element; and a heat transfer member that has a spacer portion disposed between the adjacent extension portions of the plurality of cooling members and configured to abut with the bulging portion.
US10985413B2
A method for testing an all solid state battery with which the presence of short circuit or the presence of defect causing short circuit can be detected with high accuracy by a method in which a voltage is applied to a battery and the current value thereof is measured. The method includes the steps of: a resistance increasing step of increasing resistance of an all solid state battery to 3.2*105 Ω·cm2 or more; a voltage applying step of applying voltage to an all solid state battery of which the resistance is increased; and a judging step of judging acceptability of the all solid state battery based on a current value measured in the voltage applying step.
US10985405B2
A battery includes a first portion and a second portion, in which the first portion includes a first positive electrode layer, a first negative electrode layer, and a first solid electrolyte layer located between the first positive electrode layer and the first negative electrode layer, in which the second portion includes a second positive electrode layer, a second negative electrode layer, and a second solid electrolyte layer located between the second positive electrode layer and the second negative electrode layer, in which the first portion and the second portion are in contact with each other, the second portion is more sharply bent than the first portion, the first solid electrolyte layer contains a first binder, the second solid electrolyte layer contains a second binder, and the second solid electrolyte layer containing the second binder has higher flexibility than a flexibility of the first solid electrolyte layer containing the first binder.
US10985403B2
Disclosed is an electrochemical cell comprising a lithium anode and a sulfur-containing cathode and a non-aqueous electrolyte. The cell exhibits high utilization of the electroactive sulfur-containing material of the cathode and a high charge-discharge efficiency.
US10985399B2
A negative electrode for a lithium ion secondary battery includes a current collector and an active material-containing layer disposed on the current collector. The active material-containing layer includes: a first negative electrode active material including a carbon material; a second negative electrode active material including a metal element or a metalloid element as a constituent element, the metal element or the metalloid element being capable of forming an alloy with lithium; and a binder. The first negative electrode active material contains a spherical graphite, and the binder contains an acrylic resin.
US10985397B2
A clamping device for an electrochemical cell stack is provided. The clamping device can include a first plate and a second plate. The second plate can be positionable relative to the first plate such that a space between the first plate and the second plate can be sized to receive an electrochemical cell stack. The device also can include a coupling member coupling the first plate to the second plate. At least one of the first and second plates can be movable away from the other plate. The coupling member can have a first end portion and a second end portion. The device further can include an elastic member disposed between the first end portion and the second end portion.
US10985393B2
In embodiments, a method of forming a membrane electrode assembly comprises pressing a stack comprising a cathode, an anode, a proton exchange membrane between the cathode and the anode, and a porous catalyst layer in contact with the proton exchange membrane, the porous catalyst layer comprising an ionomer, the ionomer coating internal surfaces of pores of the porous catalyst layer, thereby providing internal ionomer-gas interfaces within the porous catalyst layer; for a time, a pressure, and a temperature to bind the ionomer to the proton exchange membrane, whereby steam is generated within the porous catalyst layer. The steam is removed via pores of the porous catalyst layer to increase the hydrophobicity of the internal ionomer-gas interfaces within the porous catalyst layer.
US10985392B2
This specification describes a system and method for controlling the voltage produced by a fuel cell. The system involves providing a bypass line between an air exhaust from the fuel cell and an air inlet of the fuel cell. At least one controllable device is configured to allow the flow rate through the bypass line to be altered. A controller is provided to control the controllable device. The method involves varying the rate of recirculation of air exhaust to air inlet so as to provide a desired change in fuel cell voltage.
US10985387B2
A fuel cell system comprises a fuel cell supplied with fuel and air to generate electricity, an evaporator evaporating the fuel, an off-gas heating device heating an off-gas discharged from the fuel cell to produce a heating gas, a fuel cell heating device heating the fuel cell using the heating gas, an evaporator heating device heating the evaporator using the heating gas, a fuel cell temperature acquisition unit, an evaporator temperature acquisition unit, and a controller configured to, in a warm-up operation to perform a warm-up of the evaporator and a warm-up of the fuel cell, control at least one of the evaporator heating device and the fuel cell heating device based on the temperature of the evaporator and the temperature of the fuel cell to adjust at least one of a heating amount of the evaporator and a heating amount of the air by the heating gas.
US10985383B2
A method of fabrication produces one or more functional microparticles using a parallel pore working piece. In one embodiment, the method forms a particle that includes a segment for the oxidation of a biofuel (such as glucose) and the reduction of oxygen. The particle may be synthesized in a structure with defined and parallel, uniform, thin pores that completely penetrate the structure. Further, the functional microparticle may be configured to reside in a human or animal body or cell such that it may be self-contained fuel cell having an anode, a cathode, a separator membrane, and a magnetic component. In other embodiments, the functional microparticles may deliver energy or therapeutic materials in the body.
US10985381B2
A nanostructured electrode for a polymer electrolyte fuel cell, a manufacturing method thereof, and a fuel cell including the nanostructured electrode are provided. The nanostructured electrode includes: a three-dimensional nanostructure including a nanoporous aerogel and an ionomer surrounding the surface of the aerogel; and a catalyst dispersed in the three-dimensional nanostructure. The electrode can obtain excellent current density and power density even with a relatively small amount of catalyst by having improved catalyst performance due to nanostructuring of an ionomer, uniform catalyst dispersion and increased catalyst utilization ratio, can also obtain a price reduction effect through a decrease in the amount of catalyst used, and is excellent in the mass transfer efficiency and low humidification performance.
US10985375B2
Provided is a slurry composition for a non-aqueous secondary battery positive electrode that has excellent stability and enables formation of a positive electrode mixed material layer that causes a non-aqueous secondary battery to display excellent output characteristics. The slurry composition contains a positive electrode active material and a copolymer. The proportion constituted by nickel among transition metal in the positive electrode active material is at least 30.0 mol % and not more than 100.0 mol %. The copolymer includes a nitrile group-containing monomer unit in a proportion of at least 70.0 mass % and not more than 96.0 mass % and a basic group-containing monomer unit in a proportion of at least 0.1 mass % and not more than 5.0 mass %.
US10985374B2
Disclosed is a binder composition for non-aqueous secondary battery electrode which comprises: a water-soluble polymer which comprises an acid group-containing monomer unit; and water, wherein the water-soluble polymer comprises the acid group-containing monomer unit in an amount of 5% to 70% by mass, and wherein the water-soluble polymer comprises water-soluble polymer particles having a radius of gyration of 200 nm or less in an amount of 95% to 100% by mass.
US10985373B2
Provided is cathode active material layer for a lithium battery. The cathode active material layer comprises multiple cathode active material particles and an optional conductive additive that are bonded together by a binder comprising a high-elasticity polymer having a recoverable tensile strain from 5% to 700% (preferably from 10% to 100%) when measured without an additive or reinforcement in said polymer and a lithium ion conductivity no less than 10−5 S/cm (preferably and typically from 1.0×10−5 S/cm to 5×10−2 S/cm) at room temperature.
US10985369B2
A composite oxide with high diffusion rate of lithium is provided. Alternatively, a lithium-containing complex phosphate with high diffusion rate of lithium is provided. Alternatively, a positive electrode active material with high diffusion rate of lithium is provided. Alternatively, a lithium ion battery with high output is provided. Alternatively, a lithium ion battery that can be manufactured at low cost is provided. A positive electrode active material is formed through a first step of mixing a lithium compound, a phosphorus compound, and water, a second step of adjusting pH by adding a first aqueous solution to a first mixed solution formed in the first step, a third step of mixing an iron compound with a second mixed solution formed in the second step, a fourth step of performing heat treatment under a pressure more than or equal to 0.1 MPa and less than or equal to 2 MPa at a highest temperature more than 100° C. and less than or equal to 119° C. on a third mixed solution formed in the third step with a pH of more than or equal to 3.5 and less than or equal to 5.0.
US10985359B2
Provided are an electrode lead wire member including a sealing film having high adhesive strength and resistance to an electrolytic solution, and a battery including the electrode lead wire member. Provided is an electrode lead wire member including: a derivation portion extending in one direction; a surface-treated layer formed, at the derivation portion, on a surface of the derivation portion; and a sealing film provided in contact with the surface-treated layer, in which the sealing film has an adhesive resin layer in contact with the surface-treated layer, and the adhesive resin layer contains imine-modified polyolefin or modified polyolefin having a carbodiimide group.
US10985357B2
In a battery wiring module that is attached to a unit cell group, a configuration that can inhibit noise propagation to signal lines is implemented in a more compact manner. A battery wiring module is attached to a unit cell group in which a plurality of unit cells are aligned. The battery wiring module includes: a wiring pattern configured as a signal transmission path on one side of a board main body portion; and a guard pattern that is formed in the vicinity of the wiring pattern on the one side of the board main body portion, and is kept at a predetermined reference potential while being insulated from the wiring pattern.
US10985356B2
The present invention relates to a composite separation membrane for a lithium secondary battery, having an excellent effect of improving the life time and safety of a battery and a lithium secondary battery including the membrane. The composite separation membrane includes a porous base layer; a heat-resistant layer formed on one side or both sides of the porous base layer; and a fusion layer formed on an outermost layer. The heat-resistant layer includes inorganic particles connected and fixed by binder polymers, and the fusion layer includes crystalline polymers in the form of particles having a melting temperature of 100° C. or higher.
US10985355B2
A coating amount is adjusted based on a result of the inspecting step, then the coating amount is not adjusted during a standby period (Wt) which is a time taken to transfer the film from a coating section (21) to an inspecting section (26), and then the coating amount is adjusted based on the result of the inspecting step after the standby period has elapsed. With the configuration, an amount of a coating layer on a film base material is stabilized.
US10985352B2
A battery pack for a vehicle electrical system includes a casing for receiving one or more battery modules. The battery modules are insertable into a casing of the battery pack by sliding couplers along pairs of rails and are securable to the ends of the rails. After insertion, the rails thermally insulate one battery module from other battery modules in the battery pack. Additionally, the battery modules may include a top cover with an insulating material to further thermally insulate one battery module from another battery module. The battery pack may additionally be configured with vents for venting the hot gases, such as those generated by a battery module in a thermal runaway event. Additionally, the battery modules may include a second insulating material disposed between cells and configured to thermally insulate the cells from one another.
US10985351B2
A method of forming a package is provided and includes providing two laminate edge portions of the package, each of which includes a foil layer between first and second resin layers; and welding together the respective first resin layers at a first position spaced apart from the edges while not welding the respective first resin layers at the edges, wherein the edge portions include edges from which electrode terminals extend such that portions of the electrode terminals are exposed beyond the edges, and wherein the edge portions are between a sealing portion and exposed portions of positive and negative electrode terminals.
US10985346B2
An organic light-emitting diode (OLED) display device is provided in the present invention, including a flexible substrate, a thin film transistor (TFT) layer, an OLED light emitting layer, a light extraction film layer, an inorganic protection film layer, and a packaging film layer. The light extraction film layer includes a first light extraction film layer and a second light extraction film layer. A nano-imprint process is performed on the second light extraction film layer to form a micro-lens array. The present invention also provides a manufacturing method of the OLED display device.
US10985343B1
A display panel and manufacturing method thereof, and electronic device are provided. The display panel comprises a flexible substrate, thin film transistor layer comprising a drain, anode layer, light-emitting layer, cathode layer and photoresist layer arranged sequentially in a stacked manner, wherein the anode layer and drain are electrically connected; the photoresist layer comprises a first photoresist layer, second photoresist layer and third photoresist layer arranged sequentially at intervals; all of the first, second and third photoresist layer are disposed on the surface of cathode layer; a first dielectric layer filling the space between the first and second photoresist layer, and a second dielectric layer filling the space between the second and third photoresist layer are included, and the first and second dielectric layer are used to absorb light incident from one side of photoresist layer away from cathode layer so as to improve contrast of the display panel.
US10985340B2
An organic light emitting diode display including a first substrate; a first electrode on the first substrate; an organic light emitting layer on the first electrode; a second electrode on the organic light emitting layer; and a capping layer on the second electrode, wherein the capping layer includes at least one heterocyclic compound, the heterocyclic compound including a carbazole group and a heterocyclic group bonded with the carbazole group.
US10985330B2
The application relates to compounds having functional substituents in a specific spatial arrangement, to devices comprising same, and to the preparation and use thereof.
US10985322B2
Light-emitting composition and devices including the same, the composition including a fluorescent light-emitting material and a polymer having a conjugating repeat unit and a non-conjugating repeat unit in a backbone of the polymer, and in which the conjugating repeat unit provides at least one conjugation path between repeat units linked to it; the non-conjugating repeat unit reduces conjugation of the polymer as compared to a polymer in which the non-conjugating repeat unit is absent; and a triplet excited state energy level of the light-emitting material is higher than a triplet excited state energy level of the non-conjugating repeat unit.
US10985320B2
The present disclosure provides an organic transistor and a manufacturing method thereof, an array substrate, and a display device. The method for manufacturing the organic transistor includes: applying a photoresist on a side of an organic insulating layer; patterning the photoresist to form a confinement well; adding a solution of an organic semiconductor material and an orthogonal solvent to the confinement well; volatilizing the orthogonal solvent by an annealing process to induce directional growth of single crystal of the organic semiconductor material in the confinement well, thereby obtaining an organic single crystal layer; and removing remaining photoresist and using the organic single crystal layer as an active layer. The embodiment of the present disclosure produces an organic single crystal in a flexible display device at a low temperature, and the organic single crystal can be used as an active layer, resulting in an organic transistor having high mobility and stability.
US10985317B2
A device for selecting a storage cell, includes a first electrode, a second electrode and an oxide layer disposed between the first electrode and the second electrode, wherein the oxide layer is doped with a first element from column IV of the periodic table.
US10985305B2
A light emitting module and the like having a higher heat-dissipation effect includes a light emitting element mounting substrate, one or more light emitting elements, a heatsink including a through-hole in a position corresponding to a screw hole, a bolt screwed in the screw hole and fastening the heatsink and a metal plate or a full thread and a nut for the fastening. In the light emitting element mounting substrate, the metal plate, an insulating layer, and an electrode layer on which the one or more light emitting elements are mountable are stacked in this order. The metal plate includes a bottomed screw hole opened at a surface opposite to a surface in contact with the insulating layer. The bolt or the full thread and the nut have a heat conductivity equal to or greater than that of the metal plate.
US10985291B2
The photodiode device comprises a substrate (1) of semiconductor material with a main surface (10), a plurality of doped wells (3) of a first type of conductivity, which are spaced apart at the main surface (10), and a guard ring (7) comprising a doped region of a second type of conductivity, which is opposite to the first type of conductivity. The guard ring (7) surrounds an area of the main surface (10) including the plurality of doped wells (3) without dividing this area. Conductor tracks (4) are electrically connected with the doped wells (3), which are thus interconnected, and further conductor tracks (5) are electrically connected with a region of the second type of conductivity. A doped surface region (2) of the second type of conductivity is present at the main surface (10) and covers the entire area between the guard ring (7) and the doped wells (3).
US10985278B2
An insulator is formed over a substrate, an opening is formed in the insulator, and an oxide semiconductor is formed in the opening. Then, part of the insulator is removed to expose a side surface of the oxide semiconductor.
US10985273B2
A method of forming a semiconductor structure includes forming at least one fin disposed over a substrate, wherein sidewalls of the at least one fin includes a first portion proximate a top surface of the substrate having a tapered profile and a second portion disposed above the first portion. The method also includes forming a bottom source/drain region surrounding at least part of the first portion of the sidewalls of the at least one fin having the tapered profile and forming a bottom spacer disposed over a top surface of the bottom source/drain region surrounding at least part of the second portion of the sidewalls of the at least one fin. The at least one fin provides a channel for a vertical field-effect transistor.
US10985263B2
An apparatus is provided which comprises: a semiconductor region on a substrate, a gate stack on the semiconductor region, a source region of doped semiconductor material on the substrate adjacent a first side of the semiconductor region, a cap region on the substrate adjacent a second side of the semiconductor region, wherein the cap region comprises semiconductor material of a higher band gap than the semiconductor region, and a drain region comprising doped semiconductor material on the cap region. Other embodiments are also disclosed and claimed.
US10985255B2
A semiconductor device and a method of forming the same are provided. The semiconductor device includes a gate trench crossing an active region, and a gate structure in the gate trench. The gate structure includes a gate dielectric layer disposed on an inner wall of the gate trench, a gate electrode disposed on the gate electric layer and partially filling the gate trench, a gate capping insulating layer disposed on the gate electrode, and a gap-fill insulating layer disposed in the gate trench and disposed on the gate capping insulating layer. The gate capping insulating layer includes a material formed by oxidizing a portion of the gate electrode, nitriding the portion of the gate electrode, or oxidizing and nitriding the portion of the gate electrode.
US10985245B2
The disclosure relates to a semiconductor device including a first planar field effect transistor cell and a second planar field effect transistor cell. The first planar field effect transistor cell and the second planar field effect transistor cell are electrically connected in parallel and each include a drain extension region between a channel region and a drain terminal at a first surface of a semiconductor body. A gate electrode of the first field effect transistor cell is electrically connected to a source terminal, and a gate electrode of the second field effect transistor cell is connected to a gate terminal that is electrically isolated from the source terminal.
US10985243B2
A transistor is provided that comprises a source region overlying a base structure, a drain region overlying the base structure, and a block of semiconducting material overlying the base structure and being disposed between the source region and the drain region. The block of semiconducting material comprises a gate controlled region adjacent the source region, and a drain access region disposed between the gate controlled region and the drain region. The drain access region is formed of a plurality of semiconducting material ridges spaced apart from one another by non-channel trench openings, wherein at least a portion of the non-channel trench openings being filled with a doped material to provide a depletion region to improve breakdown voltage of the transistor.
US10985241B2
A semiconductor device includes a semiconductor substrate, which includes an element region and an outer-periphery voltage withstanding region. The outer-periphery voltage withstanding region includes a plurality of p-type guard rings surrounding the element region in a multiple manner. Each of the guard rings includes a high concentration region and a low concentration region. A low concentration region of an outermost guard ring includes a first part positioned on an outer peripheral side of its high concentration region. Respective low concentration regions of the guard rings include respective second parts, each positioned in a range sandwiched between corresponding two adjacent high concentration regions among a plurality of concentration regions. A width of the first part on a front surface is wider than widths of the second parts on the front surface.
US10985233B2
A display device includes: a substrate comprising a display area and a peripheral area outside the display area; a first connection line in the display area, the first connection line comprising a first portion extending along a first column of the display area and in the first column, a third portion extending along a second column of the display area and in the second column, and a second portion connecting the first portion to the third portion; and a second connection line in the peripheral area and connected to the third portion of the first connection line and a data line in a third column of the display area.
US10985229B2
A display device including a substrate, a source electrode and a drain electrode on the substrate, the source electrode and the drain electrode being spaced apart from each other, a first layer on the source electrode or the drain electrode, a second layer directly on the first layer, and a first electrode on the second layer. A step difference between a top of the first layer and a top of the drain electrode is 100 Å or less.
US10985225B2
The present disclosure provides a method for manufacturing an OLED display substrate, including a step of forming a pattern of a pixel definition layer on a substrate through a patterning process. A bottom wall of the pixel definition layer is formed on the substrate, a top wall of the pixel definition layer is arranged parallel to the bottom wall, and a side wall of the pixel definition layer is angled relative to the top wall at an acute angle.
US10985222B2
An electroluminescent display panel, a method for manufacturing the same, and a mask are provided. The method for manufacturing an electroluminescent display panel includes: forming, on at least one side of a predetermined light-emitting layer of the electroluminescent display panel, an electrode layer having a pattern corresponding to patterns of masks under shielding of the masks through an evaporation process, wherein the predetermined light-emitting layer is a film layer for forming a light-emitting layer of the electroluminescent display panel.
US10985216B2
A display apparatus comprises a pixel including a plurality of sub pixels. Each of the sub pixels includes a current driven light emitting device, a transistor for supplying an electric current to the light emitting device and a capacitive element for maintaining a gate voltage of the transistor. The capacitive element of one sub pixel and the capacitive element of the other sub pixel at least partially overlap each other.
US10985194B2
A display panel and a display device are provided. The display panel comprises a display area; a non-display area surrounding the display area; a first edge; and a first insulating layer. The non-display area includes a binding area disposed between the display area and the first edge, and the binding area includes a plurality of bonding pads. The first insulating layer includes a plurality of through-holes disposed at the binding area and one-to-one corresponding the plurality of bonding pads, and a through-hole at least partially exposes a corresponding bonding pad. The first insulating layer includes a sub-edge arranged adjacent to the first edge, and a distance between the sub-edge and the first edge is D1, and the bonding pad has a first bonding pad edge arranged adjacent to the first edge, and a distance between the first bonding pad edge and the first edge is D2, where D1≥D2.
US10985190B2
An active device substrate including a substrate and an active device is provided. The active device includes a protrusion, a gate disposed on the protrusion, a semiconductor layer, a gate insulation layer disposed between the gate and the semiconductor layer, a first electrode and a second electrode electrically connected to the semiconductor layer. The protrusion has a first upper surface, a second upper surface, an inner surface and an outer surface. The inner surface and the first upper surface define a concave portion. The inner surface, the second upper surface and the outer surface define a convex portion. The semiconductor layer is disposed on the first upper surface, the inner surface, the second upper surface and the outer surface. The first electrode is disposed on at least one portion of the outer surface. The second electrode is disposed in the concave portion of the protrusion.
US10985187B1
A display panel and fabrication method, and a display device are provided. The display panel includes a substrate, an array layer disposed on the substrate, and a light-emitting device disposed on a side of the array layer facing away from the substrate. The array layer includes a thin film transistor, and the thin film transistor includes a ring-shaped active layer, a ring-shaped gate electrode isolatedly overlapped with a channel region of the ring-shaped active layer, and a ring-shaped first end corresponding to and connected to the ring-shaped active layer. The ring-shaped first end is one of a source electrode and a drain electrode of the thin film transistor. The light-emitting device includes a first electrode, and the first electrode is connected to the ring-shaped first end, and the first electrode is a ring-shaped electrode.
US10985185B2
A display panel and a display device are provided. The display panel is an LTPO display panel including at least one LTPS thin film transistor and at least one Oxide thin film transistor. The LTPS thin film transistor and the Oxide thin film transistor are both formed on the side of the buffer layer facing away from the substrate. A groove structure or a hollow structure is provided on the buffer layer at a position corresponding to the Oxide thin film transistor, and the Oxide thin film transistor is fabricated in the groove structure or the hollow structure, to avoid the case that the great height by which the Oxide thin film transistor protrudes from the substrate causes a great thickness of the LTPO display panel.
US10985161B2
Devices and methods are provided for forming single diffusion break isolation structures for integrated circuit devices including gate-all-around FET devices such as nanosheet FET devices and nanowire FET devices. For example, a semiconductor integrated circuit device includes first and second gate-all-around field-effect transistor devices disposed in first and second device regions, respectively, of a semiconductor substrate. A single diffusion break isolation structure is disposed between the first and second device regions. The single diffusion break isolation structure includes a dummy gate structure disposed on the semiconductor substrate between a first source/drain layer of the first gate-all-around field-effect transistor device and a second source/drain layer of the second gate all-around field-effect transistor device. The single diffusion break isolation structure is configured to electrically isolate the first and second source/drain layers.
US10985155B1
An embedded NMOS triggered silicon controlled rectification device includes a P-type substrate, at least one rectifying zone, and at least one trigger. The rectifying zone includes a first N-type heavily doped area, an N-type well, and a first P-type heavily doped area. Alternatively, the device includes an N-type substrate, a first P-type well, at least one rectifying zone, and at least one trigger. The rectifying zone includes a second P-type well, a first N-type heavily doped area, and a first P-type heavily doped area. The trigger cooperates with the P-type substrate or the first P-type well to form at least one NMOSFET. The trigger is independent to the rectifying zone. The first P-type heavily doped area is arranged between the trigger and the first N-type heavily doped area.
US10985150B2
A display device is provided. The display device includes a supporting film and a flexible substrate disposed on the supporting film. The display device also includes a driving layer disposed on the flexible substrate, and a conductive pad disposed on the driving layer. The display device further includes a light-emitting diode disposed on the conductive pad and electrically connected to the conductive pad, wherein the supporting film has a first hardness, the flexible substrate has a second hardness, and the first hardness is greater than or equal to the second hardness.
US10985148B2
An electronic device is disclosed, which comprises: a substrate; a plurality of sensing elements disposed on the substrate; and a plurality of electronic modules disposed on the substrate, each electronic module comprising a plurality of electronic elements, wherein the plurality of electronic modules are arranged in a manner to expose the plurality of sensing elements.
US10985142B2
Embodiments of three-dimensional (3D) memory devices and methods for forming the 3D memory devices are disclosed. In an example, a 3D memory device includes a substrate, a first memory deck above the substrate, a first channel structure, a first inter-deck plug above and in contact with the first channel structure, a second memory deck above the first inter-deck plug, and a second channel structure above and in contact with the first inter-deck plug. The first memory deck includes a first plurality of interleaved conductor layers and dielectric layers. The first channel structure extends vertically through the first memory deck. The first inter-deck plug includes single-crystal silicon. The second memory deck includes a second plurality of interleaved conductor layers and dielectric layers. The second channel structure extends vertically through the second memory deck.
US10985128B2
An anisotropic conductive film has a structure in which high hardness conductive particles having a 20% compression elastic modulus of 8000 to 28000 N/mm2 and low hardness conductive particles having a lower 20% compression elastic modulus than that of the high hardness conductive particles are dispersed as conductive particles in an insulating resin layer. The number density of all the conductive particles is 6000 particles/mm2 or more, and the number density of the low hardness conductive particles is 10% or more of that of all the conductive particles.
US10985125B2
A chip package structure is provided. The chip package structure includes a substrate having a first surface and a second surface opposite to the first surface. The chip package structure includes a first chip structure and a second chip structure over the first surface. The chip package structure includes a protective layer over the first surface and surrounding the first chip structure and the second chip structure. A portion of the protective layer is between the first chip structure and the second chip structure. The chip package structure includes a first anti-warpage bump over the second surface and extending across the portion of the protective layer. The chip package structure includes a conductive bump over the second surface and electrically connected to the first chip structure or the second chip structure. The first anti-warpage bump is wider than the conductive bump.
US10985114B2
A system and method for preventing cracks in a passivation layer is provided. In an embodiment a contact pad has a first diameter and an opening through the passivation layer has a second diameter, wherein the first diameter is greater than the second diameter by a first distance of about 10 μm. In another embodiment, an underbump metallization is formed through the opening, and the underbump metallization has a third diameter that is greater than the first diameter by a second distance of about 5 μm. In yet another embodiment, a sum of the first distance and the second distance is greater than about 15 μm. In another embodiment the underbump metallization has a first dimension that is less than a dimension of the contact pad and a second dimension that is greater than a dimension of the contact pad.
US10985109B2
A semiconductor device has a substrate including a terminal and an insulating layer formed over the terminal. An electrical component is disposed over the substrate. An encapsulant is deposited over the electrical component and substrate. A portion of the insulating layer over the terminal is exposed from the encapsulant. A shielding layer is formed over the encapsulant and terminal. A portion of the shielding layer is removed to expose the portion of the insulating layer. The portion of the insulating layer is removed to expose the terminal. The portion of the shielding layer and the portion of the insulating layer can be removed by laser ablation.
US10985106B2
A stack package includes a plurality of sub-packages vertically stacked. Each of the sub-packages includes a bridge die having a plurality of vertical interconnectors and a semiconductor die. A first group of vertical interconnectors disposed in a first bridge die included in a first sub-package of the sub-packages and other vertical interconnectors connected to the first group of vertical interconnectors constitute a first electric path, and a second group of vertical interconnectors disposed in a second bridge die included in a second sub-package of the sub-packages and other vertical interconnectors connected to the second group of vertical interconnectors constitute a second electric path. The first and second electric paths are electrically isolated from each other and disposed to provide two separate electric paths.
US10985095B2
A vehicle power module for converting power includes a lead frame configured to receive power from outside or to output power to the outside and a substrate configured to be bonded with the lead frame. The substrate includes a pattern layer disposed to be electrically connected to the lead frame, a conductive layer disposed apart from the pattern layer and configured to be electrically grounded, and an insulating layer disposed between the conductive layer and the pattern layer to insulate the pattern layer from the conductive layer. The pattern layer further protrudes toward the lead frame than the insulating layer.
US10985093B2
A semiconductor device includes a semiconductor element, leads, and an encapsulation resin covering a portion of each of the leads and the semiconductor element. Each of the leads includes an external connection portion projecting from a side surface of the encapsulation resin. The external connection portion of at least one of the leads has opposite ends in a width-wise direction that extends along the side surface of the encapsulation resin. The external connection portion includes two recesses arranged toward a center in the width-wise direction from the opposite ends. The two recesses extend from a distal surface toward the encapsulation resin. The opposite ends in the width-wise direction define an end connection part. The external connection portion includes a part between the two recesses defining a center connection part.
US10985092B2
A semiconductor device includes: a seal portion; a first electronic element; a first lead terminal; a second lead terminal having one end that is disposed to be close to the one end of the first lead terminal within the seal portion, and another end that is exposed from another end of the seal portion, the other end of the seal portion being along the longitudinal direction; a first connecting element disposed within the seal portion, and having one end that is electrically connected to the first electrode disposed on the first electronic element, and another end that is electrically connected to the one end of the second lead terminal; and a conductive bonding agent.
US10985085B2
A thermal conductive device includes a first conductive plate, a second conductive plate, a plurality of wicks and a fluid. The first conductive plate has a first portion adjacent to edges of the first conductive plate and a second portion far away from the edges. The second conductive plate has a first portion adjacent to edges of the first conductive plate and a second portion far away from the edges. The first portion and the second portion of the first conductive plate are respectively connected to the first portion and the second portion of the second conductive plate to define a chamber. The plurality of wicks are disposed within the chamber. The fluid is disposed within the chamber.
US10985082B2
Aspects of wireless communication are described, including a radiofrequency (RF) amplifier chip, configured for transmitting or receiving data, comprising a first substrate comprising a first material and a second substrate comprising a second material that is different from the first material. The first substrate and the second substrate may be lattice-matched such that an interface region between the first substrate and the second substrate exhibits an sp3 carbon peak at about 1332 cm·1 having a full width half maximum of no more than 5.0 cm·1 as measured by Raman spectroscopy. In some aspects, the first substrate and said second substrate permit said chip to transmit or receive data at a transfer rate of at least 500 megabits per second and a frequency of at least 8 GHz. In some aspects, the RF amplifier chip is part of a satellite transmitter.
US10985079B2
The invention provides a method of manufacturing a SiC epitaxial wafer in which stacking faults are less likely to occur when a current is passed in a forward direction. The method of manufacturing the SiC epitaxial wafer includes a measurement step for measuring a basal plane dislocation density, a layer structure determining process for determining the layer structure of the epitaxial layer, and an epitaxial growth step for growing the epitaxial layers. And in the layer structure determination step, in the case of (i) when the basal plane dislocation density is lower than a predetermined value, the epitaxial layer includes a conversion layer and a drift layer from the SiC substrate side; and in the case of (ii) when the density is equal to or higher than the predetermined value, the epitaxial layer includes a conversion layer, a recombination layer, and a drift layer from the SiC substrate side.
US10985074B2
A CMOS transistor manufacturing method includes: forming a gate insulating film on a semiconductor substrate; forming a first gate electrode pattern on the gate insulating film in an NMOS transistor area; forming a second gate electrode pattern on the gate insulating film in a PMOS transistor area; forming a first photoresist pattern covering the NMOS transistor area to expose the second gate electrode pattern; performing a first ion injection process into the PMOS transistor area to form an n-type well region and a p-type LDD region; removing the first photoresist pattern; forming a second photoresist pattern covering the PMOS transistor area to expose the first gate electrode pattern; performing a second ion injection process into the NMOS transistor area to form a p-type well region and an n-type LDD region; removing the second photoresist pattern; and forming sidewall spacers at sidewalls of the first and second gate electrode patterns.
US10985070B2
A method for forming a nanodevice sensing chip includes forming nanodevices having a sensing region capable of producing localized Joule heating. Individual nanodevice is electrical-biased in a chemical vapor deposition (CVD) system or an atomic layer deposition (ALD) system enabling the sensing region of the nanodevice produce localized Joule heating and depositing sensing material only on this sensing region. A sensing chip is formed via nanodevices with sensing region of each nanodevice deposited various materials separately. The sensing chip is also functioned under device Joule self-heating to interact and detect the specific molecules.
US10985067B2
A wafer processing method includes a polyolefin sheet providing step of positioning a wafer in an inside opening of a ring frame and providing a polyolefin sheet on a back side or a front side of the wafer and on a back side of the ring frame, a uniting step of heating the polyolefin sheet as applying a pressure to the polyolefin sheet to thereby unite the wafer and the ring frame through the polyolefin sheet by thermocompression bonding, a dividing step of applying a laser beam to the wafer to form modified layers in the wafer, thereby dividing the wafer into individual device chips, and a pickup step of blowing out air to push up each device chip and picking up each device chip from the polyolefin sheet.
US10985066B2
A wafer processing method includes a polyolefin sheet providing step of positioning a wafer in an inside opening of a ring frame and providing a polyolefin sheet on a back side of the wafer and on a back side of the ring frame, a uniting step of heating the polyolefin sheet as applying a pressure to the polyolefin sheet to thereby unite the wafer and the ring frame through the polyolefin sheet by thermocompression bonding, a dividing step of cutting the wafer by using a cutting apparatus to thereby divide the wafer into individual device chips, and a pickup step of applying an ultrasonic wave to the polyolefin sheet, pushing up each device chip through the polyolefin sheet, and then picking up each device chip from the polyolefin sheet.
US10985059B2
A method is provided of forming a superconductor device interconnect structure. The method comprises forming a first dielectric layer overlying a substrate and forming a superconducting interconnect element in the first dielectric layer. The superconducting interconnect element includes a top surface aligned with a top surface of the first dielectric layer to form a first interconnect layer. The superconductor device interconnect structure is moved into a dielectric deposition chamber. The method further comprises performing a cleaning process on a top surface of the first interconnect layer in the dielectric deposition chamber to remove oxidization from a top surface of the first interconnect layer, and depositing a second dielectric layer over the first interconnect layer in the dielectric deposition chamber.
US10985056B2
A method of forming fully aligned vias in a semiconductor device, the method including recessing a first level interconnect line below a first interlevel dielectric (ILD), laterally etching the exposed upper portion of the first interlevel dielectric bounding the recess, depositing a dielectric cap layer and a second level interlevel dielectric on top of the first interlevel dielectric, and forming a via opening.
US10985050B2
The present disclosure relates to the technical field of semiconductors, and in particular to a semiconductor chip, a semiconductor wafer and a method for manufacturing a semiconductor wafer. The semiconductor chip comprises: a substrate, devices provided on a side of the substrate, via holes running through the substrate, conductive material filled in the via holes and contacted with the devices, and a backside metal layer provided on the other side of the substrate away from the devices, the backside metal layer coming into contact with the conductive material so as to be electrically connected to the devices via the conductive material. The semiconductor chip, the semiconductor wafer and the method for manufacturing a semiconductor wafer of the present disclosure reduce the ground resistance and improve the heat dissipation of devices with via holes structure during the operation.
US10985041B2
A method and apparatus for use in a wafer processing are disclosed. In an embodiment a includes providing the wafer on a receptacle, wherein the receptacle comprises a light port, and wherein the light port includes a source of light, shining a light from the source of light at an edge of the wafer thereby passing light by the edge of the wafer and processing the wafer on the receptacle based on the light passing by the edge of the wafer and received by a light sensitive element.
US10985039B2
Various embodiments comprise apparatuses for cleaning and drying a substrate and methods of operating the apparatuses. In one embodiment, an exemplary apparatus includes a vertical substrate holder to hold and rotate the substrate at various speeds. An inner shield and an outer shield, when in a closed position, surround the vertical substrate holder during operation of the apparatus. Each of the inner shield and the outer shield can operate independently in at least one of rotational speed and direction from the other shield. A front-side spray jet and a back-side spray jet are arranged to spray at least one fluid onto both sides of the substrate and edges of the substrate substantially concurrently. A gas flow, combined with a high rotational-speed of the shields and substrate, assist in drying the substrate. Additional apparatuses and methods of forming the apparatuses are disclosed.
US10985030B2
A method for manufacturing a semiconductor device includes preparing a lead frame, mounting a semiconductor element on an obverse face of the lead frame, forming a sealing resin covering the semiconductor element, forming a groove on a reverse face of the lead frame, and removing a portion of the lead frame and a portion of the sealing resin along a disposal region that is narrower than the groove and entirely overlaps with the groove. The preparing of the lead frame includes forming at least one recess located in the disposal region and having an end that is open in the thickness direction. The forming of the groove includes exposing the recess on a side of the reverse face of the lead frame. The removing is performed with reference to the recess.
US10985024B2
Methods and systems for using the downstream active residuals of a reducing-chemistry atmospheric plasma to provide multiple advantages to pre-plating surface preparation with a simple apparatus. As the downstream active species of the atmospheric plasma impinge the substrate surface, three important surface preparation processes can be performed simultaneously: 1. Organic residue is removed from the surface of the plating base. 2. Oxidation is removed from the surface of the plating base. 3. All surfaces on the substrate are highly activated by the downstream active residuals thus creating a highly wettable surface for subsequent plating operations.
US10985010B2
A composition and method for using the composition in the fabrication of an electronic device are disclosed. Compounds, compositions and methods for depositing a high quality silicon nitride or carbon doped silicon nitride.
US10985007B2
Disclosed are a substrate treating apparatus and a method for inspecting a treatment liquid nozzle. The substrate treating apparatus includes a support member configured to support a substrate, a treatment liquid nozzle configured to discharge a treatment liquid to the substrate located on the support member, a light source configured to irradiate light to a point of the substrate, to which the treatment liquid is discharged, a camera configured to photograph the point of the substrate, to which the treatment liquid is discharged, and a controller configured to determine, through an image captured by the camera, whether a crown is generated when the treatment liquid collides with the substrate.
US10985004B2
A mass spectrometer (10) includes a housing (19) that houses a plurality of devices including a mass analyzer (110) including an ionization unit, a mass separation unit, and an ion detection unit, a first heat generation device (11), and a second heat generation device (12) which has an allowable maximum temperature lower than that of the first heat generation device (11) or an allowable temperature variation amount smaller than that of the first heat generation device (11), an intake port (14) of the housing (19) which is provided at a position closer to the second heat generation device (12) with respect to the first heat generation device (11), and an exhaust fan (15) of the housing (19) which is provided at a position farther from the second heat generation device (12) with respect to the first heat generation device (11).
US10985003B2
The present invention provides an analysis method for determining halogens in geological samples by ICP-MS. The method includes following steps: weighing a geological sample and ammonium bifluoride in a sample dissolving tank, tightening the sample dissolving tank, and shaking; then heating the sample dissolving tank in a drying oven, and setting a temperature of the drying oven as 200-220° C. and heating time as 1-2 hours; cooling the sample dissolving tank to room temperature so as to obtain a solid mixture after heating is ended, adding ammonium hydroxide into the solid mixture, centrifuging, removing a precipitate, and collecting the supernatant; adding an internal standard solution into the supernatant, and uniformly mixing; and optimizing the ICP-MS to an optimal state, testing content of chlorine in the supernatant under a condition of medium resolution m/Δm=4000, and testing content of bromine and iodine in the supernatant under a condition of low resolution m/Δm=300.
US10984995B2
A solar generator can include a photon-enhanced thermionic emission generator with a cathode to receive solar radiation. The photon-enhanced thermionic emission generator can include an anode that in conjunction with the cathode generates a first current and waste heat from the solar radiation. A thermoelectric generator can be thermally coupled to the anode and can convert the waste heat from the anode into a second current. A circuit can connect to the photon-enhanced thermionic emission generator and to the thermoelectric generator and can combine the first and the second currents into an output current.
US10984994B2
The present disclosure provides a deposition apparatus, including a first chamber, a second chamber and a third chamber. The first chamber is configured to load a substrate. The second chamber is configured to provide a high temperature environment in which a degas process and a sputtering process are performed on the substrate. The third chamber is provided between the first chamber and the second chamber. The third chamber is configured to transfer the substrate from the first chamber to the second chamber via the third chamber.
US10984975B2
An installation structure of a temperature fuse is disclosed. The temperature fuse includes a first leg fixed to one surface of a printed circuit board (PCB), a bent part formed to be bent several times in an outer direction of the PCB from an end part of the first leg, and a second leg incorporated with the bent part and fixed to one surface of the PCB while being spaced apart from the first leg by a predetermined distance. The installation structure of the temperature fuse includes a third leg formed to extend from any one of the first leg and the second leg, a conductive member electrically connected to the third leg while being electrically isolated from the PCB, and a sensing part electrically connected to the third leg through the conductive member, and configured to detect whether a connection state between the third leg and the conductive member is normal.
US10984974B2
A circuit breaker has a first stationary contact connected to line power and a second stationary contact connected to neutral. A first moveable contact coupled to a load power terminal, is mounted on a moveable actuator and juxtaposed with the first stationary contact to form a power circuit when the first moveable and first stationary contacts are closed. A second moveable contact connected to a load neutral terminal is mounted on the moveable actuator juxtaposed with the second stationary contact to form a neutral circuit when the second moveable and second stationary contacts are closed. The movable actuator moves the first and second moveable contacts in unison to open the power circuit between the first stationary and first moveable contacts and to simultaneously open the neutral circuit between the second stationary and second moveable contacts, in response to actuation of an operating handle or to sensing a tripping event.
US10984970B2
A keyboard includes a base plate, a plurality of key structures, and a light emitting assembly. The base plate includes a body and a plurality of optically transmissive members. The body has a plurality of hollow portions. The optically transmissive members are contained in the hollow portions, respectively. Each of the optically transmissive members has a light guiding portion and a plurality of connecting structures. The key structures correspond to the optically transmissive members, respectively. One of the key structures is connected to the connecting structures of one of the optically transmissive members. The light emitting assembly includes a driver circuit board and a plurality of light emitting units. The light emitting units are located on the driver circuit board. The driver circuit board is located on one of the surfaces of the base plate. The light emitting units are contained in the light guiding portion, respectively.
US10984963B2
The present invention relates to a carbonaceous material having a specific surface area of 1,800 m2/g to 3,000 m2/g according to a BET method, an R-value of 1.2 or more and a G-band half-value width of 70 cm−1 or more according to a Raman spectrum.
US10984961B2
A hybrid capacitor is provided which, while improving utilization ratio of the negative electrode active substance, achieves a low DC internal resistance. This hybrid capacitor is provided with a positive electrode having a layer of a positive electrode active substance having double-layer capacitance, and a negative electrode which has a negative electrode active substance layer that can occlude and release lithium ions and that is formed from metal compound particles having a three-dimensional network structure. The 100% discharge capacity of the metal compound particles having the three-dimensional network structure is 1.25-5.0 times the 100% discharge capacity of the positive electrode active substance.
US10984960B2
An electrolytic capacitor includes a capacitor element, a liquid component, an outer case, and a sealing body. The capacitor element includes an anode body having a dielectric layer, and a solid electrolyte layer in contact with the dielectric layer. The liquid component is in contact with the solid electrolyte layer. The outer case houses the capacitor element and the liquid component. The sealing body seals an opening of the outer case. The liquid component contains a first component, which is an aliphatic polyol compound having two or more hydroxy groups per molecule. The aliphatic polyol compound includes at least one of a compound having a C3 carbon chain in a main chain and a compound having no C3 carbon chain but having one to four ether oxygen atoms in a main chain. The sealing body includes a polymer having no double bond in a main chain.
US10984955B2
An electronic device is described wherein the electronic device comprises a substrate with a first conductive metal layer and a second conductive metal layer. A first microphonic noise reduction structure is in electrical contact with the first conductive metal layer wherein the first microphonic noise reduction layer comprises at least one of the group consisting of a compliant non-metallic layer and a shock absorbing conductor comprising offset mounting tabs with a space there between coupled with at least one stress relieving portion. An electronic component comprising a first external termination of a first polarity and a second external termination of a second polarity is integral to the electronic device and the first microphonic noise reduction structure and the first external termination are adhesively bonded by a transient liquid phase sintering adhesive.
US10984950B2
A method of manufacturing an electronic device includes preparing a chip component with a terminal electrode. A terminal plate is prepared. A connection member is placed between an end surface of the terminal electrode and an inner surface of the terminal plate. The terminal plate and the terminal electrode are joined using the connection member by bringing a press head into contact with an outer surface of the terminal plate and pressing and heating the terminal plate against the terminal electrode.
US10984945B2
Provided is a transformer (1), which includes: a core (10) which forms a magnetic circuit and has a middle leg (10a) and a plurality of side legs (10b, 10c) branched from the middle leg (10a); primary windings (11) respectively wound around a first winding leg (10a) and a second winding leg (10b), which are selected from the middle leg (10a) and the side legs (10b, 10c); and a secondary winding (12) wound around either of the first winding leg (10a) or the second winding leg (10b), wherein a first magnetic flux generated by the primary windings (11) from the first winding leg (10a) and a second magnetic flux generated by the primary windings (11) from the second winding leg (10b) differ from each other by a predetermined value or more at a position at which the fluxes do not intersect with the secondary winding (12).
US10984940B2
A compression housing for a laminate core of an inductive current transformer is disclosed herein. The laminate core may include a portion wound with a secondary winding. The laminate core may be housed in the housing operable between opened and closed configurations. The compression housing may include contact plates for providing an electrical contact to the laminate core in closed configuration. The compression housing may include compression wedges to provide compression to the laminate core between the compression wedge and the contact plate. The current transformer may be used to obtain electric power and electric current measurements from a primary conductor.
US10984938B2
The magnetoresistance effect device includes: a magnetoresistance effect element that includes a first magnetization free layer, a magnetization fixed layer or a second magnetization free layer, and a spacer layer interposed between the first magnetization free layer and the magnetization fixed layer or the second magnetization free layer; and a magnetic material part that applies a magnetic field to the magnetoresistance effect element, wherein the magnetic material part is arranged to surround an outer circumference of the magnetoresistance effect element in a plan view in a stacking direction L of the magnetoresistance effect element.
US10984927B2
A PTC thermistor switch for electric motors includes an insulating casing and a PTC thermistor housed in a housing seat made in the insulating casing. The PTC thermistor has a first face and a second face opposite the first face. A first electric terminal is housed in the insulating casing and has two protrusions in direct contact with the first face of the PTC thermistor in two opposite contact points with respect to the center of the first face. The switch also includes a second electric terminal housed in the insulating casing and an elastic arm portion in direct contact with the second face of the PTC thermistor in an intermediate contact point between the contact points of the protrusions. The second electric terminal is arranged so that the elastic arm portion presses against the second face of the PTC thermistor.
US10984921B2
Provided is a conductive paste which makes it possible to form a conductive layer having excellent conductivity even when spherical copper powder having a small particle diameter is used. Disclosed is a conductive paste containing a conductive filler and a binder resin. In this conductive paste, when a first coating film is prepared by coating a first paste containing 100 parts by weight of the binder resin and 20 parts by weight of the conductive filler on a first substrate at a coating amount of 100 g/m2 and drying and curing the binder resin, the first coating film has a light transmittance of 20% or more, and when a second coating film is prepared by coating a second paste containing the binder resin but not containing the conductive filler on a second substrate at a coating amount equivalent to a dry solid content of 55 g/m2 and drying and curing the binder resin, a film thickness t μm of the second coating film and a shrinkage ratio α % obtained by the following formula (1) satisfy a relationship of the following formula (2): α=(1−(arc length of a surface of the second coating film after drying and curing)/(arc length of a second substrate after drying and curing))×100 Formula (1) and α≥(5t+50)×10−3 Formula (2).
US10984918B2
A mechanical decladder for a spent nuclear fuel rod-cut includes an opening and closing unit configured to open and close an outlet of a basket into which the nuclear fuel rod-cut is loaded, a supporter on which the nuclear fuel rod-cut discharged from the outlet of the basket is seated, a hydraulic cylinder module configured to move the nuclear fuel rod-cut seated on the supporter; and a cutting module for slitting the nuclear fuel rod-cut while the nuclear fuel rod-cut is being moved by the hydraulic cylinder module. The opening and closing unit opens and closes the outlet of the basket in conjunction with a movement of the hydraulic cylinder module.
US10984916B2
A telemedicine system including a cart that allows for two-way audio/video conferencing between patients or local care providers and remote care providers or family members. The cart employs a modular design that allows its capabilities to be expanded to meet the needs of particular telemedicine applications. In addition, the cart provides thermal imaging and a user interface that allows local care provers to access various capabilities of the device while the device is not in session with a remote party.
US10984912B2
A method and apparatus that for monitoring the physiological state of nutrition of an individual and adaptively analyze that data input to anticipate the individual's nutritional needs. A satiety meter may be employed to analyze a user's profile including nutritional state and determine when and how much a user should consume to prevent the onset of hunger and communicate is to a decision engine. The decision engine may generate and communicate a message to the user via the client device to prescribe prophylactic intake of nutrition to the individual prior to the onset of hunger based on the user's nutrition plan and/or regimen.
US10984909B2
A gas cylinder monitoring system is disclosed having a gas cylinder for receiving and distributing gas contained therein, a first monitoring system associated with the gas cylinder operable to monitor data associated with the gas cylinder and having a transmitter operable to broadcast the data at a controlled time and/or time interval in a discrete advertisement package, and a second monitoring system associated with one or more locations in which the first monitoring system may reside and having a receiver operable in a first mode to receive the advertisement package broadcast from the first monitoring system when the second monitoring system is within range of the first monitoring system.
US10984897B2
Systems and methods for surfacing contextually relevant data into the workflow of a third party system are discussed herein. The system implements a near-real-time method of detecting activity corresponding to particular electronic health records associated with particular patients in third-party systems using specifically configured software systems. A cloud-based micro-services architecture is communicably coupled to the third-party systems and is operable to transmit contextually relevant data to the third-party system in response to particular detected activities, such as accessing a patient's electronic health record. The contextually-relevant data is identified by comparing electronic health record data from various third-party systems, each third-party system associated with the particular patient, to determine gaps in the records. The contextually relevant data is transmitted to the third-party system and visually integrated into the third-party system's pre-existing clinical workflow.
US10984896B2
Systems and methods for providing targeted content to a patient who has received a prescription for medication. The systems and methods generally provide the content prior to the Point of Sale (POS) of the actual prescription allow patients to review the content and possibly act on it prior to actually obtaining the medication. Depending on embodiment, the content may be provided by a pharmacy at or around the time of dispensing or by a physician at or around the time of prescribing.
US10984893B2
This disclosure relates to systems and methods for managing patients of knee surgeries. A pre-operative patient questionnaire user interface is associated with a future knee operation of the patient. Patient input data is indicative of answers of a patient in relation to the pre-operative patient questionnaire. A processor of a computer system evaluates a statistical model to determine a predicted satisfaction value indicative of satisfaction of the patient with the future knee operation. The statistical model comprises nodes stored on data memory representing the patient input data and the predicted satisfaction value, and edges stored on data memory between the nodes representing conditional dependencies between the patient input data and the predicted satisfaction value. The processor then generates an electronic document comprising a surgeon report associated with the future knee operation to indicate to the surgeon the predicted satisfaction value.
US10984892B2
Methods are provided for detecting an analyte concentration/presence in a body fluid sample that include providing a set of at least two different evaluation rules, each evaluation rule adapted to derive a set characteristic values from an optical measurement curve, where at least one first characteristic value is derived from at least one first evaluation rule and at least one second characteristic value is derived from at least one second evaluation rule. The methods also include performing at least one multivariate analysis of the at least one first and second characteristic values by using at least one predetermined multivariate evaluation algorithm to derive at least one estimate value for at least one target variable Y of the state variables. The methods also include determining at least one analyte concentration by using the at least one target variable Y. Also provided are computer programs and devices that incorporate the same.
US10984891B2
A method to detect chromatin-interacting RNAs in any given state of a cell or tissue by examining global RNA interactions with DNA by deep sequencing. A method to generate a global view of chromatin-RNA interactome by mapping the binding locations on the genome of each detected chromatin interacting RNA.
US10984888B2
A computer-implemented method for designing a digital PCR (dPCR) experiment is provided. The method includes receiving, from a user, a selection of optimization type. The optimization type may be maximizing the dynamic range, minimizing the number of substrates including reaction sites needed for the experiment, determining a dilution factor, or determining the lower limit of detection, for example. The method further includes receiving, from the user, a precision measure for an experiment, and a minimum concentration of a target in a reaction site for the experiment. The method also includes determining a set of dPCR experiment design factors for the experiment based on the optimization type. The set of dPCR experiment design factors is then displayed to the user.
US10984882B2
The subject technology provides implementations, which may be included as part of firmware of the flash memory device, that will not solely rely on a flash controller interpreted status but includes additional checks to the returned flash status byte. Each flash read, write, and erase command requires a status read command to determine the state of operation. Depending on the particular command issued, each bit of the returned status has a different meaning. The flash memory device firmware can check whether an illogical or inconsistent status is present. For example, if an overall pass/fail bit indicates a “pass” but a plane pass/fail bit indicates a “fail” then there could be an erroneous detection. Also, for every operation, the firmware can read status twice when the flash memory is ready. If the second status byte fails to match the first status byte then a die may be flagged as failing.
US10984877B1
An apparatus and method for a multi-state verify of a memory array are provided. A sense circuit of a memory device is connected to a bit line of the memory array. The sense circuit includes a first voltage clamp, a second voltage clamp, and a program data latch disposed on the bit line. The first and second voltage clamps are biased to first and second voltages, respectively, where the first voltage is lower than the second voltage. When a high bias is applied to the program data latch, the program data latch is in an OFF state, and the first voltage clamp limits the bias on the bit line to the first voltage. When a low bias is applied to the program data latch, the program data latch is in an ON state, and the second voltage clamp limits the bias on the bit line to the second voltage.
US10984876B2
Various methods include receiving, by a controller, a temperature reading of a memory array, the temperature reading includes a temperature value; determining the temperature value is below a first threshold; in response, modifying a duration of a verify cycle of a write operation to create a modified verify cycle; then programming a first data into the memory array using the write operation that uses the modified verify cycle. Methods additionally include receiving a second temperature reading of the memory array, the second temperature reading includes a second temperature value; determining the second temperature value is below a second threshold, in response, decreasing the duration of a verify cycle of a verify cycle to create a second verify cycle, where the second verify cycle is shorter than the modified verify cycle; and then programming a second data into the memory array using the write operation that uses the second verify cycle.
US10984875B2
Disclosed are systems and methods of dynamically calibrating a memory control voltage more accurately. According to disclosed implementations, a memory control voltage such as Vpass or Vwlrv may be calibrated during memory operation as a function of the change in slope of total string current, even during increase in the wordline voltage. In one exemplary method, the wordlines are increased in sequence from a start voltage to an end voltage in steps, slope change is measured at every step, the measured slope change is compared against a threshold, and an adjusted memory control voltage is determined as a function of a wordline voltage at which the change in slope reaches the threshold. As such, memory control voltage may be determined and dynamically calibrated with less sensitivity to operating parameters such as temperature, pattern, and/or time of programming.
US10984869B2
A memory device includes: a memory block including a plurality of main pages and a dummy page; a peripheral circuit for performing a normal program operation on the plurality of main pages and a dummy program operation on the dummy page in a program operation, and reading data stored in the dummy page and the plurality of main pages in a read operation; and control logic for controlling the peripheral circuit to program, to the dummy page, the same data as first logical page data of a first main page among the plurality of main pages in the program operation.
US10984859B2
Disclosed herein is a compound of formula (I): [M(L)n]m+(Ay−)z (I) where A, M, L, n, m, y and z are as defined herein, which can be used in the formation of a resistive memory device. Also disclosed herein are methods of manufacturing such devices and their uses.
US10984854B1
Signal edge sharpener circuitry is operably connected to the word lines in a memory array to pull up a rising edge of a signal on the word line and/or to pull down a falling edge of the signal on the word line. Pulling the signal up and/or down reduces the amount of time the word line is asserted and reduces the amount of time between precharge operations.
US10984848B2
Methods and apparatuses for erasing data on a plurality of ferroelectric memory cells in a memory cell array in a memory apparatus are disclosed. An example apparatus includes: a memory cell array including a first plurality of word lines; a digit line; and a plurality of ferroelectric memory cells; a control circuit that provides a section select signal and a word line select signal to select a second plurality of word lines among the first plurality of word lines responsive to an address; and an address decoder that activates the second plurality of word lines. Each ferroelectric memory cell includes: a ferroelectric capacitor having a first terminal coupled to a cell plate node and a second terminal coupled to a selection circuit that couples the digit line to the second terminal responsive to a signal on a corresponding word line of the second plurality of word lines.
US10984847B2
Methods, systems, and devices for memory management associated with charge leakage in a memory device are described. A memory device may identify a charge leakage associated with one or more memory cells or access lines, and may determine whether to invert a logic state stored by a memory cell or a set of memory cells to improve the likelihood that the memory cells are read properly in the presence of charge leakage. In some examples, the memory device may also store an indication that the complement of the detected logic state was written, such as a bit flip indication, which may correspond to one memory cell or a set of memory cells.
US10984845B2
In an embodiment, a method for protecting an electronic circuit includes: detecting a malfunction of the electronic circuit; executing a plurality of waves of countermeasures without interrupting an operation of the electronic circuit; and triggering a reset of the electronic circuit after executing the plurality of waves of countermeasures. An interval between two waves of countermeasures of the plurality of waves of countermeasures is variable.
US10984824B2
A junction shield (JS) structure and method of forming the same are disclosed for providing longitudinal bias to a free layer (FL) having a width (FLW) and magnetization in a cross-track direction between sidewalls in a sensor. The sensor is formed between bottom and top shields and has sidewalls extending from a front side at an air bearing surface (ABS) to a backside at a stripe height (SH) from the ABS. The JS structure has a lower layer (JS1) with magnetization parallel to that of the FL, and a tapered top surface such that JS1 has decreasing thickness with increasing height from the ABS. As aspect ratio or AR (SH/FLW) increases above 1, longitudinal bias increases proportionally to slow an increase in asymmetry as AR increases, and without decreasing amplitude for a reader with low AR. The JS1 layer may be antiferromagnetically coupled to an upper JS layer for stabilization.
US10984822B2
The present disclosure describes aspects of pulse-based writing for magnetic storage media. In some aspects, a pulse-based writer of magnetic storage media determines that a string of data bits having a same polarity corresponds to a magnet longer than a threshold associated with a magnetic media writer. The pulse-based writer inserts, into the string of data bits, a transition to a polarity opposite to the same polarity of the string of data bits. The string of data bits including the inserted transition is then transmitted to the magnetic media writer to cause a write head of the writer to pulse while writing the magnet to magnetic storage media. Various aspects may also implement a control signal to mask a transition or control polarity of the magnetic media writer. By so doing, magnets may be written to the magnetic storage media more efficiently or with less distortion to neighboring tracks.
US10984819B2
A cartridge memory used for a tape cartridge includes: a communication unit that communicates with a recording and reproducing device using a wireless communication method defined by an ISO 14443-2 standard which is a wireless communication standard; a non-volatile memory with a storage capacity exceeding 16 KB; and a control unit that writes or reads data to or from the non-volatile memory on a word-by-word basis (2 bytes at a time) or on a block-by-block basis (32 bytes at a time). The non-volatile memory includes a plurality of memory banks each having a storage capacity of 128 KB or less. The control unit writes or reads data defined by a magnetic tape standard to or from one or two or more first memory banks among the plurality of the memory banks, and writes or reads additional data to or from one or two or more second memory banks other than the first memory bank.
US10984814B2
A computer-implemented method according to one embodiment includes creating a clean dictionary, utilizing a clean signal, creating a noisy dictionary, utilizing a first noisy signal, determining a time varying projection, utilizing the clean dictionary and the noisy dictionary, and denoising a second noisy signal, utilizing the time varying projection.
US10984813B2
A method and an apparatus for detecting correctness of a pitch period, where the method for detecting correctness of a pitch period includes determining, according to an initial pitch period of an input signal in a time domain, a pitch frequency bin of the input signal, where the initial pitch period is obtained by performing open-loop detection on the input signal, determining, based on an amplitude spectrum of the input signal in a frequency domain, a pitch period correctness decision parameter, associated with the pitch frequency bin, of the input signal, and determining correctness of the initial pitch period according to the pitch period correctness decision parameter. Hence, the method and apparatus for detecting correctness of the pitch period improve, based on a relatively less complex algorithm, accuracy of detecting correctness of the pitch period.
US10984810B2
An audio decoder provides a decoded audio information on the basis of an encoded audio information including linear prediction coefficients (LPC) and includes a tilt adjuster to adjust a tilt of a noise using linear prediction coefficients of a current frame to acquire a tilt information and a noise inserter configured to add the noise to the current frame in dependence on the tilt information. Another audio decoder includes a noise level estimator to estimate a noise level for a current frame using a linear prediction coefficient of at least one previous frame to acquire a noise level information; and a noise inserter to add a noise to the current frame in dependence on the noise level information provided by the noise level estimator. Thus, side information about a background noise in the bit-stream may be omitted. Methods and computer programs serve a similar purpose.
US10984809B2
A frequency-domain audio codec is provided with the ability to additionally support a certain transform length in a backward-compatible manner, by the following: the frequency-domain coefficients of a respective frame are transmitted in an interleaved manner irrespective of the signalization signaling for the frames as to which transform length actually applies, and additionally the frequency-domain coefficient extraction and the scale factor extraction operate independent from the signalization. By this measure, old-fashioned frequency-domain audio coders/decoders, insensitive for the signalization, would be able to nevertheless operate without faults and with reproducing a reasonable quality. Concurrently, frequency-domain audio coders/decoders able to support the additional transform length would offer even better quality despite the backward compatibility. As far as coding efficiency penalties due to the coding of the frequency domain coefficients in a manner transparent for older decoders are concerned, same are of comparatively minor nature due to the interleaving.
US10984808B2
A sub-band processing system for reducing computational complexity and memory requirements is disclosed. The sub-band processing system includes: a first logic that partitions and stores a frequency spectrum of bins of real and imaginary data into a smaller number of sub-bands; a second logic that executes a first lossy compression for a first set of the sub-bands, wherein the first set includes those sub-bands having indices that are greater than or equal to a first index; and a third logic that executes, subsequent to a frequency spectrum processing of the lossy compressed data rendered by the second logic, a second lossy compression for a second set of the sub-bands, wherein the second set includes those sub-bands having indices that are less than the first index and greater than or equal to a second index.
US10984801B2
AM and LM parameters to be used for adapting an ASR model are derived for each audio segment of an audio stream comprising multiple audio programs. A set of identifiers, including a speaker identifier, a speaker domain identifier and a program domain identifier, is obtained for each audio segment. The set of identifiers are used to select most suitable AM and LM parameters for the particular audio segment. The embodiments enable provision of maximum constraints on the AMs and LMs and enable adaptation of the ASR model on the fly for audio streams of multiple audio programs, such as broadcast audio. This means that the embodiments enable selecting AM and LM parameters that are most suitable in terms of ASR performance for each audio segment.
US10984799B2
A speech interface device is configured with “hybrid” capabilities, which allows the speech interface device to perform actions in response to user speech, even when the speech interface device is unable to communicate with a remote system over a wide area network (e.g., the Internet). A hybrid request selector of the speech interface device sends audio data representing user speech to both a remote speech processing system and a local speech processing component executing on the speech interface device, and then waits for a response from either or both components. The local speech processing component may start execution based on the audio data and subsequently suspend the execution until further instruction from the hybrid request selector. The hybrid request selector can then determine which response to use, and, depending on which response is chosen, may instruct the local speech processing component to either continue or terminate the suspended execution.
US10984796B2
In an approach to optimized interactive communications timing from computing devices, a set of system defaults is received. A verbal communications for an intended recipient is received. An activity data for the intended recipient is received. A criticality score of the verbal communication is determined based on the set of system defaults. An availability score for the intended recipient is determined based on the set of system defaults and the activity data. An optimal time to initiate verbal communications with the intended recipient is determined wherein the optimal time to initiate verbal communications occurs when the criticality score exceeds the availability score. The verbal communication for the intended recipient is initiated at the optimal time.
US10984793B2
Embodiments of the present disclosure provide voice interaction method and device. The method includes: determining whether a first query statement currently received is a query statement first received within a preset time period; if not, obtaining a second query statement, where the second query statement is a query statement lastly received before receiving the first query statement; obtaining a third sentence vector according to a first sentence vector of the first query statement and a second sentence vector of the second query statement; and obtaining, from a bottom corpus, a first question and answer result corresponding to a fourth sentence vector a similarity between which and the third sentence vector satisfies a preset condition, and returning the first question and answer result. The method provided in the embodiment can return a bottom reply irrelevant to the query statement to the user, thereby improving the user experience.
US10984792B2
Each of plural dialogue devices generates proposition information that is an utterance indicating a proposition for passengers who are on board plural vehicles, based on an utterance submitted by a passenger and current destination information and past destination information. The dialogue device transmits the generated proposition information to other dialogue device.
US10984790B2
A speech recognition device is provided. The speech recognition device includes at least one microphone configured to receive a sound signal from a first sound source, and at least one processor configured to determine a direction of the first sound source based on the sound signal, determine whether the direction of the first sound source is in a registered direction, and based on whether the direction of the first sound source is in the registered direction, recognize a speech from the sound signal regardless of whether the sound signal comprises a wake-up keyword.
US10984788B2
An automatic speech recognition (ASR) system includes at least one processor and a memory storing instructions. The instructions, when executed by the at least one processor cause the system to receive a spoken utterance and convert the spoken utterance into a plurality of recognized speech results through a plurality of automatic speech recognition modules; collect ratings for the recognized speech results by processing the recognized speech results through a plurality of conversation modules; determine that at least two of the collected ratings are equivalent and generate an arbitration recommendation indicating recognized speech results with equivalent collected ratings; and process the arbitration recommendation through one or more of the plurality of conversation modules for selection by one of the one or more of the plurality of conversation modules, wherein the one of the one or more of the plurality of conversation modules is adapted to allow user selection amongst the recognized speech results indicated by the arbitration recommendation. Related methods and computer-readable media are also disclosed.
US10984781B2
A plurality of conversations may be processed to obtain one or more representative conversations to allow a better understanding of the plurality of conversations. A representative conversation may be determined by representing each conversation as a sequence of states where a state may represent messages with similar meanings. Distances may be computed between pairs of conversations, and the conversations may be clustered using the distances. To obtain a representative conversation for a cluster of conversations, a representative sequence of states may be obtained for the cluster and a representative message may be obtained for each state of the sequence of states. The representative conversation may then be presented to a user.
US10984776B2
Aspects are generally directed to headphone systems that adjust Active Noise Reduction operations based on measurements of environmental conditions. In one example, a headphone system includes an earpiece having an interior volume, the earpiece configured to couple to an ear and define an acoustic volume including the interior volume and a volume within the ear, a speaker to provide acoustic energy to the acoustic volume based on a received driver signal, a feedback microphone to detect at least residual noise within the acoustic volume and generate a feedback audio signal indicative of the residual noise, and a control circuit including a sensor interface configured to receive an atmospheric pressure signal, the control circuit coupled to the feedback microphone to receive the feedback audio signal, and the control circuit configured to adjust the driver signal based at least in part on the feedback audio signal and the atmospheric pressure signal.
US10984771B2
To realize a rotating mechanism by which a bearing section is stably rotated relative to a shaft section. A rotating mechanism includes a shaft section having a groove, and a bearing section which is provided with an opening for supporting the shaft section, has a shielding plate shielding part of the opening and disposed inside the groove, and is rotated around a rotational axis. The shielding plate may shield a region containing the rotational axis, and may have a projecting portion projecting from the shielding plate toward the inside of the groove, between the shielding plate and the groove.
US10984763B1
Provided is a machine head adapter for mounting a machine head, that is misaligned with an existing mounting hole on an instrument, to the instrument. The adapter may include a solid rigid body with a base section of a first thickness, a mounting point extending the base section, a support extension of a second thickness, and a set screw. The support extension extends laterally from an upper part of the base section such that a bottom of the support extension is elevated over a bottom of the base section by a difference between the first thickness and the second thickness. The set screw is positioned about a length of the support extension, and adjustably extends below the bottom of the support extension to the bottom of the base section. The adapter includes a screw for screwing into the existing mounting hole via an opening at the mounting point.
US10984756B2
A display system divides a screen into regions and applies a different set of rendering/encoding parameters to each region. The system applies a first set of parameters to a first region that is being viewed by a fovea of an eye of a user. The system may also apply a second set of parameters to a second region that is being viewed by a parafovea of the eye, and apply a third set of parameters to a third region that is being viewed by the area of the eye outside of the parafovea. The first set of parameters are selected to yield relatively high image quality, while the second set of parameters are yield intermediate quality, and the third set of parameters yield lower quality. As a result, the second region and the third region can be rendered, encoded, and transmitted with less computing power and less bandwidth.
US10984746B2
A liquid crystal driver (100) includes: a segment driving circuit (150) that outputs a segment driving signal (SGQ) for driving a segment electrode of a liquid crystal panel, a first segment terminal (TSD1) from which a segment driving signal (SGQ) is to be output to the segment electrode, a second segment terminal (TSD2) to which a segment monitoring signal (SMN), which is a monitoring signal from the segment electrode, is to be input, and an anomalous segment detection circuit (160) that detects anomalous driving of the segment electrode based on the segment monitoring signal (SMN).
US10984742B2
A display control device comprises an output unit that outputs an inverted polarity of an AC signal in a constant cycle, based on a signal of the constant cycle; a stop control unit that stops the reversal of the polarity of the AC signal in the output unit, based on a stop signal; a rewrite control unit for outputting a display data rewrite signal; and a transmission control unit for controlling the rewrite control unit. The stop signal stops the reversal of the polarity of the AC signal during a period in which the display data rewrite signal is output. The AC signal stopped by the stop signal maintains a polarity before the stop of polarity reversal. The output unit inverts and outputs the polarity of the AC signal, based on the signal of the constant cycle, after a period in which the display data rewrite signal is output.
US10984732B2
An electronic device may have a display with an array of pixels configured to display images for a user. The electronic device may have an ambient light sensor for gathering ambient light information. The ambient light sensor may be at least partially covered by the display. The ambient light sensor may be switched into use during blanking periods when a portion of the display overlapping with the display is temporarily turned off. The ambient light sensor may include a photodetector, a first stage with an amplifier, first and second capacitors selectively coupled across the amplifier, and a second accumulation stage. During blanking time, the first capacitor may integrate photodetector current. During non-blanking, the charge stored in the first capacitor may be transferred to the second accumulation stage while the second capacitor applies an offset voltage to the photodetector to prevent undesired charge injection into the photodetector.
US10984728B2
The present disclosure discloses a luminance compensation method, a luminance compensation circuit and a display device. When a display panel starts displaying, reference compensation factors are acquired from a flash. Then the acquired reference compensation factors are stored in and RAM. Finally, a scale factor corresponding to the current to-be-displayed frame image is acquired, and the reference compensation factors corresponding to all sub-pixels and stored in the RAM are multiplied by the scale factor to generate a target compensation factor corresponding to the current to-be-displayed frame image, to enable the display panel to perform the displaying according to the target compensation factor.
US10984725B1
A display panel includes a substrate and a plurality of pixel driving circuits disposed on the substrate, and the plurality of pixel driving circuits include a storage capacitor and transistors. The transistors include transistors of a first type and a second type. The transistor of the first type is a composite transistor and includes a first sub-transistor and a second sub-transistor that are connected in series. The first sub-transistor is a low-temperature polysilicon transistor, and the second sub-transistor is an oxide transistor. The transistor of the first type includes a composite active layer, a composite gate electrode, a composite source electrode, and a composite drain electrode. The composite source electrode or the composite drain electrode of the transistor of the first type is electrically connected to the storage capacitor, or the transistor of the first type is in an off state during a light-emitting phase.
US10984716B2
An active-matrix display device includes a pixel matrix having a plurality of pixel cells arranged in rows and columns, and a data line disposed for each of the columns in the pixel matrix and connected to each pixel cell in a column. Each pixel cell includes a holding capacitor, including a first electrode connected to a gate of the drive transistor, a lower electrode connected to a source of the drive transistor, and an upper electrode connected to the source of the drive transistor. At least one of the lower electrode and the upper electrode protrudes toward the data line from a facing region in a plan view of the pixel matrix, such that a protruded amount, which is an amount of protrusion toward the data line, is greater than or equal to 15% of a distance between the data line and the first electrode in the facing region.
US10984714B2
A method and an apparatus of compensating a display device, and the display device are provided. The display device includes pixel units in multiple rows and multiple columns, each of the pixel units includes sub-pixels having different colors, and each of the sub-pixels includes a pixel driving circuit and a light-emitting element connected to the pixel driving circuit, the pixel driving circuit includes a sensing line for sensing an electrical signal from the light-emitting element. The method includes: sensing electrical signals from light-emitting elements of sub-pixels having at least two different colors by using sensing lines corresponding to the sub-pixels having the at least two different colors within a display period of each image frame, wherein the subpixels having the at least two different colors are within different pixel units of the pixel units.
US10984712B2
A display system includes a pixel circuit and an external compensation system that is operable with the pixel circuit to compensate for differences in a property of the drive transistor and/or light-emitting device. The pixel circuit includes a drive transistor configured to control an amount of current to a light-emitting device; a second transistor having a first terminal connected to the gate of the drive transistor and a second terminal connected to a data voltage input that is supplied by the external compensation system, and a gate of the second transistor is connected to a first control signal; a third transistor having a first terminal connected to a second terminal of the drive transistor and a second terminal connected to a second voltage supply input that is supplied from the external compensation system, wherein a current flow from the second voltage supply input is measured by the external compensation system, and wherein a gate of the third transistor is connected to a second control signal; and a fourth transistor having a first terminal connected to the second terminal of the drive transistor and a second terminal connected to a third voltage supply input, wherein a gate of the fourth transistor is connected to a third control signal. The external voltage compensation system is configured to adjust the data voltage input based on the measured current flow to compensate for a variation in a property of the drive transistor and/or the light-emitting device.
US10984709B2
A display panel has a display area and a peripheral area disposed adjacent to the display area. The display panel includes a pixel array, a plurality of gate lines, a plurality of first wirings, and a first gate driving circuit. The pixel array is disposed in the display area. The gate lines are coupled to the pixel array. The plurality of first wirings are coupled to the pixel array. The first gate driving circuit is disposed in the peripheral area and coupled to the pixel array via at least a portion of the plurality of first wirings and at least a portion of the plurality of gate lines. In the display area, the plurality of gate lines extend along a first direction and the plurality of first wirings extend along a second direction, and the first direction and the second direction are different.
US10984704B2
A display device is provided. The display device includes a data signal transmitter and a display panel. The data signal transmitter is used to transmit data signals. A display area of the display panel is divided into sub-display areas. Each sub-display area includes light emitting diodes, a data line, column switches, and row switches. A portion of the data line is formed as a data induction coil to receive one of the data signals by wireless sensing. The display panel selects one of the light emitting diodes as a selected light emitting diode by the column switches and the row switches. The selected light emitting diode is coupled to the data line to form a closed loop. The closed loop generates an induced current according to the data signal and causes the selected light emitting diode to emit light according to the induced current.
US10984701B2
A source driver includes a phase generator, a control circuit, and an output circuit. The phase generator is configured to generate a plurality of output clock signals according to an input clock signal, in which the phases of the output clock signals are different from each other. The control circuit is configured to sequentially generate a plurality of control signals according to the output clock signals and a latch signal. The output circuit is configured to sequentially output a plurality of data voltages separately according to the control signals.
US10984695B2
A display driving device is disclosed. The display driving device includes: a data signal end for providing a data signal, a source line, and a switching circuit. The source line can transmit the data signal to a first pixel circuit and a second pixel circuit. Along a direction of the source line, a distance between the second pixel circuit and the data signal end is larger than a distance between the first pixel circuit and the data signal end. The switching circuit is between the data signal end and the source line, and can be turned on in response to a first control signal, and can be turned on in response to a second control signal. A turned-on time period of the switching circuit in response to the second control signal is longer than a turned-on time period of the switching circuit in response to the first control signal.
US10984687B2
The present disclosure provides a flexible display substrate and a fabrication method thereof and a display device. The flexible display substrate includes a plurality of light-emitting units. The light-emitting units include an anode, a rhenium disulfide hole injection layer arranged on the anode, a light-emitting layer arranged on the rhenium disulfide hole injection layer, a single-layered molybdenum disulfide electron injection layer arranged on the light-emitting layer, and a cathode arranged on the molybdenum disulfide electron injection layer.
US10984686B2
A display device according to one embodiment of the present invention is provided with a plurality of pixels which are arranged as a matrix on a substrate, and each of which is provided with a liquid crystal display element and an organic EL display element. The organic EL display element is provided with a positive electrode and a negative electrode, which are formed so as to be electrically separated from a pixel electrode and a counter electrode of the liquid crystal display element. Each one of the plurality of pixels is provided with: a first transistor which changes the magnitude of a current to be supplied to the organic EL display element on the basis of the potential of a first bus line; a second transistor which electrically separates the first bus line and the pixel electrode from each other on the basis of the potential of a third bus line; and a third transistor which electrically connects the first transistor and the second transistor with the first bus line on the basis of the potential of a second bus line. A method for driving a display device according to one embodiment of the present invention reduces the potential difference between the pixel electrode and the counter electrode before turning off the second transistor during switching from display by means of the liquid crystal display element to display by means of the organic EL display element.
US10984685B1
Presented here is a method and system to prevent wrinkling of the wearable identification (ID) by providing a reinforcement to the wearable ID. The reinforcement can act as an interface between the wearable ID and the uniform by attaching to the wearable ID as well as to the uniform. The wearable ID can be detached from the reinforcement, and the reinforcement can be detached from the uniform. The reinforcement can include a hook-and-loop hook on one side and a hook-and-loop loop on the other side to enable attachment between the wearable ID and the uniform. The reinforcement can be made of material that is sufficiently strong to resist wrinkling, but sufficiently flexible to be able to bend in response to an applied force without breaking. Further, the reinforcement material can be fire retardant.
US10984683B2
A two-ply liner-label and liner-label-roll are provided. A front side of a liner is coated with a release coating. The liner also includes a plurality of die cut tabs that at least partially align with a second die cut label in the label. The backside of the label is coated with an adhesive material and applied to the front side of the liner to form a liner-label roll. The tabs remain affixed to their corresponding individual labels when the labels are removed for placement on packaging; thereby, leaving holes in the liner as the liner is wound into a waste-liner roll within an auto applicator machine.
US10984677B2
A cloud-based performance enhancement service captures and collects data relating to interactions of users with industrial automation systems of multiple industrial customers for storage and analysis on a cloud platform. The service employs a performance enhancement component that analyzes the data to facilitate determining correlations between certain user interactions and favorable performance of an industrial automation system, determining user interactions that are less favorable or unsafe, determining alternative actions that a user can take to achieve a same or similar preferred operational result, generating recommendations relating to the alternative actions, determining or designing components or techniques that can automate a preferred user action, determining improved user assignments in connection with the industrial automation system, and/or generating training modules or presentations based on preferred user actions that can be used to train users to more efficiently interact with an industrial automation system to achieve improved system performance.
US10984675B2
A training aid stimulator for providing fast perceptive feedback is provided. The training aid stimulator includes a first skin electrode for making electrical contact to the body of a user and a second skin electrode for making electrical contact to the body of a user. A body capacitance charging module is connected to the first skin electrode and a discharge module is connected to the second skin electrode for a feedback discharging of a body capacitance. A processor is connected to the body capacitance charging module for controlling the charging of a body capacitance to a predetermined first voltage level, wherein the processor is connected to the discharge module for controlling a feedback discharge of the body capacitance. The stimulator further comprises a measurement module for measuring the level of charge of the body capacitance.
US10984673B2
A training device for acquiring or maintaining muscle memory and fingertip callouses of a stringed instrument player. The device includes an elongated base plate structure having a width dimension like that of a neck of a stringed instrument and a length dimension configured to accommodate a plurality of fret-like lateral spaced protrusions extending above a top surface of the base plate. First and second sets of string supports are arranged respectively at the longitudinal ends of the base plate and arranged to hold device strings in tension above the top surface. An attachment structure may be provided for attaching the device to the person of the player in a ready-to-use position. The device is configured so that the player can strum the device strings to develop or maintain muscle memory and/or fingertip callouses.
US10984667B2
Embodiments of a language learning system and method for implementing or assisting in self-study for improving listening fluency in a target language are disclosed. Such embodiments may simultaneously present the same piece of content in an auditory presentation and a corresponding visual presentation of a transcript of the auditory presentation, where the two presentations are adapted to work in tandem to increase the effectiveness of language learning for users.
US10984658B2
A vehicle display device includes a display part that is arranged in a vehicle and is configured to display a first image as an image of information related to the vehicle on a front side of a driver, a detector configured to detect an action of the driver, and a controller configured to change an image displayed on the display part from the first image to a second image when an action of the driver gazing at the first image is detected. The first image includes an image of the vehicle, for example.
US10984653B1
In one embodiment, a method of controlling traffic lights in a V2X environment includes the operations of receiving, at a cloud server, status information of a number of vehicles; and filtering out one or more vehicles that are not to encounter a traffic light on their routes in a predetermined distance ahead of the vehicles. The method further includes obtaining a punctuality status of each remaining vehicle according to a schedule table; and optimizing each traffic light in the V2X environment based on the punctuality status of the vehicle to obtain a traffic light optimization result. The cloud server can send the traffic light optimization result to a vehicle closest to each traffic light. The vehicle that receives the traffic light optimization result can relay the result to the traffic light that is closest to the vehicle.
US10984652B2
A method and system for modeling and processing vehicular traffic data and information, comprising: (a) transforming a spatial representation of a road network into a network of spatially interdependent and interrelated oriented road sections, for forming an oriented road section network; (b) acquiring a variety of the vehicular traffic data and information associated with the oriented road section network, from a variety of sources; (c) prioritizing, filtering, and controlling, the vehicular traffic data and information acquired from each of the variety of sources; (d) calculating a mean normalized travel time (NTT) value for each oriented road section of said oriented road section network using the prioritized, filtered, and controlled, vehicular traffic data and information associated with each source, for forming a partial current vehicular traffic situation picture associated with each source; (e) fusing the partial current traffic situation picture associated with each source, for generating a single complete current vehicular traffic situation picture associated with entire oriented road section network; (f) predicting a future complete vehicular traffic situation picture associated with the entire oriented road section network; and (g) using the current vehicular traffic situation picture and the future vehicular traffic situation picture for providing a variety of vehicular traffic related service applications to end users.
US10984648B2
Embodiments of systems, apparatus, and/or methods are described for enhanced situational awareness of dispatchers and/or first responders associated with responding to an incident such as an emergency situation by assigning mobile emergency units to a scene of emergency. As such, an emergency response system is disclosed. In some embodiments, the disclosed emergency response system provides an electronic platform for collaboration or partnership involving two or more first responders. In some partnership embodiments, the disclosed emergency response system provides a ranked list of potential candidates than can be assigned to respond to the incident. For example, the potential candidates can be mobile emergency units belonging to a first responder and/or its partner(s). Various beneficial aspects of partnerships and their technical implementations are discussed in detailed herein.
US10984647B2
A method for detecting an exit of a patient from a hospital bed, the method comprising: detecting a presence of the patient on the bed; upon detection of the patient on the bed, monitoring an indication that the patient has moved from a predetermined patient area on a patient receiving surface of the bed to outside the predetermined patient area; upon detection that the patient has moved outside the predetermined patient area, activating a bed alarm to indicate to a user that an exit of the patient from the hospital bed has been detected. There is also provided a system for detecting an exit of a patient from a hospital bed. There is further provided a method for limiting a height of a hospital bed and a method for recalibrating a tare weight condition of a hospital bed.
US10984644B1
A wearable device includes: at least one communications module; at least one programmable logic controller (PLC) communicatively coupled to the at least one communications module; and at least one toxicity module communicatively coupled to the PLC. The toxicity module includes at least one toxicity detector for detecting at least one toxic gas.
US10984643B2
A device capable of and method for communicating auxiliary data over an alarm network tandem line, whereby noise signals are filtered. The noise signals have an amplitude less than a first threshold. Further, a tandem signal is transmitted or received via a tandem port, wherein the signal transmitted or received is substantially synchronous with a noise signal peak or the transmission does not contain a period greater than the first duration. The period is measured as between two of: one or more disruption point, packet beginning, and packet finish, adjacently disposed. The disruption point is a point where the tandem signal is below a first amplitude threshold. Further, the combined amplitude of the tandem signal and the noise signal is greater than the first threshold.
US10984639B2
A monitoring method to detect a state of a door provided with a locking system. The method comprises the following steps: a measurement step during which a mechanical wave sensor measures a signal corresponding to a mechanical wave propagated in the door; a step of comparison between a reference signal stored in the memory and the mechanical wave signal in order to detect a state of the door. The reference signal is measured by the mechanical wave sensor while the locking system of the door is actuated.
US10984623B2
A gate device disposed between a first space where a person waiting for passing through exists and a second space where a person already passed through exists, the device including: a gate main body disposed along a path through which the person existing in the first space passes when the person moves to the second space; and a shutter for blocking or opening the path. Furthermore, in plan view, a width of a first end portion positioned on a first space side in a short direction is narrower than a width of a second end portion positioned on a second space side in the short direction of the gate main body.
US10984618B2
A keyless puck lock system with wireless communications and power interface. Embodiments of the present disclosure provide a keyless puck lock system enabling a low cost and high security solution that is difficult to tamper with and defeat. In the preferred embodiment of the present invention, the system uses a keyless puck lock assembly that includes a hasp assembly and a keyless lock mechanism that does not require any physical mechanical keys so that it does not have a mechanical cylinder inserted therein to lock or unlock the puck lock. Accordingly, the keyless puck lock system in accordance with one or more embodiments of the present invention does not have a physical keyway which is a security attack point that is included in conventional hockey puck-type locks.
US10984614B2
Automated entry to properties is implemented by a portable computing device receiving a registration of a visitor to use an automated system for visiting properties. The registration includes identification of the visitor and an image of the visitor. The visitor unlocks a lock box or an automated door lock on the property, subject to confirmation of identity of the visitor. This includes capturing an image of the visitor at the property or within a predetermined distance from the property, and performing a computer implemented comparison of the image of the visitor captured at the property, or within a predetermined distance from the property, with the image of the visitor included in the registration information to determine if there is a match.
US10984612B2
An electronic control unit (ECU) includes a first signal processor and a second signal processor. The first signal processor selectively receives current wheel speed information detected by a sensing device, detects a signal of the current wheel speed information, and processes the detected signal. The second signal processor communicates with the first signal processor, selectively receives the current wheel speed information detected by the sensing device when the first signal processor is in a faulty state, and detects and processes a signal of the current wheel speed information.
US10984608B2
In the disclosed systems and methods for competitive scene completion, in conjunction with a scene completion challenge, an image of an initial scene and a plurality of markers are displayed. For each user marker selection, virtual furnishing units corresponding to the unit type are displayed. User unit selection results in display of a three-dimensional graphic of the selected virtual furnishing unit at the corresponding coordinates within the scene, thereby creating an augmented scene that comprises the initial scene with three-dimensional graphics of selected virtual furnishing units. The augmented scene is submitted to a remote server. The user is provided with a reward that consists of credits. Responsive to user selection to access the store, a user interface for the store is displayed within the application. Visual representations of tangible products are displayed. The credits are configured for use towards purchase of the tangible products.
US10984607B1
One exemplary implementation involves performing operations at a device with one or more processors, a camera, and a computer-readable storage medium, such as a desktop computer, laptop computer, tablet, or mobile phone. The device receives a data object corresponding to three dimensional (3D) content from a separate device. The device receives input corresponding to a user selection to view the 3D content in a computer generated reality (CGR) environment, and in response, displays the CGR environment at the device. To display the CGR environment the device uses the camera to capture images and constructs the CGR environment using the data object and the captured images.
US10984605B2
A method of providing an image to be displayed includes providing captured scene data representing one or more images of a real scene and providing illumination data representing real illumination impinging on the real scene, providing a virtual reality image of a theoretical object by modeling said theoretical object using said illumination data to define illumination impinging on the theoretical object, and providing a combined image including elements of the real scene based on said captured scene data and including said virtual reality image.
US10984601B2
A plurality of visualization objects may be provided for representing one or more data sets in a virtual 3D space. The visualization objects may include funnels, containers, name cards, and so forth. The visualization objects can be arranged in a circular carousel that can be rotated around a position of a virtual camera or user in a VR/AR environment. Individual data points in the visualization objects can be rotated, sized, positioned, colored, or otherwise characterized based on attributes of the corresponding data points. Individual data points can also be animated as transitioning between visualization objects in a unified view. Voice commands can be interpreted as part of an interactive environment that can provide views of the visualization objects to multiple devices simultaneously.
US10984600B2
The present disclosure relates to methods, devices, and systems for presentation of multimedia content. In an aspect of the present disclosure, a method includes receiving, at a processor of a mobile device, a plurality of images from a camera, at least one image of the plurality of images including an object. The method also includes displaying a camera video stream based on the plurality of images, displaying three dimensional (3D) augmented reality content in the camera video content, and displaying video content based on the 3D augmented reality content. The video content is associated with the object.
US10984595B2
The present disclosure provides a method and apparatus for providing guidance in a virtual environment. The apparatus includes a communication interface configured to transmit or receive data; a memory associated with at least one processor; and the at least one processor configured to identify a path traversed by a user in a virtual environment while consuming interactive content through a head mounted display, identify one or more portions of the interactive content that have been played on the head mounted display, analyze the identified path to determine missed or viewed sections of the virtual environment and analyze the identified one or more portions to determine missed or viewed portions of the interactive content, and process the interactive content based on the missed or viewed sections of the virtual environment and the missed or viewed portions of the interactive content.
US10984593B2
Techniques for designing and optimization of solid/cellular structures are described using a modeling process referred to as high-definition cellular level set in B-splines (HD-CLIBS). With this process, the entire design domain for the solid/cellular structure in question is subdivided into a set of connected volumetric cells in three dimensions. An implicit trivariate B-spline function is defined on each subdomain cell. With this parameterization scheme, constraints can be imposed on the relevant B-spline coefficients to naturally maintain geometric continuities at the connection faces between neighboring cells. The method offers several useful properties and powerful functionalities to build and modify a solid/cellular structure in the modeling process and to conduct topology optimization by directly adjusting the B-spline coefficients. The model construction can be carried out using a fast B-spline interpolation, and the topology optimization can involve a sequence of discrete B-spline convolutions.
US10984591B2
Various post-production and distribution tools for volumetric video data are enabled. For instance, a method comprises receiving, by a device comprising a processor, a group of images, determining, by the device, first points of interest of a first image of the group of images and second points of interest of a second image of the group of images, comparing, by the device, the first points of interest to the second points of interest, and determining, by the device, from the first points of interest and the second points of interest and based on a result of the comparing, sets of candidate coordinate positions of a joint of a character represented in the first image and the second image.
US10984589B2
Systems and methods relate to encoded video streams including geometric-data streams transmitted to a receiver for rendering of a viewpoint-adaptive 3D persona. A method includes obtaining a three-dimensional (3D) mesh of a subject generated from depth-camera-captured information about the subject, obtaining a facial-mesh model, locating a facial portion of the obtained 3D mesh of the subject, computing a geometric transform based on the facial portion and the facial-mesh model, the geometric transform determined in response to one or more aggregated error differences between a plurality of feature points on the facial-mesh model and a plurality of corresponding feature points on the facial portion of the obtained 3D mesh, generating a transformed facial-mesh model using the geometric transform and generating a hybrid mesh of the subject at least in part by combining the transformed facial-mesh model and at least a portion of the obtained 3D mesh.
US10984587B2
Multiple snapshots of a scene are captured within an executing application (e.g., a video game). When each snapshot is captured, associated color values per pixel and a distance or depth value z per pixel are stored. The depth information from the snapshots is accessed, and a point cloud representing the depth information is constructed. A mesh structure is constructed from the point cloud. The light field(s) on the surface(s) of the mesh structure are calculated. A surface light field is represented as a texture. A renderer uses the surface light field with geometry information to reproduce the scene captured in the snapshots. The reproduced scene can be manipulated and viewed from different perspectives.
US10984582B2
Systems and methods for rendering vector data in conjunction with a three-dimensional model are provided. In particular, a smooth transparent draping layer can be generated and rendered overlaying the three-dimensional model. The vector data can be texture mapped to the smooth transparent draping layer such that the vector data appears to be located along a surface in the three-dimensional model. The three-dimensional model can be a model of a geographic area and can include terrain geometry that models the terrain of the geographic area and building geometry that models buildings, bridges, and other objects in the geographic area. The smooth transparent draping layer can conform to the surfaces defined by the terrain geometry. The vector data can be texture mapped to the smooth transparent draping layer such that the vector data appears to be located along the surface of the terrain geometry but can be occluded by the building geometry.
US10984579B2
A system and method of playing back 3D animations includes receiving user selection of a 3D file that contains animation parameters of an animated 3D model such as a preset animation or an embedded customized animation and inserting the animated 3D model into a 2D display canvas while preserving the animation parameters of the animated 3D model described in the 3D file. The animated 3D model is played and paused on the 2D display canvas under user control independent of a main thread that enables interaction with and editing of other content besides the animated 3D model in the 2D display. User adjustment of animation parameters of the animated 3D model during playback are received and the animated 3D model with the received user adjusted animation parameters are presented to the 2D display canvas on a display device.
US10984572B1
A system and method for inserting a composited image or otherwise generated graphic into a selected video by way of a programmatic process. According to some embodiments, a system may comprise an Automated Placement Opportunity Identification (APOI) engine, a Placement Insertion Interface (PII) engine, a preview system, and an automated compositing service. The system finalizes a graphic composite into a video and provides a user with a preview for final export or further manipulation.
US10984551B2
A traveling position detection apparatus is provided. The traveling position detection apparatus includes: a map information storage part that stores map information including route information indicating a road route and lane marker information; a route position decision part that decides a route position that is a position on a road route based on a traveling speed, a traveling direction, and a positioning result; an offset position detection part that detects an offset position of a subject vehicle related to a lane markings by analyzing a road image and extracting the lane marking; and a traveling position decision part that decides the traveling position on a road based on the route position, an offset position, and lane marker information. When the offset position is not detected, the traveling position detection part estimates the traveling position based on the traveling speed, a traveling direction, and the already decided traveling position.
US10984546B2
In accordance with some embodiments, a technique that enables an electronic device with a camera to automatically gather and generate requisite data from the real-world environment to allow the electronic device to quickly and efficiently determine and provide accurate measurements of physical spaces and/or objects within the real-world environment is described.
US10984539B2
An embodiment of the present invention provides an image device for generating velocity maps. The image device includes an image capturing group, a depth map generator, an optical flow generator, and a velocity map generator. The image capturing group includes at least one image capturer, each image capturer of the image capturing group captures a first image at a first time and a second image at a second time. The depth map generator generates a first depth map according to the first image and a second depth map according to the second image. The optical flow generator generates first optical flow according to the first image and the second image. The velocity map generator generates a first velocity map according to the first depth map, the second depth map and the first optical flow, wherein the first velocity map corresponds to the first image.
US10984538B2
In order to produce a discriminator that has higher discrimination ability, this image-processing device is provided with a synthesis unit for synthesizing a background image and an object image the hue and/or brightness of which at least partially resembles at least a portion of the background image, a generation unit for generating a difference image between the synthesized image and the background image, and a machine learning unit for performing machine learning using the generated difference image as learning data.
US10984536B2
The present invention discloses a method operable on a digital electronic device comprising an ISP, for initiating a motion diagnostic process on digital images captured by a sensor, and an image sensor. The method operable on a digital electronic device may also be designed to comprise additional steps such as reading a digital image stored in a memory unit, wherein the ISP is configured with computerized instructions comprising instructions to identify regions in the digital image, operating a hot region detection process to detect hot regions among the identified regions, creating a hot region map representing the hot regions detected among the identified regions, and then allowing the requester access to the captured hot region map via communicating with the memory unit, wherein said access allows the requester to perform a motion detection on the digital image. In some cases, the ISP or the digital electronic device may conduct a motion detection on the detected hot regions. Such an analysis may comprise a motion detection, classification process, and the like. In some cases, the requester may be an external device.
US10984533B2
A method and apparatus for segmenting a two-dimensional image of an anatomical structure includes acquiring (202) a three-dimensional model of the anatomical structure. The three-dimensional model includes a plurality of segments. The acquired three-dimensional model is adapted to align the acquired three-dimensional model with the two-dimensional image (204). The two-dimensional image is segmented by the plurality of segments of the adapted three-dimensional model.
US10984529B2
Systems and methods are provided for presenting an interactive user interface that visually marks locations within a radiograph of one or more dental pathologies, anatomies, anomalies or other conditions determined by automated image analysis of the radiograph by a number of different machine learning models. Annotation data generated by the machine learning models may be obtained, and one or more visual bounding shapes generated based on the annotation data. A user interface may present at least a portion of the radiograph's image data, along with display of the visual bounding shapes appearing to be overlaid over the at least a portion of the image data to visually mark the presence and location of a given pathology or other condition.
US10984511B1
Due to complexity constraints, most computer vision (CV) features are not suitable for certain applications such as low-power always-on applications. To address such issues, a contrast-adaptive normalized pixel difference (CA-NPD) is proposed. Unlike conventional NPD techniques, the CA-NPD smooths a metric surface, optimizes contrast discriminability, and enables context sensitive normalization.
US10984507B2
An image processing system may include a processor and an associated memory configured to store training data that includes training geospatial images. The processor may be configured to blur each of the training geospatial images. The processor may also be configured to iteratively operate a training model to identify a given feature from each of the blurred training geospatial images so that the blurring is reduced with each iteration.
US10984506B2
An image anti-aliasing method comprises following steps: receiving an aliasing image; wherein the aliasing image includes a plurality of source pixels; generating a plurality of hash values corresponding to the plurality of source pixels respectively; and performing a filtering processing or a filter generating procedure on the aliasing image according to the plurality of hash values. Each of the plurality of hash values is generated by the following steps: selecting one source pixel from the aliasing image and selecting a window containing the selected source pixel; determining an aliasing strength according to the grayscale values of all the source pixels of a row and a column at which the selected source pixel is located in the window; and determining a hash value of the selected source pixel according to the aliasing strength.
US10984503B1
An image readjustment system featuring a communication interface, one or more processors, and a persistent storage. The persistent storage is communicatively coupled to the one or more processors. The persistent storage comprises at least image location logic and image cropping logic. The image location logic is configured to receive and analyze an incoming image, using a machine learning analysis, to determine a location of a particular component within the incoming image and to calculate coordinates of a boundary area surrounding the particular component. The image cropping logic is configured to remove portions of the incoming image outside of the boundary area to generate a modified image to be rendered for display.
US10984488B1
A variety of improved methods and systems for a connection compatibility matching platform using machine learning. Machine learning algorithms and artificial intelligence can analyze information about users from a plurality of sources, determine important factors and dynamically adjust the weights of the information received to provide accurate compatibility matches.
US10984485B2
The invention relates to a method for managing a plurality of entities, each entity being of at least one type selected from a first type and a second type, an entity of the second type being associated with a set of rules comprising event data in association with respective actions, an entity of the first type being able to publish at least one event datum on a web feed of a user, the method comprising the following steps: publication of an event datum on the web feed by a first entity of the first type; detection of a match between a rule associated with a second entity of the second type, and the published event datum; and implementation, by the second entity of the second type, of the action comprised in the rule matched with the published event datum.
US10984480B1
A method of encouraging safe driving of a vehicle using a remote starter device installed at a vehicle is provided. The remote starter device determines whether it is in signal communication with a remote starter application operating at a mobile computing device separate from the remote starter device. When the remote starter device is in signal communication with the remote starter application, the remote starter device permits ignition of the vehicle. When the remote starter device is not in signal communication with the remote starter application, the remote starter device prevents ignition of the vehicle. The remote starter application may present to a driver of the vehicle an insurance rate for taking a trip in the vehicle.
US10984476B2
A method for determining intellectual property value, includes creating a source of patent data; and analyzing the data to determine a patent value. Also disclosed is an instruction set executable on a machine that includes a processor and a memory. The instruction set executable on the machine to cause to the machine to: create a source of patent data; and to analyze the data to determine a patent value. A media carrying an instruction set executable on a machine. The machine includes a processor, and a memory associated with the processor. The instruction set is executable on the processor to cause to the machine to: create a source of patent data; and analyze the data to determine a patent value.
US10984469B2
For a financial consolidation process, a graphical user interface is presented, providing task icons representing financial consolidation tasks for business entities, including a view with business entities along a business entity axis and tasks along a task axis in a grid. Tasks for business entities are presented as task icons at an intersection of axes. A visual feature of each task icon indicates status, including indication of receipt status, so that the status of submissions is presented efficiently to the user. Responsive to receiving a user selection of one of the task icons, the same view shows an identification for a person assigned to the task of the selected task icon, wherein the status and person identification in the view enables the user to efficiently identify and contact assigned persons for expediting completion of missing submissions.
US10984468B1
Systems and techniques are disclosed for accessing accounts associated with a user and estimating a value of an attribute associated with the user based upon the retrieved account information. Transaction data associated with an account at an external user account system is received. The transactions are categorized into transaction groups. For each transaction group, a confidence value that the group is associated with the attribute is estimated, based at least in part upon a distribution of transaction amounts for the transactions of the group over a time period associated with the group. An attribute value is estimated for each group, based at least in part upon the transaction amounts of the transaction of the group. In addition a value of the attribute for a future time period may be predicted based upon the transaction groups.
US10984461B2
Aspects of the present disclosure involve systems, methods, devices, and the like for making content-based recommendations using a user profile likelihood model. In one embodiment, a system is introduced that includes a plurality of models and storage units for storing, managing, and transforming product and user profile data. The system can also include a recommendation engine designed to determine a probability that a product is relevant to a user based on a user profile. In another embodiment, the probability that a product is relevant to a user may be determined based in part on a frequency of interactions with a product and a time of interaction with the products.
US10984459B2
The present invention provides systems and methods for tracking obligations incurred between individuals. The method may include receiving a request from a first party, where the request includes an expense incurred by the first party for the benefit of a second party. The method may also include providing a notice of the request to the second party and receiving an acceptance from the second party to assume an obligation associated with the expense. The method may further include associating the obligation with the second party and associating a benefit with the first party. The obligation and/or benefit may be substantially equal in value to the expense. The method may additionally include interfacing with a social network service to provide the social network service with information about the obligation and/or the benefit.
US10984456B2
Some embodiments provide an adblocking bypass system for ensuring that advertisements are loaded and presented on a user device running one or more adblockers. The adblocking bypass system is comprised of a bypass loader and a bypass proxy. The bypass loader is a component that is embedded within content publisher content. When the content publisher content is downloaded and parsed by a user device, the bypass loader executes by detecting the presence of any adblocker on the user device. If found, the bypass loader forwards any blocked advertisement calls to the bypass proxy. The bypass proxy retrieves the requested advertisements and returns them to the bypass loader which then reintroduces the advertisements in final content presentation or rendering. The bypass proxy may also modify the content publisher content by replacing any blocked advertisement calls embedded within the content with calls to the bypass proxy.
US10984448B1
An online system receives a discount offer from a merchant and displays the offer to a user before the offer's start time. The online system also defines one or more triggering conditions and sends a notification to remind the user about the discount offer when a triggering condition is satisfied. One of the triggering conditions can be based on whether the user has accessed a web page provided by the merchant. The merchant system provides a web page that sends an indication to the online system when the user accesses the web page. After receiving the indication, the online system sends a notification about the discount offer to the user. Sending the notification in this manner has the effect of reminding the user of the discount offer after the user has already expressed an interest in the merchant and its products by viewing the merchant web page.
US10984442B2
Aspects of the invention include receiving, at a processing system, weather data that is associated with a target consumer. Content of a digital advertisement for a vendor is selected based at least in part on the weather data that is associated with the target consumer, and information about an item or a service provided by the vendor. The digital advertisement, including the content, is transmitted for presentation to the target consumer via a user interface. A response to the digital advertisement is received from the target consumer. The content of the digital advertisement is modified based at least in part on the response to the digital advertisement from the target consumer. The digital advertisement, including the modified content, is transmitted for presentation to the target consumer via the user interface.
US10984441B2
Systems and methods for the selection of the promotions are provided. A set of possible offers are initially received, each including a set of variables, with each variable having a set of possible values. These form a combination of variable values for each offer. A heuristic is applied to all possible offers to reduce the number of offers being considered. The combination of variable values for these reduced number offers is converted into a vector value, which is then scored, ranked and the top ranked offers are selected for inclusion in a promotional campaign. The remaining offers are then analyzed to select additional offers to include into the promotional campaign which maximizing a determinant for the selected offers using their vectors. All selected offers are administer in a promotional test campaign across many consumer segments. Feedback from the campaign may be collected to generate a “general” offer.
US10984439B2
Within the field of advertising, a data-driven solution is proposed that enables attribution to use a two-stage model, to account for (1) the timing of a purchase occasion, and (2) a prediction of the quantity purchased. This allows for an accurate forecast of quantity purchased, which is meaningful to media teams and advertisers. Attribution is the process of assigning credit to marketing activities for their contribution towards driving a desired marketing result.
US10984422B2
Examples described herein generally relate to a computer device including a memory, and at least one processor configured to process a transaction. The computer device receives customer transaction information. The computer device evaluates the customer transaction information to determine a risk score for the transaction. The computer device assigns the transaction, based on the risk score, to one of a plurality of stratums including at least a first stratum and a second stratum. The computer device selects a merchant identifier (MID) from at least a first MID associated with the first stratum and a second MID associated with the second stratum based on at least the assigned stratum and a target chargeback rate for at least one of the first MID or the second MID. The computer device transmits the transaction information and the selected MID to an issuing bank.
US10984411B1
Various examples are directed to systems and methods for securely sending and using proxy element in a mobile wallet system. Through a user interface associated with a proxy originator wallet, user input may be received that defines the parameters of the proxy element. The parameters may include one or more of a spending limit, a time duration, a use number condition, and a transfer condition, and a product condition. A request may be sent from the proxy originator wallet to a proxy approver system to create the proxy element. The originator wallet may receive a proxy grant acknowledgement from the proxy approver system. The grant acknowledgement may instructions for obtaining credentials for the proxy element. The proxy element including the parameters and the instructions for obtaining credentials may be sent to a mobile wallet of a recipient. The recipient mobile wallet may use the proxy element for payment or non-payment transactions.
US10984409B1
Various examples described herein are directed to systems and methods for executing a mobile wallet element at a mobile computing device. For example, an executable active element may send a first element message to a mobile wallet application. The first element message may include a subsidiary element request. The mobile wallet application may send to an operating system a request comprising the subsidiary element request. The operating system may send the subsidiary element request to an issuer system. Subsidiary element data describing a subsidiary element may be sent to a second mobile wallet application.
US10984405B2
A digital license plate with an associated payment and information handling system allowing for automated payment for pumped fuel is disclosed. The system receives data through a short-range receiver connected to a digital license plate attached to a vehicle, with the data including a defined identifier provided by a short-range beacon associated with a fuel pump.
US10984402B2
Disclosed is a system for providing a peer-to-peer exchange of data files and payments between a seller computing device and a buyer computing device over a communication network in a decentralized marketplace. The system includes a decentralized blockchain database, a private database, plurality of modules stored in the decentralized blockchain database, a graphical user interface and a processing unit. The decentralized blockchain database represents the storage of information related to selling and buying of data files in a peer-to-peer marketplace. The private database stores information related to personal data related to sellers and buyers. The plurality of modules includes a registration module, a data management module, a purpose module, a data signature module, a data transaction module, and a buyer confirmation module. The seller delivers the data file to the buyer using peer-to-peer data transfer medium.
US10984400B1
Systems and methods for using shared user inventory information to initiate peer-to-peer exchanges of digital assets that are usable within an online gaming platform are disclosed. Exemplary implementations may: receive a sharing request for information regarding a first user inventory; access a blockchain to obtain asset information; transfer the asset information in response to the sharing request; receive an offer request for the transfer of ownership of a first digital asset from a first user to a second user; if the offer according to the offer request is accepted, receive a transfer request and transfer the ownership of the first digital asset as requested.
US10984396B2
A method for providing data values to an automated program includes: storing, in an account database, a plurality of account profiles, wherein each account profile includes at least an account identifier and a digital token value related to a user account; executing, by a querying module, a query on the account database to identify a specific account profile; transmitting, by a transmitting device, the digital token value included in the specific account profile to a first computing system; receiving, by a receiving device, a plurality of data values associated with a user corresponding to the user account related to the specific account profile based on the digital token value from the first computing system; and transmitting, by the transmitting device, one or more data values of the plurality of data values to an automated application program executed by a second computing system.
US10984388B2
Embodiments provide a computer implemented method in a data processing system comprising a processor and a memory comprising instructions, which are executed by the processor to cause the processor to implement the method of identifying negative communications from a plurality of electronic communications, including: extracting a plurality of terms from the plurality of electronic communications, wherein the plurality of terms include subjects, action verbs, adjectives and business objects; identifying variations of each term and grouping the variations for each term to form a dictionary; generating a co-occurrence graph to illustrate relationships between different terms in the plurality of terms; assigning each term with an entity type; identifying an intent for each business object using the co-occurrence graph; providing one or more rules, and identifying one or more negative communications based on the one or more rules.
US10984387B2
Automatically detected and identified tasks and calendar items from electronic communications may be populated into one or more tasks applications and calendaring applications. Text content retrieved from one or more electronic communications may be extracted and parsed for determining whether keywords or terms contained in the parsed text may lead to a classification of the text content or part of the text content as a task. Identified tasks may be automatically populated into a tasks application. Similarly, text content from such sources may be parsed for keywords and terms that may be identified as indicating calendar items, for example, meeting requests. Identified calendar items may be automatically populated into a calendar application as a calendar entry.
US10984386B2
An interview apparatus configured to obtain response information through questions and answers with an applicant, an interview controller configured to control the interview apparatus and determine an interview evaluation level which is quantification of aptitude of the applicant based on the response information obtained by the interview apparatus, a storage device configured to store an applicant information database in which the response information and the interview evaluation level are stored in association with the applicant, and a terminal device configured to be able to access the applicant information database in the storage device are provided.
US10984384B2
A system and method for a situational solution for collaborative information technology governance. The system comprises a situational environment information technology governance (SEIG) tool configured to facilitate one or more processes including: an entry process; a selection process; an authentication process; and a communication process. The method comprises entering a situation using the SEIG tool and describing the situation. The method further comprises choosing one or more applicable teams or subject matter experts and communicating with the one or more applicable teams and the subject matter experts using a collaborative technology.
US10984367B2
Systems and techniques for predictive data analytics are described. In a method for selecting a predictive model for a prediction problem, the suitabilities of predictive modeling procedures for the prediction problem may be determined based on characteristics of the prediction problem and/or on attributes of the respective modeling procedures. A subset of the predictive modeling procedures may be selected based on the determined suitabilities of the selected modeling procedures for the prediction problem. A resource allocation schedule allocating computational resources for execution of the selected modeling procedures may be generated, based on the determined suitabilities of the selected modeling procedures for the prediction problem. Results of the execution of the selected modeling procedures in accordance with the resource allocation schedule may be obtained. A predictive model for the prediction problem may be selected based on those results.
US10984362B2
Embodiments of systems and approaches for managing post-harvest crop quality and pests are described. Such a system may include a plurality of edge devices each comprising sensor components and collectively forming a mesh network, for measuring the local physical environment within stored crops and, for example, transmitting the measurements to a service from within the crop storage area. In certain embodiments, such a system may be used to manage post-harvest crops and storage areas—for example, approaches are described for determining fumigation treatment duration, determining phosphine dosage, determining heat treatment duration, and determining safe storage time for crops.
US10984360B2
Technical solutions are described for execution of a machine-assisted workflow, the workflow including a sequence of workflow steps. An example method includes pulling a preliminary update for the workflow from a data source and modifying the workflow dynamically. The method further includes selecting a workflow step, pulling an updated information for the workflow step from the data source and modifying the workflow step dynamically using the updated information. The method further includes retrieving, from the data source, first preview information, the first preview information indicative of previews of one or more operations from the updated workflow step. The method further includes to the first preview information, executing the updated workflow step. The method further includes accumulating execution information including second preview information based on the execution and pushing the execution information to the data source upon completion of the workflow step.
US10984356B2
Methods and systems for monitoring and interacting with a collection of geospatially aware assets, or any connected geo-location enabled device, through a virtual reality interface are disclosed. A diagram may be utilized as a real-time route progress indicator to determine a route's completion status and as a destination position indicator to determine the position of a destination among all destinations of a route. The virtual reality environment may provide the benefit of, and ability to, modify the visual field, such as to fit a large number of routes, e.g., 50,000 or more, onto an area viewable in the virtual reality environment to efficiently manage large fleets, or to divide a screen into a plurality of individual screens to organize the data in a visually effective manner. The user interface may be personalized for the user, or customized for a specific business operation.
US10984355B2
When monitoring a workspace to determine whether scheduled tasks or chores are completed according to a predetermined schedule, a video monitoring system monitors a region of interest (ROI) to identify employee-generated signals representing completion of a scheduled task. An employee makes a mark or gesture in the ROI monitored by the video monitoring system and the system analyzes pixels in each captured frame of the ROI to identify an employee signal, map the signal to a corresponding scheduled task, update the task as having been completed upon receipt of the employee signal, and alert a manager of the facility as to whether the task has been completed or not.
US10984342B2
A machine learning model for predicting a size fit satisfaction for a variable size component is trained using at least sizing profiles of a plurality of items and feedbacks of subjects regarding sizing of the plurality of items. The machine learning model is used to determine a value for the variable size component that corresponds to an optimal predicted size fit satisfaction. The determined value of the variable size component is provided for use in creating a new item with a sizing variation based on the determined value.
US10984341B2
A computer implemented method of detecting complex user activities, comprising using processor(s) in each of a plurality of consecutive time intervals for: obtaining sensory data from wearable inertial sensor(s) worn by a user, computing an action score for continuous physical action(s) performed by the user, the continuous physical action(s) extending over multiple time intervals are indicated by repetitive motion pattern(s) identified by analyzing the sensory data, computing a gesture score for brief gesture(s) performed by the user, the brief gesture(s) bounded in a single basic time interval is identified by analyzing the sensory data, aggregating the action and gesture scores to produce an interval activity score of predefined activity(s) for a current time interval, adding the interval activity score to a cumulative activity score accumulated during a predefined number of preceding time intervals and identifying the predefined activity(s) when the cumulative activity score exceeds a predefined threshold.
US10984338B2
Various examples are provided for dynamically updating or adapting predictive modeling for prediction of outcomes of interest for operating systems and processes. Embodiments of the disclosure may provide systems, apparatus, processes, and methods for generating and deploying dynamically updated predictive models. In some embodiments, the predictive model may be deployed for the purpose of predicting operational outcomes of interests in operating systems, hardware devices, machines and/or processes associated therewith prior to the operational outcomes of interest occurring. The predictions can, for example, provide sufficient time for maintenance or repairs to be scheduled and carried out to avoid the predicted operational outcome. Autonomous evaluation of features allows the predictive models to be dynamically updated in response to changes in the environment or monitored data.
US10984336B2
One example includes a superconducting clock conditioning system. The system includes a plurality of inductive stages. Each of the plurality of inductive stages includes an inductive signal path that includes at least one inductor and a Josephson junction. The superconducting clock conditioning system is configured to receive an input AC clock signal and to output a conditioned AC clock signal having an approximately square-wave characteristic and having a peak amplitude that is less than a peak amplitude of the input AC clock signal.
US10984326B2
The APPARATUSES, METHODS AND SYSTEMS FOR A DIGITAL CONVERSATION MANAGEMENT PLATFORM (“DCM-Platform”) transforms digital dialogue from consumers, client demands and, Internet search inputs via DCM-Platform components into tradable digital assets, and client needs based artificial intelligence campaign plan outputs. In one implementation, The DCM-Platform may capture and examine conversations between individuals and artificial intelligence conversation agents. These agents may be viewed as assets. One can measure the value and performance of these agents by assessing their performance and ability to generate revenue from prolonging conversations and/or ability to effect sales through conversations with individuals.
US10984325B2
A dynamic, distributed directed activity network comprising a directed activity control program specifying tasks to be executed including required individual task inputs and outputs, the required order of task execution, and permitted parallelism in task execution; a plurality of task execution agents, individual of said agents having a set of dynamically changing agent attributes and capable of executing different required tasks in said activity control; a plurality of task execution controllers, each controller associated with one or more of the task execution agents with access to dynamically changing agent attributes; a directed activity controller for communicating with said task execution controllers for directing execution of said activity control program; a communications network capable of supporting communication between said directed activity controller and task execution controllers; and wherein said directed activity controller and task execution controllers communicate via said communication network to execute said directed activity control program using selected task execution agents.
US10984323B2
Automatically estimating a sensitivity level of an information technology (IT) asset in one aspect may obtain information about an asset. Characteristics of the asset assigned based on the information may be compared with stored characteristics of known sensitive assets. A sensitivity level of the asset may be determined based on the comparing.
US10984321B1
A computational system for solving a non-deterministic polynomial problem, involving a parellel processor operable by a set of self-updatable executable instructions storable on a non-transient memory device and configuring the parallel processor to interface with an information acquisition program, heuristically acquire information, through the information acquisition program, via a first transference and a second transference, whereby heuristic information is acquired, parametrically evolve the heuristic information, whereby parametrically evolved heuristic information is provided, reuse the parametrically evolved heuristic information to further heuristically acquire information, whereby iterative parametrically evolved heuristic information is provided, and self-update the set of executable instructions based on the iterative parametrically evolved heuristic information, whereby a self-updated set of executable instructions is provided, whereby the self-updated set of executable instructions facilitates information transfer between any two otherwise mutually random domains, and whereby an optimal solution, corresponding to the non-deterministic polynomial problem, is provided.
US10984312B2
Embodiments of the invention provide a method for mapping a bipartite graph onto a neuromorphic architecture comprising of a plurality of interconnected neuromorphic core circuits. The graph includes a set of source nodes and a set of target nodes. The method comprises, for each source node, creating a corresponding splitter construct configured to duplicate input. Each splitter construct comprises a first portion of a core circuit. The method further comprises, for each target node, creating a corresponding merger construct configured to combine input. Each merger construct comprises a second portion of a core circuit. Source nodes and target nodes are connected based on a permutation of an interconnect network interconnecting the core circuits.
US10984310B2
The present disclosure provides systems and methods that leverage machine-learned models (e.g., neural networks) to provide enhanced communication assistance. In particular, the systems and methods of the present disclosure can include or otherwise leverage a machine-learned communication assistance model to detect problematic statements included in a communication and/or provide suggested replacement statements to respectively replace the problematic statements. In one particular example, the communication assistance model can include a long short-term memory recurrent neural network that detects an inappropriate tone or unintended meaning within a user-composed communication and provides one or more suggested replacement statements to replace the problematic statements.
US10984309B2
A system continuously estimating the state of a dynamical system and classifying signals comprising a computer processor and a computer readable medium having computer executable instructions for providing: a module estimating of the state of a dynamical system assumed to be generated by a Dynamic Movement Primitive; a module classifying signals through inspecting dynamical system state estimates; and a coupling between the two modules such that classifications reset the dynamical system state estimate.
US10984303B2
A computer-implemented method for increasing security for radio frequency identification (RFID) transactions. The computer-implemented method includes receiving an RFID transaction via an RFID tag and identifying an account associated with the RFID tag. The computer-implemented method further includes determining if the account has an increased security feature enabled on the RFID tag, and verifying with an owner of the account that the RFID transaction is authorized. In exemplary embodiments, the computer-implemented method further includes determining if the account has an electronic personal assistant set up, engaging the owner of the account associated with the RFID tag by accessing the electronic personal assistant, and requesting an authorization from the owner of the account to verify the RFID transaction. In exemplary embodiments, the electronic personal assistant is an in-vehicle voice assistant.
US10984302B2
Provided are an electronic shelf label, an electronic shelf label system, and an electronic shelf label method. The electronic shelf label includes a power supply unit configured to provide driving power to one or more terminals, a communication interface configured to provide a display signal to the one or more terminals, a terminal selection unit configured to select a terminal to be controlled among the one or more terminals, and a controller configured to control the terminal selection unit so as to select the terminal to be controlled and generate the display signal.
US10984297B2
An image processing apparatus includes: a reader that reads a paper sheet with a background plate serving as a background; and a hardware processor, wherein the hardware processor: obtains, from the reader, a first color value in which an image on one side of the paper sheet is read, a second color value in which a ground color of the other side of the paper sheet is read, and a third color value in which a portion corresponding to the image on the other side of the paper sheet is read; and estimates a thickness of the paper sheet on the basis of the first to third color values while referring to a predetermined table.
US10984292B2
A system for object and information collection comprises a handheld tool to grab the object. The handheld tool comprises a pole with a handle, a trigger, a grabber mechanism at an opposite end, and a logic system attached to the pole, wherein once a user actuates the trigger to pick up an object with the grabber mechanism, the logic system transmits a capture signal to initiate a classification event. A classification application executing on a processor is responsive to receiving the capture signal from the logic system to capture information associated with the object and assign an object classification to the object based at least in part the captured information. At least one of a portion of the information and the assigned object classification is transmitted over network to an analytics cloud service to perform data aggregation and analysis.
US10984289B2
The present disclosure provides a license plate recognition method, a device thereof, and a user equipment. In the method, a vehicle image is acquired and input to a vehicle searching convolutional neural network (CNN) to search whether there is a vehicle. Then, a license plate image is acquired and input to a license plate searching CNN to search whether there is a license plate. And the license plate image is input to a tensor neural network to detect abnormal or not. Then, a recognition image is acquired and input to judge an area number, letters, and numbers. And an area number image, a letter image, and a number image are output and input to their corresponding recognition CNNs respectively to recognize an area number, letters, and numbers and output respectively. Ultimately, a license plate number recognition result in a form of “area number letter number” are output.
US10984288B2
A malicious software recognition apparatus and method are provided. The malicious software recognition apparatus stores a training dataset, which includes a plurality of network flow datasets. Each network flow dataset corresponds to one of a plurality of software categories, and the software categories include a plurality of malicious software categories. The malicious software recognition apparatus tests a malicious software recognition model and learns that a plurality of recognition accuracies of a subset of the malicious software categories are low, determines that an overlap degree of the network flow datasets corresponding to the subset is high, updates the software categories by combining the malicious software categories corresponding to the subset, updates the training dataset by integrating the network flow datasets corresponding to the subset, trains the malicious software recognition model according to the updated training dataset. The trained malicious software recognition model is deployed to the real world.
US10984284B1
A computerized method and system for adding distortions to a computer-generated image of a document stored in an image file. An original computer-generated image file is selected and is processed to generate one or more distorted image files for each original computer-generated image file by selecting one or more augmentation modules from a set of augmentation modules to form an augmentation sub-system. The original computer-generated image file is processed with the augmentation sub-system to generate an augmented image file by altering the original computer-generated image file to add distortions that simulate distortions introduced during scanning of a paper-based representation of a document represented in the original computer-generated image file.
US10984280B2
The present invention relates to a system and method for determining the presence of objects in an image.
The techniques used process pixel data within the image by a relatively small number of pixel rows at a time. The angle and magnitude date from the pixels within an image are redistributed into a plurality histogram of magnitude bins associated with groupings of pixels. Once enough groupings of pixels equivalent to the height of a Block worth of pixels have been made, partial Support Vector Machine (SVM) calculations are performed on that Block worth of pixels. This is repeated until there are sufficient partial results equivalent to the height of the feature window, and then a full SVM calculation is performed. This process then may be used to scan across the whole image to determine the presence of objects within it.
US10984271B2
A method of host-directed illumination for verifying the validity of biometric data of a user is provided that includes capturing biometric data from a user with an authentication device during authentication and directing illumination of the biometric data from a host authentication system during the capturing operation. Moreover, the method includes comparing illumination characteristics of the captured biometric data against illumination characteristics expected to result from the directing operation, and determining that the user is a live user when the illumination characteristics of the captured biometric data match the illumination characteristics expected to result from the directing operation.
US10984270B2
A method includes receiving a first image and a second image, wherein the first and second images represent first and second relative locations, respectively, of an image acquisition device with respect to a subject. The method also includes determining, using the first and second images, a total relative displacement of the subject with respect to the image acquisition device between a time of capture of the first image and a time of capture of the second image, and determining, based on sensor data associated with one or more sensors associated with the image acquisition device, a component of the total relative displacement associated with a motion of the image acquisition device. The method also includes determining, based on a difference between the first total relative displacement and the component, that the first subject is an alternative representation of a live person, and in response, preventing access to a secure system.
US10984264B2
A method and a device are for detecting and validating objects from camera images, e.g. for driver assistance systems. The method involves: capturing a series of camera images, detecting a potential collision object in at least one image, determining corresponding features in two consecutive images in the image region of the detected potential collision object, associating the corresponding features with a plane, and validating the potential collision object when the associated plane corresponds to a back plane or a side plane.
US10984263B2
A method and a device are for identifying objects from camera images, e.g. for driver assistance systems. The method involves: capturing a series of camera images, determining corresponding features in two consecutive images, associating adjacent ones of the corresponding features with a plane in space to determine a plurality of such planes, and detecting objects while taking the determined planes into account.
US10984260B2
Operation of a vehicle that includes an autonomous operating system including an on-board map database includes operating in a travel lane employing a lane keeping control system and an adaptive cruise control system and monitoring a plurality of lane reference markers. Periodically, parameters are determined, including a first lateral offset for the vehicle based upon a forward-monitoring sensor and one of the lane reference markers, and a second lateral offset for the vehicle based upon a GPS sensor and the map database. A difference and an associated variance are determined, and an error in the map database is determined when the variance is greater than a threshold variance. The vehicle operator is alerted to actively control the vehicle based upon the detected error in the map database.
US10984257B2
A method for controlling a vehicle based on sensor data having variable sensor parameter settings includes receiving sensor data generated by a vehicle sensor while the sensor is configured with a first sensor parameter setting. The method also includes receiving an indicator specifying the first sensor parameter setting, and selecting, based on the received indicator, one of a plurality of neural networks of a perception component, each neural network having been trained using training data corresponding to a different sensor parameter setting. The method also includes generating signals descriptive of a current state of the environment using the selected neural network and based on the received sensor data. The method further includes generating driving decisions based on the signals descriptive of the current state of the environment, and causing one or more operational subsystems of the vehicle to maneuver the vehicle in accordance with the generated driving decisions.
US10984254B2
An investigation assist device includes a processor and a storage that records information on a road map including a plurality of intersections and captured videos of a plurality of cameras respectively in correlation with a capturing time, camera information, and intersection information. The processor retrieves a vehicle satisfying a retrieval condition based on a captured video of the camera specified by camera information corresponding to designated intersection information specifying at least one intersection of the plurality of intersections. The processor superimposes a traveling direction of a selected vehicle at the time of passing through an intersection corresponding to the designated intersection information on a position of the intersection on the road map in response to selection of the information on the vehicle.
US10984237B2
The present invention provides a method for a finalized processed image and related data to identify a spatial location of each pupil in the region. Each pupil is identified by a two-dimensional spatial coordinate. The method includes processing information associated with each pupil identified by the two-dimensional spatial coordinate to output a plurality of two-dimensional spatial coordinates, each of which is in reference to a time, in a two-dimensional space. The method then includes outputting a gaze information about the human user. The gaze information includes the two-dimensional spatial coordinates each of which is in reference to a time in a two-dimensional space.
US10984233B2
An apparatus acquires an image by reading a document, extracts a plurality of regions having a predetermined attribute from the acquired image, determines information about a registered document most similar to the acquired image from among information about a plurality of registered documents stored in a storage unit with use of positional information about the extracted plurality of regions, selects a processing target region in the acquired image based on a position of a processing target region previously specified with respect to the determined information about the most similar registered document, performs character recognition processing on the selected processing target region, and displays text data obtained by the character recognition processing.
US10984232B2
In a situation of setting a file name and the like by using a character string obtained by performing OCR processing to a scan image, appropriate conditions can be set according to a character string to be scanned so as to increase a character recognition rate. There is provided an apparatus for performing a predetermined process to a scan image obtained by scanning a document, including: a display control unit configured to display a UI screen for performing the predetermined process, the UI screen displaying a character area assumed to be one continuous character string in the scan image in a selectable manner to a user; and a setting unit configured to determine a condition for OCR processing based on selection order of a character area selected by a user via the UI screen and a format of supplementary information for the predetermined process, perform OCR processing by using the determined condition for OCR processing to the selected character area, and set supplementary information for the predetermined process by using a character string extracted in the OCR processing.
US10984229B2
An interactive sign language response (ISLR) system and method are described herein. The method includes receiving, by the interactive sign language response system, a video call from a videophone used by a video calling party, the video call including a video signal between the videophone and the interactive sign language response system; sending, by the interactive sign language response system and by way of the video call, a video prompt to be displayed on the videophone of the video calling party; and detecting, by the interactive sign language response system and by way of the video call, a response from the video calling party to the video prompt. In at least one embodiment, the interactive sign language recognition system performs automatic sign language recognition to determine one or more gestures in the video signal.
US10984225B1
Embodiments of the present disclosure provide systems and methods for recognizing a masked face. According to the present disclosure, the disclosed systems and methods include features that provide augmentation of existing face recognition databases, real-time mask detection, and real-time masked face recognition. In embodiments, masked face recognition includes a multi-layered approach, which includes finding matching simulated masked faces in the database that match the masked face being analyzed, comparing the unmasked portion of the masked face to stored unmasked faces in a database to identify any matches, and executing face restoration algorithms in which the masked portion is reconstructed to generate an unmasked representation which may then be matched against unmasked faces in the database.
US10984220B2
A method for verifying liveness of a finger of a user by capturing a first fingerprint sample from the finger placed on a display by using a first sensor placed under the display. The method may involve transmitting light, by using a first light transmitting display area of the display, towards a first area of the finger. The first light transmitting display area may be smaller than a first sensor area. The first sensor may capture reflected light from the finger. The reflected light may be transmitted through the display. A first feature of the first fingerprint sample may be identified by using the reflected light. The first feature may include scattered light from the finger. The light transmitted from the display may include a first light component with a first wavelength from a first area of the display.
US10984218B2
The invention relates to a method of a fingerprint sensing system arranged in an electronic device of capturing fingerprint data of a user contacting a fingerprint sensor of the fingerprint sensing system, and a fingerprint sensing system performing the method.