US10785900B2
Electrically conductive articles are provided, including a composite including (a) a resin, and (b) electrically conductive shaped particles distributed in the resin, the particles having a monosized distribution. Each particle has a shape including at least a first surface and a second surface intersecting the first surface at an angle a between about 5 degrees and about 150 degrees. The composite has a thickness and often each of the electrically conductive shaped particles distributed in the resin is oriented within the resin such that the particle does not extend beyond the thickness of the composite. A method for making an electrically conductive article is also provided, including (a) providing electrically conductive shaped particles having a monosized distribution, and (b) distributing the particles into a resin to form a composite.
US10785894B2
A case heat dissipation unit of handheld electronic device includes a back cover including a ceramic layer. A titanium metal layer or a stainless steel metal layer is disposed on the ceramic layer in a position corresponding to at least one heat source. The ceramic layer is an outer surface of the handheld electronic device and exposed to an external environment. The titanium metal layer or the stainless steel metal layer faces a receiving space of the handheld electronic device in contact with the heat source in the receiving space. The titanium metal layer or the stainless steel metal layer serves to absorb the heat generated by the heat source and transfer the heat to the ceramic layer for dissipating the heat.
US10785866B2
A monochrome image forming apparatus includes an image forming unit that forms a black image, a motor that drives the image forming unit, a control circuit that controls the motor, a first connector to which the motor is connected via a control line, a second connector to which a control target is not connected, and a substrate on which the control circuit, the first connector, and the second connector are arranged. A predetermined mark is formed on the substrate through silk screen printing. A distance between the predetermined mark and the second connector is shorter than a distance between the predetermined mark and the first connector. If the substrate is disposed in a multi-color image forming apparatus configured to form a color image, a control target for the multi-color image forming apparatus is connected to the second connector.
US10785865B2
A method for manufacturing an interconnect structure is provided. The method includes the following steps. An opening is through a substrate. A low-k dielectric block is formed in the opening. At least one first via is formed through the low-k dielectric block. A first conductor is formed in the first via.
US10785863B2
A MMIC support and cooling structure having a three-dimensional, thermally conductive support structure having a plurality of surfaces and a circuit having a plurality of heat generating electrical components disposed on a first portion of the surfaces and interconnected by microwave transmission lines disposed on a second portion of the plurality of surfaces of the thermally conductive support structure.
US10785855B2
A lighting device for communication with a mobile terminal, comprising: a lighting means, and an electronic operating device for operating the lighting means, a data storage unit, in which a first key is stored in a memory area reserved therefor, an encryption unit configured to read out the first key from the reserved memory area and, in accordance with a specifiable encryption operation, to convert measurement value data and/or identification data intended for transfer to the mobile terminal into a message encrypted by means of the first key, and a transmitting unit configured to transmit the encrypted message to the mobile terminal.
US10785851B2
A light source and a lighting device are provided. The light source includes a light emitting element configured to emit light and a light transmittance adjustment layer located on a light emitting surface of the light emitting element, and light transmittance of the light transmittance adjustment layer is adjustable.
US10785839B2
A thermal ballast temporarily stores heat generated during a heat generating device's operation thereby extending the device's operating time during an interval of adverse thermal operating condition. The thermal ballast (10) includes: a. a highly thermally conductive layer (42) that is adapted for being thermally coupled to the heat generating device; and b. a high heat capacity layer (44) that is laminated to the high thermal conductivity layer (42). The high heat capacity layer (44) may be formed from a solid piece of a suitably chosen material. Alternatively, the high heat capacity layer (44) may be formed from a piece of a suitably chosen material having a cavity that is filled with a material (46) which changes phase at a temperature below the heat generating device's maximum operating temperature. Disclosed are various different ways for infusing the material (46) which changes phase at a temperature below the heat generating device's maximum operating temperature into the high heat capacity layer (44) and retaining the material (46) therein.
US10785835B2
The present disclosure relates to a flash generator for providing power supply to a flash tube so that the flash tube rapidly provides a light output adapted to FP-sync, Flat Peak. The flash generator comprises a capacitor bank, an output and a switch configured to switch a current flow from the capacitor bank via the output to provide a variable power via the output. The flash generator further comprises a controller for controlling the switch, whereby by controlling the on time of the switch, the generator is operative to provide, during a time period of 100 to 2000 μs during a peak time period within the time period, an average power at least 4 times higher than the average power provided during the other time period within the time period, whereby the flash tube during the peak time period becomes fully ignited.
US10785833B2
An embodiment of a microwave power generation module includes an amplifier arrangement, an impedance matching element, and a resonant element. The amplifier arrangement includes a transistor with a transistor input and a transistor output. The impedance matching element is formed from a planar conductive structure. The planar conductive structure has a proximal end and a distal end, and the proximal end is electrically coupled to the transistor output. The resonant element has a proximal end electrically coupled to the distal end of the planar conductive structure, and the resonant element is configured to radiate electromagnetic energy having a microwave frequency in a range of 800 megahertz (MHz) to 300 gigahertz (GHz). A combination of the impedance matching element and the resonant element is configured to perform an impedance transformation between an impedance of the transistor and an impedance of an air cavity.
US10785826B2
A mobile device, a controlling method thereof, an image display apparatus, and a controlling method thereof are provided. The mobile device includes: a user interface (UI) configured to receive a user command to control the image display apparatus; a communication interface configured to provide a service according to the user command through an access point (AP) to which the image display apparatus is connected, and perform a direct connection operation with the image display apparatus in response to the service being provided; and a controller configured to control the communication interface to hand the service over to a direct channel connected to the image display apparatus in response to the direct connection operation being completed.
US10785821B2
A communication device for handling resume causes comprises at least one storage device; and at least one processing circuit coupled to the at least one storage device. The at least one storage device stores instructions, and the at least one processing circuit is configured to execute the instructions of: initiating a radio resource control (RRC) resume procedure for a non-access stratum (NAS) requested purpose and a RRC requested purpose; determining a resume cause in a RRC Resume Request message of the RRC resume procedure according to the NAS requested purpose instead of the RRC requested purpose; transmitting the RRC Resume Request message comprising the resume cause to a BS of the network; and receiving a RRC Resume message for responding to the RRC Resume Request message, from the BS.
US10785820B2
Apparatuses, methods, and systems are disclosed for establishing data paths over multiple access network for a multi-access data connection. One apparatus includes a processor and a transceiver that communicates with one or more network functions in a mobile communication network. The processor receives a first session management request via an AMF. Here, the first session management request contains a second session management request sent by a remote unit that communicates with the mobile communication network over a first access network and a second access network, second session management request being sent over the second access network. The processor 405 sends a first request to the access management function to establish a first data path for a multi-access data connection over the first access network and sends a second request to the access management function to establish a second data path for the multi-access data connection over the second access network. Here, both the first data path and the second data path are anchored at a common user plane network function in the mobile communication network.
US10785819B2
This disclosure describes systems, methods, and devices related to multi-band dual connectivity. A device may establish a first connection with a first access point on a first band. The device may establish a second connection with a second access point on a second band. The device may determine a multi-band maximum idle period. The device may cause to send a presence indication to at least one of the first access point or the second access point within the multi-band maximum idle period.
US10785817B2
A user equipment (UE) can include processing circuitry configuring the UE for Dual Connectivity (DC) with a Master Node-B (MN) and a Secondary Node-B (SN). The processing circuitry is to decode connection reconfiguration information received from the MN. The connection reconfiguration information includes signaling radio bearer type 3 (SRB3) configuration information. The SRB3 configuration information originating from the SN and configuring a SRB3, where the SRB3 is for direct communication between the UE and the SN. At least one of a radio resource control (RRC) reconfiguration completion message or a measurement report message is encoded for transmission to the SN.
US10785810B2
A method for establishing an Internet access by using a WLAN protocol from a mobile client station, via an access point to be chosen from a set of identified access points, includes: providing a general database of the identified access points with connection information; requesting Internet access using the protocol, successively moving through browsing through, selecting, associating, authenticating and configuring; establishing the Internet access of the mobile client station via the selected access point. Before and independently of the requesting the Internet access, connection information of at least a portion of the access points of the general database is downloaded into an onboard database of the mobile client station. The browsing through and selecting are carried out based on the downloaded connection information, without soliciting the general database and the identified access points.
US10785807B2
A method by which a terminal transmits a random access channel (RACH) signal in a wireless communication system comprises the step of transmitting the RACH signal to a base station according to an RACH format corresponding to a specific RACH subframe among previously defined RACH formats, wherein the method is configured such that a start point or an end point of the RACH signal in a time domain is differentiated according to whether a downlink control zone and an uplink control zone within the RACH subframe are punctured in a specific frequency band between the previously defined RACH formats.
US10785803B2
Embodiments of the present disclosure describe simplified RACH procedure and configuration for an eMTC system operating on unlicensed spectrum.
US10785793B2
Aspects of the present disclosure provide for scheduling multiple types of uplink grants for a single user equipment to support different types of service with different traffic patterns and quality of service (QoS) requirements. In some aspects of the disclosure, the user equipment may be configured with uplink grants for different types of semi-persistent scheduling, along with a dynamic uplink grant. In some examples, the different types of semi-persistent scheduling may include dedicated semi-persistent scheduling and contention-based semi-persistent scheduling.
US10785783B2
Methods and apparatus that enable one or more wireless networks to minimize inter-cellular interference (ICI) at a receiver. In one embodiment, the network comprises an OFDM-based cellular network, and the method comprises utilizing a priori knowledge of non-data portions of signals from multiple base stations in order to schedule transmissions. In one variant, these non-data portions comprise pilot tones; the pilot tones can be scheduled onto various time-frequency resources of the network so as to minimize ICI. The mobility context of the receiver can also be used as a basis for dynamically adjusting the pilot tone density. In another variant, precoding (e.g., Tomlinson-Harashima precoding) can be applied to “shape” the non-data portions of the transmitted signals so as to mitigate ICI. In yet other variants, frame preambles and learning sequences are used as the basis for invoking selective transmission time shifts across the potentially interfering base stations so as to minimize ICI.
US10785778B2
The present invention relates to a wireless communication system. More specifically, the present invention relates to a method and a device for handling for an uplink split operation in wireless communication system, the method comprising: generating and/or receiving second data available for transmission in a PDCP entity, and determining a RLC entity to be used for submitting the second data based on first data volume, if second data volume is larger than a first threshold and less than a second threshold; indicating the second data volume to a first MAC entity associated with a primary RLC entity, if the first data volume is less than the first threshold; and indicating the second data volume to both the first MAC entity associated with the primary RLC entity and a second MAC entity associated with a secondary RLC entity, if the first data volume is larger than the second threshold.
US10785776B2
The embodiments of the present invention disclose a method for processing channel collisions in direct mode operation and a terminal, which can ensure correct transmission of service data and improve user experience. The method in the embodiments of the present invention includes: receiving, by a first terminal, first SCI sent by a second terminal and second SCI sent by a third terminal, and detecting whether a channel collision occurs between the second terminal and the third terminal according to the first SCI and the second SCI; and if a channel collision occurs between the second terminal and the third terminal, generating, by the first terminal, a channel collision message and sending the channel collision message, so that the second terminal and the third terminal can resend the service data according to the channel collision message. The embodiment of the invention also discloses a terminal. The embodiments of the present invention can ensure the correct transmission of the service data and improve user experience.
US10785774B2
A base station receiving uplink data transmitted from mobile terminals of first type and mobile terminals of second type over a radio interface using plural sub-carriers. The mobile terminals of first type transmit uplink data on a first group of the sub-carriers over a first bandwidth and the mobile terminals of second type transmit uplink data on a second group of the sub-carriers within the first group of sub-carriers over a second bandwidth that is smaller than the first bandwidth. The base station is configured to grant uplink radio resources in response to random access request messages transmitted by mobile terminals of first type transmitted on a first random access channel and to grant uplink radio resources in response to random access request messages transmitted by mobile terminals of second type transmitted on a second random access channel, which are transmitted on sub-carriers within the second group of sub-carriers.
US10785773B2
Within one carrier, a base station reserves a first resource area for a first TTI-based transmission in a unit of first TTI within a second TTI period longer than the first TTI, and schedules a first data channel to be transmitted on the basis of the first TTI, in the first resource area.
US10785772B2
Disclosed are an uplink transmission method in a wireless communication system and an apparatus therefor. In detail, the method for a uplink (UL) multi-user (MU) transmission by a station (STA) in a wireless communication system includes receiving a trigger frame including frequency resource allocation information in a subband unit for orthogonal frequency division multiple access (OFDMA) transmission from an access point (AP), and transmitting a UL MU PPDU based on the frequency resource allocation information, wherein the UL MU PPDU includes a high efficiency-short training field (HE-STF), a high-efficiency-long training field (HE-LTF), and a data field, and the HE-STF, the HE-LTF, and the data field are transmitted in a subband indicated by the frequency resource allocation information.
US10785768B2
Methods of mapping, indicating, encoding and transmitting uplink (UL) grants and downlink (DL) assignments for wireless communications for carrier aggregation are disclosed. Methods to encode and transmit DL assignments and UL grants and map and indicate the DL assignments to DL component carriers and UL grants to UL component carriers are described. Methods include specifying the mapping rules for DL component carriers that transmit DL assignment and DL component carriers that receive physical downlink shared channel (PDSCH), and mapping rules for DL component carriers that transmit UL grants and UL component carriers that transit physical uplink shared channel (PUSCH) when using separate coding/separate transmission schemes.
US10785766B2
The present invention provides for a method of configuring a physical channel, such as a physical control channel, for device-to-device communication between mobile terminal devices within a cellular communications network environment and comprising a step of locating a device-to-device control channel within a cellular uplink signalling spectrum, and applying a frequency offset parameter to determine separation of the device-to-device control channel from a cellular uplink control channel, and to related terminal devices and computer program products.
US10785761B2
Systems and methods are disclosed for estimating one or more channel properties of a downlink from a cellular communications network based on quasi co-located antenna ports with respect to the one or more channel properties. In one embodiment, a user equipment receives a downlink subframe including a downlink control channel from the cellular communications network. The user equipment estimates one or more large-scale channel properties for an antenna port of interest in the downlink control channel based on a subset of reference signals that correspond to antenna ports in the cellular communications network that are quasi co-located with the antenna port of interest with respect to the one or more large-scale channel properties. As a result of using the quasi co-located antenna ports, estimation of the one or more large-scale channel properties is substantially improved.
US10785758B2
Systems and methods for fall-back rate-matching and timing for user equipment (UE) configured for downlink (DL) Coordinated Multi-Point Transmission (CoMP) are disclosed. In one embodiment, when a UE configured in DL CoMP receives a fall-back transmission, PDSCH is rate-matched around the serving cell CRS. In an alternative embodiment, when a UE configured in DL CoMP receives a fall-back transmission, PDSCH is rate-matched or uses timing around one of the cell-specific reference symbol (CRS) resource element (RE) set indicated by RRC-higher layer signaling. For example, PDSCH may be rate-matched or use timing around the first RRC higher layer configured CRS RE set.
US10785756B2
The present invention pertains to a wireless communication system. Particularly, the present invention relates to a method for transmitting uplink control information and an apparatus for the same, wherein the method comprises the steps of: selecting one uplink control channel resource corresponding to a plurality of HARQ-ACKs, from a plurality of uplink control channel resources; and transmitting a bit value corresponding to the plurality of HARQ-ACKs through the use of the selected uplink control channel resource.
US10785740B2
There is provided a device comprising a key request module and a key receive module. The key request module is configured to transmit a key request to a provisioning server, and the key receive module is configured to receive a device root key associated with the device from the provisioning server. The device also comprises an authentication request transmit module configured to transmit an authentication request comprising an international mobile subscriber identity (IMSI) and a device identifier identifying the device to a first home subscriber server (HSS). The device also comprises an authentication under key agreement (AKA) module configured to perform an AKA procedure using the device root key. The key request module, the key receive module, the authentication request transmit module and the AKA module thereby authenticate the device for subscriber identity module (SIM) provisioning of the device.
US10785736B2
Aspects of the disclosure relate to a coexistence of a first radio access technology (RAT), such as a fifth generation (5G) new radio (NR) technology with a second RAT, such as a narrow-band internet-of-things (NB-IOT) technology. In a first aspect, a 5G NR resource block size and an NB-IOT resource block size are defined, and a compatible alignment of an NB-IOT resource block and a 5G NR resource block is identified. An offset associated with the compatible alignment is then determined in which the offset is within a threshold offset and facilitates an identification of a valid NB-IOT resource block. In a second aspect, an offset associated with a compatible alignment of a 5G NR resource block and an NB-IOT resource block is ascertained, and a channel raster is shifted according to the offset associated with the compatible alignment.
US10785729B2
The present application provides a method and a device for controlling uplink power. The method includes: receiving, by a terminal device, uplink power control information transmitted by a network device; determining, by the terminal device, according to the uplink power control information, a target power control parameter corresponding to a target transmission mode, where the target transmission mode is a target uplink multiple access mode, or a target uplink beam, or a target uplink precoding scheme, or a target transmission scheduling scheme; and determining, by the terminal device, according to the target power control parameter, target transmitting power for transmitting a target uplink signal using the target transmission mode. The method and the device for controlling uplink power provided in the present application can flexibly adjust the uplink transmitting power to meet the requirements of different transmission modes, and are suitable for a communication system supporting multiple transmission modes.
US10785721B1
A method, computer program product, and network system for controlling an energy consumption of mobile equipment adapted to communicate over a telecommunication network are provided. The embodiment may include entering an energy saving mode for a mobile equipment in response to an energy saving activation. The embodiment may also include receiving inbound information to be transmitted to the mobile equipment in the energy saving mode. The embodiment may further include verifying a transmission enablement of the inbound information in response to said receiving the inbound information according to an energy saving policy based on one or more category indicators of the inbound information. The embodiment may also include controlling a transmission of the inbound information to the mobile equipment in the energy saving mode according to a result of said verifying the transmission enablement.
US10785718B2
An access point establishes target wakeup times (TWTs) with one or more associated electronic devices in a WLAN. The access point transitions to a power-saving mode outside of the one or more TWTs. The access point maintains synchronization with the one or more electronic devices, during at least a first TWT in the one or more TWTs, by transmitting, to the one or more electronic devices, a TWT beacon that includes, or in conjunction with, synchronization information. Alternatively or additionally, during at least the first TWT, the access point transmits a multi-user trigger frame that includes the synchronization information to the one or more electronic devices. In response to the multi-user trigger frame, the access point receives data frames from the one or more electronic devices, transmits one or more acknowledgments, and transitions into the power-saving mode during a remainder of at least the first TWT.
US10785714B2
A communications device transmits data to a mobile communications network or receives data from a mobile communications network. The mobile communications network includes plural infrastructure equipment each providing a wireless access interface for the communications device. The wireless access interfaces may have a different frequency but operate in accordance with the same standard or may use different radio access technologies. The communications device selects one of the wireless access interface by generating a signal reception metric for each of the wireless access interfaces provided by the one or more neighbouring infrastructure equipment and each if the wireless access interfaces provided by the selected infrastructure equipment, and selects or reselects one of the wireless access interfaces provided by the one or more neighbouring infrastructure equipment or one of the wireless access interfaces provided by the selected infrastructure equipment in accordance with predetermined criteria based on the generated signal reception metrics.
US10785705B1
A communication device that establishes a short-range wireless communication link with a fixed wireless access (FWA) user equipment (UE) or a mobile UE that is in a specified proximal range of the communication device. The FWA UE or the mobile UE is in a radio resource control (RRC) connected state over LTE network, is determined. The communication device detects whether a first new radio (NR) carrier is assigned to the FWA UE or the mobile UE without using the communication device. A carrier measurement is determined for NR is established at the FWA UE (or mobile UE) by an LTE-enabled base station in the RRC connected state. The communication device controls assignment of a second NR carrier to the FWA UE or the mobile UE for non-standalone initial access to a beam of RF data signals in the second NR carrier at the FWA UE or the mobile UE.
US10785704B1
Technologies to improve band edge channel performance for radios are described. One device includes a baseband processor with an Orthogonal Frequency Division Multiplexing (OFDM) physical layer (PHY) parameter structure. The OFDM PHY layer parameter structure includes first parameter information that controls operation of an OFDM PHY in a first mode. The baseband processor establishes a wireless communication link with a second device and transmits first data to the second device in the first mode using a transmit power level. The baseband processor determines that the device is connected with the second device on a band edge channel that is adjacent to a restricted frequency band. The baseband processor modifies the first parameter information to second parameter information, the second parameter information controls operation of the OFDM PHY in a second mode. The baseband processor transmits transmit second data to the second device in the second mode using the transmit power level.
US10785703B1
An unauthorized access point is identified during a periodic scan on the wireless network and storing a MAC address for the unauthorized access point and monitored for connection attempts. In response to an attempt by the unauthorized access point to connect to a wireless station or in response to the wireless station attempt to connect to the unauthorized access point, a spoofed probe response is transmitted to prevent a connection. The probe response can include a channel switching element and the MAC address of the unauthorized access point.
US10785699B2
Embodiments of a Next Generation Node-B (gNB) and methods of communication are disclosed herein. The gNB may be configured with a gNB central unit (gNB-CU) and a gNB distributed unit (gNB-DU). The gNB-CU may determine a route for delivery of a data packet to a User Equipment (UE) on an integrated access backhaul (IAB) of relays. The gNB may generate a physical layer (PHY) data packet in accordance with a split between functionality of a packet data convergence protocol (PDCP) layer at the gNB-CU and functionality of a radio link control (RLC) layer at the gNB-DU. The PHY data packet may include the data packet, a PDCP header, an adaptation layer header, an RLC header, a medium access control (MAC) header, and a PHY header. The adaptation layer header may indicate one or more relays included in the route.
US10785698B2
Disclosed is a control method for controlling data return in a passive sensor network comprising an aggregation node and sensor nodes. The control method comprises the following steps: controlling the aggregation node to broadcast energy to the entire passive sensor network; controlling the sensor nodes to collect the energy broadcast by the aggregation node; clustering, according to a predetermined clustering rule, the sensor nodes and selecting cluster heads; and controlling each of the sensor nodes of each cluster to transmit data to a corresponding cluster head and then to the aggregation node or one of the sensor nodes of a cluster closer to the aggregation node so as to eventually transmit the data to the aggregation node and closing the sensor node that completes data transmission. In addition, a control device is also disclosed.
US10785696B2
Systems and methods for performing User Plane (UP) path selection or reselection over a communications network with a 3rd party entity, and for notifying network entities of UP changes in a communications network, are disclosed. The method includes: receiving an application program interface based request for UP path selection from the 3rd party entity; performing a validation and authorization procedure with the request; transmitting a UP path selection configuration request to a Control Plane Function that maintains configuration data; obtaining a reference number confirming the UP path selection configuration request; and installing the UP path selection according to the reference number.
US10785694B2
A method of initiating a handover of a User Equipment, UE, from a first type of Radio Access Technology, RAT, to a second type of RAT, wherein said UE is attached to a core network via an Access Node, AN, comprised by a Radio Access Network, RAN, utilizing said first type of RAT, wherein said method comprises the steps of transmitting, by said UE, to said AN, measurement data relating to qualities of links between said UE and access nodes in said RAN, receiving, by said UE, an indicator from said AN, wherein said indicator informs said UE that there is a risk of losing connectivity between said UE and said Radio Access Network, initiating, by said UE, triggered by said received indicator, a handover in order to access the CN via said second type of RAT.
US10785688B2
A routing platform for routing 4G and 5G mobile data traffic in a mobile core networks implementing Option-3 of 5G Non-Standalone deployment. The routing platform captures S6a Diameter messages sent between a Mobility Management Entity (MME) and a Home Subscriber Server (HSS) and examines the captured messages to determine whether a user equipment (UE) is configured for a 5G data connection. The routing platform intercepts a GTP Create-Session-Request message sent from a Serving Gateway (SGW) and determines whether the GTP message is associated with the UE previously determined to be configured for a 5G data connection. If the GTP message is associated with the UE configured for a 5G data connection, the GTP message is either sent to a dedicated 5G Packet Network Data Gateway (PGW) or the GTP message is modified so that a single PGW handling both 4G and 5G traffic can establish a 5G session for the UE.
US10785681B1
Methods and apparatuses for feature-driven machine-to-machine communications are described. At a feature encoder, features are extracted from sensed raw information, to generate features that compress the raw information by a compression ratio. The feature encoder implements a probabilistic encoder to generate the features, each feature providing information about a respective probability distribution that each represents one or more aspects of the subject. The probabilistic encoder is designed to provide a compression ratio that satisfies a predetermined physical channel capacity limit for a transmission channel. The features are transmitted over the transmission channel.
US10785676B2
An electronic device is disclosed. The electronic device includes a memory configured to store processing rules of network traffic and a processor configured to determine an order where the network traffic is processed, depending on a rule to be applied, the rule corresponding to the at least one of app information of an application corresponding to at least one process which causes the network traffic, device state information, or network packet information among the processing rules.
US10785674B2
An example method can include receiving information identifying a quality of service (QoS) flow for a communication session involving a user equipment (UE). The information can include a QoS profile and a QoS flow identifier (QFI). The method can include identifying, from a QoS profile, a QoS configuration identifier associated with the QoS flow and selecting a data radio bearer (DRB) for the communications associated with the QoS flow. The DRB can be selected based on a mapping of a plurality of DRBs to a plurality of QoS flows, and the mapping can be based on corresponding QoS configuration identifiers of the plurality of QoS flows. The method can include assigning the QoS flow to the selected DRB by adding the QFI of the QoS flow to the mapping relative to the selected DRB and causing the communications associated with the QoS flow to be transmitted using the selected DRB.
US10785663B2
In a first device incorporating a processor and a memory in communication with the processor, the memory includes executable instructions that, when executed, cause the processor to control the first device to perform functions of receiving a bit error pattern of data traffic transmission from the first device to a second device, the bit error pattern including a number and locations of bit errors which occurred during the data traffic transmission; and adapting at least one transmission parameter of the first device based on the received bit error pattern. The error pattern allows more refined data traffic decisions.
US10785662B2
The disclosure includes embodiments for providing cloud-based network optimization for connected vehicles. In some embodiments, a method includes receiving, by a connected vehicle, configuration data describing a set of candidate vehicle-to-anything (V2X) channels of a V2X radio of the connected vehicle and configuration selection probability values describing a likelihood that particular candidate V2X channels of the set will be selected. In some embodiments, the method includes selecting a V2X channel from the set that does not have the highest likelihood of being selected. In some embodiments, the method includes configuring the V2X radio of the connected vehicle to transmit data packets using the selected V2X channel.
US10785647B1
Trusted beacon based location determination system and method is disclosed. An electronic beacon broadcasts a cryptographically signed beacon identifier to listening devices. Listening devices are configured to verify the integrity of the cryptographically signed beacon identifier by using the beacon's public key. Listening devices may also be configured to verify the validity of the public key by verifying a digital certificate corresponding to the beacon. Listening devices may be configured with location-based functionality that determines a relative location of the listening device if the cryptographically signed beacon identifier is verified.
US10785643B2
The present invention relates to a deep learning neural network based security system and a control method therefor and, more particularly, to a deep learning neural network based security system comprising: at least one WiFi node; and a deep learning module for detecting an object from a WiFi signal received from the WiFi node, wherein the deep learning module identifies information on the object when the object is detected.
US10785636B2
Methods for obtain identifiers, such as International Mobile Subscriber Identities (IMSIs) and International Mobile Station Equipment Identities (IMEIs), of mobile communication terminals, and associate these identifiers with other items of identifying information provided by users of the terminals. A local interrogation device may be installed that imitates a legitimate base station belonging to a cellular network, at a control checkpoint. Local interrogation devices are connected to a global interrogation device in a hierarchical network, whereby the local interrogation devices are assigned a priority that is higher than that of the global interrogation device. The global interrogation device provides cellular coverage to a larger area that contains the control checkpoints, while the local interrogation devices provide more localized cellular coverage to the control checkpoints.
US10785634B1
Methods and systems for End-to-End (E2E) User Equipment (UE) trajectory network automation are herein provided. According to one aspect, a network node for E2E UE trajectory network automation, such as a Network Data Analytics Function (NWDAF), receives, from a requesting entity, information identifying a future E2E UE trajectory, the E2E UE trajectory comprising a start location, an end location, and zero or more intermediate locations between the start location and the end location; calculates a E2E mobility trajectory prediction for the identified future E2E UE trajectory; and sends, to the requesting entity, the calculated E2E mobility trajectory prediction. The requesting entity may be a trusted entity or an untrusted entity, such as a Third Party Provider (3PP) outside of the trusted domain of the network. If the requesting entity selects a mobility trajectory, the network node sends mobility management and optimization information to a Radio Access Network node.
US10785633B2
A method for a base station includes receiving a signal relating to a location of a user equipment (UE) from the UE, selecting a first exchange for the UE and sending the signal to the first exchange, and sending the signal to a second exchange based on subscription information of the UE provided by a server.
US10785630B2
A method, apparatus and computer program product are provided for facilitating efficient device discovery. In regards to a method implemented by a master device, a first identifier is received and stored. The method also receives a data packet comprising a second identifier from a particular device and determines whether at least a portion of the first identifier matches at least a portion of the second identifier. The method then, in an instant in which there is a match, causes a connection procedure to be initiated with the particular device. According to one example embodiment, the first identifier may be received from via a cloud service. According to another example embodiment, the first identifier may be received during an active data connection with another device. Corresponding apparatus and computer program products as employed by both master and slave devices are also provided.
US10785625B2
A companion device is provided for a primary device. The companion device have wireless connectivity that send and receive data via a communication channel established over its wireless connectivity. The companion device includes a microcontroller, a wireless communication interface, a cellular communication interface, and logic configured to connect with the primary device via the wireless communication interface and with a cellular network via the cellular communication interface to augment bandwidth of the communication channel for the primary device.
US10785621B1
This disclosure relates to systems and methods to provide an interactive space based on vehicle-to-vehicle communications. A vehicle may store experience information and/or other information. The experience information may define virtual content to be presented to a user residing in the vehicle to create an interactive space. The virtual content may be associated with an experience location in a real-world environment. Responsive to a vehicle location of the vehicle being at or near the experience location, the user may be presented with views of the virtual content. The user may interact with the virtual content causing an update of the experience information. Upon detection of presence of a second vehicle, the vehicle may communicate the updated experience information to the second vehicle.
US10785618B2
The present invention provides a vehicle-to-X (V2X) operation method performed by a V2X terminal in a wireless communication system, the method comprising: allocating a V2X resource pool to a subframe remaining after excluding a specific subframe; and performing a V2X communication on the allocated V2X resource pool.
US10785610B2
Dispatch-aiding communications between computing devices of a responder and a dispatch unit include a computing device of the responder determining that an event occurred, automatically sending an indication of the event to a computing device of the dispatch unit, receiving a request for information from the computing device of the dispatch unit, obtaining the information requested by the computing device of the dispatch unit, and sending the information requested by the computing device of the dispatch unit to the computing device of the dispatch unit. The computing device of the dispatch unit sends the request for information to the computing device of the responder in response to receiving the indication of the event.
US10785606B2
In certain embodiments, a method for use in a network node comprises sending a control information message to at least one wireless device that is in idle mode. The message comprises a mapping that maps a quasi co-location (QCL) assumption to a multicast transmission or multicast channel. For example, in certain embodiments, the multicast transmission or multicast channel is associated with a temporary multicast group indicator (TMGI), and the mapping maps the QCL assumption to the TMGI. The control information message causes the at least one wireless device to use the QCL assumption to decode the multicast transmission or multicast channel while in idle mode.
US10785601B2
A method of transmitting dynamic content to a mobile device includes: storing content in a memory of a kiosk deployed in a facility; receiving, via an input device of the kiosk, a command to present the a portion of the content; responsive to receiving the command: controlling an output device of the kiosk to present the portion of the content; and transmitting, to a routing server via a network, a preconfigured identifier of the kiosk and an identifier of the portion of the content, for subsequent retrieval by a mobile computing device.
US10785596B2
Various implementations monitor a parent geofence that geographically encompasses a plurality of child geofences, each respective child geofence of the child geofences associated with a respective physical location within the parent geofence. One or more implementations receive location data that indicates a current location of a mobile device. In turn, the current location can be used to determine that the mobile device has entered a particular child geofence of the plurality of child geofences. In response to determining that the mobile device has entered the particular child geofence, one or more implementations select an application configuration for a mobile application on the mobile device, where the application configuration corresponds to the particular child geofence. One or more implementations transmit the application configuration to the mobile device effective to alter a functionality of the mobile application at the mobile device based on the current location.
US10785591B2
Media content playback is based on an identified geographic location of a sound source. A geolocation of a target venue is determined. A first geolocation of a media playback device is determined. An indication that the media playback device is within a threshold distance of the target venue is received. Media content associated with the target venue is transferred to the media playback device, wherein one or more characteristics of the media content are dynamically modified to simulate audio originating from the target device. The one or more characteristics of the media content can include audio content characteristics associated with a timing filter, a loudness filter, and a timbre filter.
US10785583B2
A hearing aid is described which incorporates an antenna integrated into the housing that is configured to radiate with linear polarization such that the electric field is perpendicular to the head of a wearer. The described technique results in lower propagation losses from ear to ear and an improvement in ear-to-ear communications using a far-field link (e.g., in the 2.4 GHz band).
US10785582B2
An ear-worn electronic hearing device comprises an enclosure configured to be supported by, at, in or on an ear of the wearer. Electronic circuitry is disposed in the enclosure and comprises a wireless transceiver. An antenna is disposed in or on the enclosure and operably coupled to the wireless transceiver. The antenna has a physical size and comprises a plurality of cutouts disposed along a periphery of the antenna. The cutouts are configured to increase an electrical length of the antenna without an increase in the physical size of the antenna. The antenna can comprise at least one interior window having a window periphery. A plurality of window cutouts are disposed along the window periphery. The window cutouts are configured to increase a path length of current distribution along the window periphery.
US10785574B2
An acoustophoretic system is controlled and driven to attain a desired level of performance. An RF controller and a driver provide a frequency and power to an acoustic transducer, which can be implemented as a piezoelectric element, which presents a reactive load or a complex load. A controller implements a control technique for efficient transducer operation. The control technique can locate a frequency for operation that is at a reactance minimum or maximum for the system to produce a modal pattern and to provide efficient operation of the transducer. A method of detecting a minimum or maximum reactance in a acoustophoretic system used to trap, separate, deflect, cluster, fractionate or otherwise process particles or secondary fluids or tertiary fluids in a primary fluid and utilizing the frequency of the detected reactance to operate the acoustophoretic system.
US10785565B2
Apparatus including a processor configured to: receive an audio signal from a close microphone, wherein the audio signal is input in a spatial audio mixing, and the close microphone is associated with a first sound source; receive a beam-formed audio signal from a microphone array, wherein the beam-formed audio signal is a result of forming a beam of the microphone array directed from the microphone array towards the close microphone so as to enhance the audio signal; determine a time duration where no further sound source is active within the sound scene the first sound source; and determine a time difference, during the time duration, between the audio signal and the beam-formed audio signal to enable alignment of the audio signal and the beam-formed audio signal.
US10785562B1
Introduced here are recording devices optimized for recording speech between multiple parties (e.g., a speaker and a counterparty, or a first speaker and a second speaker). These recording devices can facilitate the discovery of personalized characteristics of an interaction by detecting location. For example, these recording devices can discover the intent behind certain terms and phrases in the context of a conversation. A recording device can include a communication module configured to stream recorded media content to another electronic device, as well as a marker identification module configured to identify nearby beacons. For example, a recording device may include a Bluetooth® Low Energy chipset configured to identify nearby Bluetooth® beacons and a Wi-Fi® chipset configured to stream recorded media content to another electronic device.
US10785555B2
A positioning and retaining structure for an in-ear earpiece. An outer leg and an inner leg are attached to each other at an attachment end and attached to a body of the earpiece at the other end. The outer leg lies in a plane. The positioning and retaining structure have a stiffness that is greater when force is applied to the attachment end in a counterclockwise direction in the plane of the outer leg than when force is applied to the attachment end in a clockwise direction in the plane of the outer leg. The positioning and retaining structure position an earpiece associated with the earpiece in a user's ear and retains the earpiece in its position.
US10785553B2
Embodiments describe a hinge for a case that stores wireless listening devices, including: a first shaft forming a first pivot point for the hinge; a second shaft forming a second pivot point for the hinge, the first shaft and the second shaft defining a conversion axis; a piston rod having a first end and a second end, the first end coupled to the second shaft and a second end opposite from the first end coupled to a stopper; a piston guide slidably coupled to the piston rod between the first end and the second end of the piston rod; a third shaft forming a third pivot point for the piston guide, the third shaft allowing the piston guide to rotate and maintain concentric alignment with the piston guide; and a spring positioned between the second shaft and the piston guide and wound around the piston rod.
US10785552B2
An intra-aural audio device includes an outer layer shaped to define separate ear canal, concha bowl, and concha cymba portions. An inner layer is disposed within the outer layer, the inner layer having a durometer different than that of the outer layer.
US10785549B2
Technologies for switching network traffic include a network switch. The network switch includes one or more processors and communication circuitry coupled to the one or more processors. The communication circuitry is capable of switching network traffic of multiple link layer protocols. Additionally, the network switch includes one or more memory devices storing instructions that, when executed, cause the network switch to receive, with the communication circuitry through an optical connection, network traffic to be forwarded, and determine a link layer protocol of the received network traffic. The instructions additionally cause the network switch to forward the network traffic as a function of the determined link layer protocol. Other embodiments are also described and claimed.
US10785547B2
An example method comprises receiving, at a first digital device, video data, scanning video content of the video data for visual transitions within the video content between consecutive frames of the video data, each transition indicating significant visual transitions relative to other frames of the video data, timestamping each visual transition and create a first set of temporal video fingerprints, identifying items of metadata to be associated with the video data, identifying a location within the video data using the temporal video fingerprints for the identified items of metadata, generating a metadata index identifying each item of metadata and a location for each item of metadata relative to the video data using at least one of the temporal video fingerprints, and transmitting, at the first digital device, the video data, the first set of temporal video fingerprints, and the metadata index to a different digital device.
US10785541B2
A screencast recording method, a screencast playing method, a screen recording terminal, and a playing terminal. The recording method includes obtaining an operation performed by a screen recording user on a screen recording terminal, and determining screen content and event content that are corresponding to the operation. The method further comprises generating video data and a screen recording operation intelligent playback part based on the screen content and the event content. The method further comprises generating a screen recording file that includes the video data and the screen recording operation intelligent playback part. The playing method further includes obtaining a screen recording file. The method further includes receiving an intelligent playback instruction. The method further includes performing at least one operation according to the intelligent playback instruction.
US10785539B2
A set of media playback and device settings data from each home appliance of a first set of home appliances is stored on a central server and/or sent to a remote control device upon initiation of a suspend command by a user. The stored media and devices states may be used at a later time to control the first set of home appliances, or a user may, after relocating to a second set of home appliances, initiate a resume state command whereupon media playback and device settings data from the central server and/or remote control device controls each home appliance in the second set of home appliances to bring about the same or substantially similar media and device states as in the first set of home appliances.
US10785537B2
Methods and apparatus to predict demographics are disclosed. An example apparatus includes a prediction manager to access matched demographic impression data when a database proprietor subscriber does not match user data corresponding to a media delivery device, the matched demographic impression data including first demographic data stored by a database proprietor; a linear scaler to linearly scale the matched demographic impression data when the matched demographic impression data covers all demographic categories under consideration; a differential scaler to differentially scale the matched demographic impression data when the matched demographic impression data does not cover at least one of the demographic categories; and a modeler to: generate a model representative of the matched demographic impression data linearly scaled or the matched demographic impression data differentially scaled; and generate predicted demographic impression data by applying the model to second impression data to correct for the database proprietor not storing second demographic data.
US10785532B2
Apparatus, systems, articles of manufacture, and methods to identify and credit media using ratios of media characteristics are disclosed herein. An example apparatus to identify media includes a memory including computer readable instructions and a processor to execute the instructions to at least determine a first ratio based on a first time interval and a second time interval of a plurality of time intervals of a monitored media signature, determine a second ratio based on a third time interval and a fourth time interval of the plurality of time intervals of the monitored media signature, generate a monitored media ratio signature based on the first and second ratios, and compare the monitored media ratio signature with a reference ratio signature to identify the media.
US10785494B2
A method of decoding video data includes constructing, by a video decoder implemented in processing circuitry, a candidate list of motion vector information for a portion of a current frame. The method includes receiving, by the video decoder, signaling information indicating starting motion vector information of the candidate list of motion vector information, the starting motion vector information indicating an initial position in a reference frame. The method includes refining, by the video decoder, based on one or more of bilateral matching or template matching, the starting motion vector information to determine refined motion vector information indicating a refined position in the reference frame that is within a search range from the initial position. The method includes generating, by the video decoder, a predictive block based on the refined motion vector information and decoding, by the video decoder, the current frame based on the predictive block.
US10785487B2
An intra prediction method and a device using the intra prediction method are provided. The intra prediction method includes the steps of: deriving a current prediction mode as a prediction mode of a current block; constructing neighboring samples of the current block with available reference samples; filtering the available reference samples; and generating predicted samples of the current block on the basis of the filtered available reference samples. The filtering step includes performing the filtering using the available reference sample located in the prediction direction of the current prediction mode and a predetermined number of available reference samples neighboring to the prediction direction of the current prediction mode.
US10785484B2
A method includes generating resolution images corresponding to the resolutions from each of a target image which is an image frame, included in a moving image or a still image group photographed continuously, of a processing target among the image frames and a processing target image photographed before the target image, executing block matching between a resolution image of the target image and a resolution image of the processing target image for each of the resolutions, calculating a plurality of motion vector candidates corresponding to the respective resolutions for each pixel of the target image, evaluating reliability of the plurality of motion vector candidates based on an evaluation index using noise characteristics related to pixel areas of a start point and an end point of each of the plurality of motion vector candidates for each pixel of the target image, and calculating a final motion vector.
US10785483B2
In an example, an electronic device of a decoder is configured to obtain a bit stream and recover a binary symbol from the obtained bit stream. The electronic device is configured to determine whether the binary symbol is to be decoded using a modified transform skip mode. The electronic device is configured to, in response to determining that the binary symbol is not to be decoded using the modified transform skip mode, determine a first TS_Shift value, and recover video data using the first TS_Shift value. The electronic device is configured to, in response to determining that the binary symbol is to be decoded using the modified transform skip mode, determine a second TS_Shift value, and recover video data using the second TS_Shift value.
US10785478B2
A picture encoding method that includes selecting a Vth basis function for a current block according to a specific order from among basis functions; deriving a Vth expansion coefficient on the basis of the selected Vth basis function; calculating a Vth weighted error criterion on the basis of the selected Vth basis function and the derived Vth expansion coefficient; and encoding and outputting information indicating the Vth number as a basis number when the value of the Vth weighted error criterion is less than a specific critical value.
US10785475B2
A method and apparatus for video encoding and decoding with prediction offset in a video coding system are disclosed. A prediction offset for a current block is derived from a reconstructed residual signal of one or more coded blocks. At the encoder side, a residual signal for the current block is calculated by subtracting a prediction signal and the prediction offset from an original signal of the current block, and the residual signal is encoded to generate an encoded bitstream. At the decoder side, a residual signal for the current block is obtained from input data, a reconstructed signal for the current block is calculated by adding a prediction signal and the prediction offset to the residual signal, and the current block is decoded using the reconstructed signal.
US10785473B2
A virtual window display includes: a plurality of collimated projector modules having contiguous exit pupils. Each collimated projector module includes: a display device configured to display a spatially modulated image along a flat or curved geometric image surface, and one or more optical lenses sharing a common curvature symmetry axis and configured to optically collimate light from the display device in the collimated projector module. The curvature symmetry axes of the plurality of collimated projector modules point in a plurality of angular directions and are substantially convergent along at least one axis at a finite distance from the plurality of collimated projectors. The total display FOV of the virtual window display is larger than the module FOV of each of the plurality of collimated projector modules.
US10785465B2
A head mounted display device includes a display unit divided into at least one first area and at least one second area, a lens unit which supplies an image displayed on the display unit to a user, and a frame which fixes the display unit and the lens unit thereto. The display unit includes a memory which stores first compensation data corresponding to the first area and second compensation data corresponding to the second area, and a position determiner which determines whether first data supplied from an outside belong to the first area or the second area.
US10785452B2
Systems and methods identify consumer products in images. Known consumer products are captured as grayscale or color images. They are converted to binary at varying thresholds. Connected components in the binary images identify image features according to pixels of a predetermined size, shape, solidity, aspect ratio, and the like. The image features are stored and searched for amongst image features similarly extracted from unknown images of consumer products. Identifying correspondence between the features of the images lends itself to identifying or not known consumer products.
US10785451B1
Methods, systems, and apparatus, including computer programs encoded on computer storage media, for generating avatars based on physical sensor measurements. One of the methods includes receiving, by a second user device from a video streaming platform system during a video streaming session between a first user device and the second user device, an updated physical sensor measurement of the first user device. An updated graphical representation of an avatar selected by a first user of the first user device is generated by the second user device based on the updated physical sensor measurement of the first user device. The updated graphical representation of the avatar is presented by the second user device on a display device of the second user device during a video streaming session between the first user device and the second user device.
US10785443B2
A platform for synchronizing augmented reality (AR) views and information between two or more network connected devices is disclosed. A first device captures a video stream and associated spatial information, and transmits the video stream and spatial information to a second device. A user of the second device views the video stream, and inserts one or more AR objects into the video stream, with reference to the spatial information. The second device transmits the AR objects and spatial information references to the first device, which then renders the one or more AR objects into the video stream, using the spatial information references to locate the AR objects in each video stream frame.
US10785441B2
A TV without a touch screen can nonetheless execute applications designed for mobile devices that assume a touch screen user interface (UI) by a “dumb” remote control with up/down, left/right, select buttons, or by a remote control with a touch pad, or by a remote control application running on a mobile device with a touch-screen that communicates with the TV. In all three scenarios, the TV recognizes that it is running in a special remote control mode and with a corresponding remote control application running on the TV that is able to intercept key presses and finger swipes and translate them to touch screen commands that are input to a touch screen-enabled software application running on the TV.
US10785430B2
A solid-state imaging device includes: a pixel including a photoelectric converter that generates a charge and a charge accumulator that converts the charge into a voltage; a controller that causes the pixel to perform exposure in a first exposure mode and convert the charge into the voltage with a first gain to output a first pixel signal, and causes the pixel to perform exposure in a second exposure mode and convert the charge into the voltage with a second gain to output a second pixel signal, the second exposure mode being shorter in exposure time than the first exposure mode, and the second gain being lower than the first gain; and a signal processor that synthesizes the second pixel signal after amplification and the first pixel signal.
US10785426B2
An image sensor pixel may include a photodiode, a floating diffusion, and a transfer gate. Column readout circuitry coupled to the image sensor pixel via a column line. The column readout circuitry may include sample and hold circuitry, comparison circuitry, residual measurement and summation circuitry, counter circuitry, analog-to-digital conversion circuitry, and digital summation circuitry. Column readout circuitry is configured to perform readout operations on a pixel image signal generated for a single frame in one or more portions, thereby extending the dynamic range of the imaging system without modifying pixel structure to generate high-dynamic range images within the single frame.
US10785404B2
An information processing method obtains location information indicating a location of a moving body at a time of detection of occurrence of a predetermined event that triggers recording of a photographic image acquired by photography using a photographic apparatus installed on the moving body. Then, the method determines whether or not the location indicated by the location information is a location where the driver is estimated to have visited a plurality of times, based on at least one of action history information indicating action history of a driver of the moving body and related-person information regarding a related person of the driver. Finally, the method controls to record the photographic image, according to the determination of whether or not the location indicated by the location information is a location where the driver is estimated to have visited a plurality of times.
US10785400B2
In some embodiments, a ToF sensor includes an illumination source module, a transmitter lens module, a receiver lens module, and an integrated circuit that includes a ToF imaging array. The ToF imaging array includes a plurality of SPADs and a plurality of ToF channels coupled to the plurality of SPADs. In a first mode, the ToF imaging array is configured to select a first group of SPADs corresponding to a first FoV. In a second mode, the ToF imaging array is configured to select a second group of SPADs corresponding to a second FoV different than the first FoV.
US10785399B2
An imaging apparatus that provides, between itself and an accessory device, a notification channel used for notification from the imaging apparatus to the accessory device, a first data communication channel used in data transmission from the accessory device to the imaging apparatus, and a second data communication channel used in data transmission from the imaging apparatus to the accessory device. An accessory control unit transmits data via the first data communication channel in response to having received a transmission request signal via the notification channel, and selectively adds, to the data, a communication standby request for keeping a transmission request signal from being transmitted from the imaging apparatus to the accessory device.
US10785398B1
A mobile video camera apparatus is provided having a mobile video camera device that includes a housing, a handle with a base engagement portion, a camera including an image sensor, a lens, and an encoder, a battery, a recording activation switch, an input relay connected to the camera, wherein activation of the recording activation switch by a user energizes the input relay, and the input relay provides a signal to the camera to begin recording data, a wireless communication device coupleable to the camera device for transmitting encoded data from the camera to the video management system and for receiving configuration commands from the video management system. The apparatus further including a base having a handle mount for receiving and securing the base engagement portion to the base, wherein the handle mount includes a tool-less coupling mechanism for securing and unsecuring the mobile video camera device to the base.
US10785392B2
A camera assembly is provided. The camera assembly includes a lens holder, a lens disposed in the lens holder, a circuit board, a camera sensor disposed on the circuit board, and an ambient light sensor electrically connected to the circuit board. The lens holder defines a light transmission channel, an inner peripheral wall is defined in the light transmission channel, and a chamfer is formed in the lens holder and disposed at one end of the inner peripheral wall that faces towards the lens, and the camera sensor is disposed correspondingly to the lens via the light transmission channel. The ambient light sensor is attached to a surface of the chamfer. Ambient light is transmitted through the lens and the light transmission channel, and is further incident into the camera sensor and the ambient light sensor. An electronic device having the camera assembly is further disclosed.
US10785388B2
A camera system for mounting to a scope can include a camera portion and a mounting system rotationally coupled to the camera portion. The mounting system can include a first securing portion having a first securing member, where the first securing member is configured to abut against a first portion of an eyepiece of the scope. The mounting system can also include a second securing portion having a second securing member, where the second securing member is configured to abut against a second portion of the eyepiece of the scope. The mounting system can further include an adjustment mechanism that simultaneously moves the first securing portion and the second securing portion in opposing directions relative to each other.
US10785381B2
A method of providing coding instructions to a printer includes creating artwork design for a package and creating coding instructions associated with the artwork design, the coding instructions for printing a code on the package. The coding instructions are associated with the artwork design and transferred to a remote storage location. An identifier is provided with the package, package materials, or a component thereof to allow a user to retrieve the coding instructions for printing the code on the package.
US10785376B2
An image processing system comprises: an image processing device capable of displaying a screen; and a terminal device that communicates with the image processing device and operates the image processing device via a remote control. The image processing device sends the screen to the terminal device, thereby enabling the terminal device to display the screen, and determines an application to run on the terminal device based on the screen and sends application running information specified by the determination result or cooperative application information corresponding to the application running information, to the terminal device. The terminal device displays the screen received from the image processing device, and runs the application based on the application running information or the cooperative application information received from the image processing device.
US10785370B1
In various embodiments, a predictive dialer in a contact center is managed by a Communication Attempt Management System (“CAMS”) that manages the total number of communications attempts, including voice calls, originated to an individual associated with an account within a period of time. In particular embodiments, a list comprising account data of a plurality individuals may be processed by the CAMS to identify those accounts which have exceeded a weekly limit on the number of allowable communication attempts and are not authorized to receive further communications in that period of time. The list is modified to reflect those accounts which have not exceeded their corresponding limit and are authorized to be contacted. The modified list is provided to the predictive dialer, which then originates a call to each account. The CAMS may then update each account to reflect each communication attempt made by the predictive dialer.
US10785367B2
The present disclosure relates to audio processing methods and terminal devices. One example method includes determining, by a terminal device, an actual uplink gain based on a position relationship between an acoustic source and a microphone of the terminal device, and processing, by the terminal device, an audio signal from the acoustic source based on the actual uplink gain.
US10785348B2
Example implementations relate to segment size determination. In an example, the system may include a processing resource and a memory resource storing machine-readable instructions to cause the processing resource to determine a quantity of segments to be generated from a packet, and alter, in response to the determined quantity of segments and a memory block size of a destination port, a segment size for each of the quantity of segments.
US10785330B2
Various embodiments described herein provide for integration of digital experiences, such as virtual reality and augmented reality experiences experienced on a client device, with activities outside of the digital experience, such as activities outside the virtual world or environment presented by the virtual reality/augmented reality experience. For example, various embodiments enable implementation of a system that integrates a digital narrative experience, being experienced by a participant on their client device, with one or more activities of the participant outside of the digital narrative experience such that the one or more outside activities can influence the narrative experienced by the participant.
US10785321B2
A service function chain (SFC) based multi-tenancy processing method. The disclosed method allows isolation between SFC enabled domains while facilitating aggregation of tenant related data sets from SFC packet flows of various service function paths (SFPs) through cross domain bridges (CDB) in SFC enabled domains, delegators in a demilitarized zone, and a tenant aware service function (TASF). A CDB serves as a service function (SF) in a SFP and also serves as a classifier forwarding SFC packets to the demilitarized zone. A CDB gateway serves as a classifier in a delegator receives the SFC packets from the CDB. The TASF collects information from the SFC packets.
US10785320B2
Disclosed are various embodiments for an instance monitoring service. Instances are associated with alarm conditions indicating a deviation in the operational health of the instance. Upon an alarm condition being satisfied, a remedy operation may be applied to restore the operational health of the instance. A notification system may let customers know of satisfied alarms, and confirm or cancel remedy operations.
US10785316B2
A multilayer architecture for supporting variable networks is discussed. The architecture includes an application layer in communication with a simulation and network management layer and a coupling layer. The coupling layer interfaces with physical connections within a network device and the remaining layers; and wherein the simulation and network management layer sets one or more network parameters within the application layer.
US10785306B1
Implementations of this disclosure provide data transmission operations and network interface controllers. An example method performed by a first RDMA network interface controller includes obtaining m data packets from a host memory of a first host; sending the m data packets to a second RDMA network interface controller of a second host; backing up the m data packets to a network interface controller memory integrated into the first RDMA network interface controller; determining that the second RDMA network interface controller does not receive n data packets of the m data packets; and in response, obtaining the n data packets from the m data packets that have been backed up to the network interface controller memory integrated into the first RDMA network interface controller, and retransmitting the n data packets to the second RDMA network interface controller.
US10785300B2
An I/O management method includes determining local target I/O rates for a plurality of storage controllers across which an I/O stream is distributed. The local target I/O rates may reflect a target latency corresponding to a QoS attribute associated with the I/O stream. A cumulative target I/O rate may be determined based on the local target I/O rates. A token bucket rate may be calculated for each applicable storage controller based on the local target I/O rates. The storage controllers may implement token bucket algorithms in accordance with the token bucket rates to enforce the QoS for the I/O stream. The local target I/O rates may be determined periodically based on measured data indicating actual latency and traffic. A queue depth is determined based on the measured values of latency and traffic. The queue depth is then used with the desired value of latency to obtain the target I/O rates.
US10785298B2
A method and system are disclosed herein for accepting multimodal inputs and deriving synchronized and processed information. A reusable multimodal application is provided on the mobile device. A user transmits a multimodal command to the multimodal platform via the mobile network. The one or more modes of communication that are inputted are transmitted to the multimodal platform(s) via the mobile network(s) and thereafter synchronized and processed at the multimodal platform. The synchronized and processed information is transmitted to the multimodal application. If required, the user verifies and appropriately modifies the synchronized and processed information. The verified and modified information are transferred from the multimodal application to the visual application. The final result(s) are derived by inputting the verified and modified results into the visual application.
US10785297B2
Migrating and delivering datasets to mobile Internet of Things (IoT) devices is provided. A time is predicted for delivery of one or more datasets to a target intermediate data delivery destination closest to a current geographic location of a mobile IoT device based on context and type of each detected data delivery event and the current geographic location of the mobile IoT device. The one or more datasets are migrated to the target intermediate data delivery destination closest to the current geographic location of the mobile IoT device according to the predicted time. The one or more datasets are delivered to the mobile IoT device from the target intermediate data delivery destination closest to the current geographic location of the mobile IoT device based on the context and the type of each detected data delivery event that corresponds to a particular dataset in the one or more datasets.
US10785292B2
Systems and methods are provided for managing server loads that accounts for various measures of risk associated with different workloads assigned to servers. The systems and methods may include a memory storing instructions for server load management operations, and a processor configured to execute the stored instructions. The processor may receive a workload, determine a value associated with the workload indicating a predetermined importance of the workload, receive information for a plurality of active servers in a server cluster associated with the processor, determine risk levels associated with the active servers based on the received information, and assign the received workload to one of the active servers based on the determined value and the determined risk levels.
US10785286B2
Embodiments disclose systems, methods, and computer program products to perform an operation for proactively sending content to mobile devices. The operation generally includes receiving, from an application executing on a mobile device, a request to access content, and identifying, from a plurality of content items, at least a first content item responsive to the request. The operation also includes determining at least a second one of the content items based at least in part on the request, a context of the mobile device and feedback regarding at least one of the content items sent to the mobile device. The operation further includes generating a response to the request that includes at least the first content item and the second content item, and sending the response to the application.
US10785285B2
Disclosed is a file uploading and downloading method based on a smart device. According to which a unique ID of the smart device is obtained and entered into a mobile device, whereby a communication connection is established between the mobile device and the smart device through a proxy service. As such, the mobile device can download the relevant files within the smart device through the web service and the proxy service, while the smart device can also obtain the files uploaded by the mobile device through the proxy service and the web service.
US10785280B2
Described herein are methods, apparatus and systems for selectively delivering content through one of two communication channels, one being origin to client and the other being from or through a CDN to client. Thus a client may choose to request content from a CDN and/or from an origin server. This disclosure sets forth techniques for, among other things, distinguishing between which channel to use for a given object, using the CDN-client channel to obtain the performance benefit of doing so, and reverting to the origin-client channel where content may be private, sensitive, corrupted, or otherwise considered to be unsuitable from delivery from and/or through the CDN.
US10785268B2
A system for presenting media data to communication clients in the course of a communication data exchange between the communication clients in a telecommunication network includes: a storage engine, configured to store a plurality of media data files; an application control server, configured to receive media data file selection signals from at least one of the communication clients in the course of the communication data exchange, and to select media data files from the storage engine based on the received media data file section signals; and a communication processing server, configured to exchange media data with the communication clients and to retrieve the selected media data files from the storage engine, for simultaneously presenting the retrieved media data files at the communication clients in the course of said communication data exchange.
US10785267B2
A Home Subscriber Server (HSS) stores a service profile corresponding to a subscription of a user in a memory, and configures the service profile with data used by a Serving Call Session Control Function (S-CSCF) of an Internet Protocol Multimedia System (IMS) comprising the HSS. The HSS then sets, in the S-CSCF, a timer that controls processing of a service of the user by transmitting the service profile to the S-CSCF. The S-CSCF receives the service profile from the HSS, and uses the service profile to identify a rule comprising a timer value. The S-CSCF then controls processing of the service associated with the user by setting the timer in accordance with the timer value.
US10785245B2
Among other things, traces are received of activities of an online user who is associated with an entity. By analysis of the traces a security state of the entity is inferred. Also, a map is generated between (a) technical assets that contribute to security characteristics of respective entities and (b) the identities of the entities that are associated with the respective technical assets. At least part of the generating of the map is done automatically. A user can be engaged to assist in the generating of the map by presenting to the user through a user interface (a) data about the technical assets of entities and (b) an interactive tool for associating the technical assets with the identities of the entities.
US10785241B2
Features of multiple dimensions are extracted from information included in a URL access request. A risk score of the URL access request is obtained by providing the features to a predetermined URL attack detection model for prediction calculation, where the predetermined URL attack detection model is a machine learning model obtained through training based on the Isolation Forest machine learning algorithm. It is determined, based on the risk score, that the URL access request is a URL attack request.
US10785240B2
Protection from malware download is provided. A first input is received to access one of an email attachment or a web site link using an application. A newly generated secure virtual machine is obtained from one of a network server or a cloud computing service. The one of the email attachment or the web site link is sent to the newly generated secure virtual machine for processing.
US10785237B2
Streams of monitoring node signal values over time, representing a current operation of the industrial asset, are used to generate current monitoring node feature vectors. Each feature vector is compared with a corresponding decision boundary separating normal from abnormal states. When a first monitoring node passes a corresponding decision boundary, an attack is detected and classified as an independent attack. When a second monitoring node passes a decision boundary, an attack is detected and a first decision is generated based on a first set of inputs indicating if the attack is independent/dependent. From the beginning of the attack on the second monitoring node until a final time, the first decision is updated as new signal values are received for the second monitoring node. When the final time is reached, a second decision is generated based on a second set of inputs indicating if the attack is independent/dependent.
US10785234B2
In one example, a method includes for each one time period of a plurality of time periods performing a weighted random selection of a first set of intrusion detection/protection system rules from a plurality of rules, each rule of the plurality of rules having an associated probability of selection, preparing a packet inspection plan including the first set of intrusion detection/protection system rules, and sending the packet inspection plan to a network distribution device to inspect packets according to the packet inspection plan. Related apparatus and methods are also described.
US10785232B2
This specification describes techniques for performing cross-blockchain interactions. One example method includes generating, by a blockchain node in a first blockchain, a subscription request to a cross-chain interaction end between the first blockchain and a second blockchain. The blockchain node can then obtain a message from the second blockchain based on the subscription request, and subsequently perform an operation related to the obtained message. In some instances, the message obtained by the blockchain node is a message that is published in the second blockchain and satisfies subscription conditions of the blockchain node.
US10785230B1
An identity broker receives a request for access by a client device to a service provided by a server. In response to the request, the identity broker determines an identity of the client device using a client certificate. The identity broker also determines whether the client device is in a secure state. If the client device is secure, the identity broker sends an authentication request to an identity provider. After the identity provider authenticates the client device, the identity broker passes the authentication to the server, which establishes a session with the client device to provide the service.
US10785224B2
The event management system described is capable of aligning controlled content in a controlled content repository to properties of an event, e.g., event type, event topic, geographic location and product involved. When a user creates an event, controlled content associated with the event properties may be displayed so that the user may choose proper content for the event. When event content is updated in the controlled content repository, the latest version is pushed to the speaker so that only the latest version of the controlled content can be shared. Content displayed during a webinar and attendee participation data for the webinar may be tracked and stored in a CRM system.
US10785203B2
Methods, systems and media for presenting information related to an event based on metadata are provided. In some implementations, the method comprises: detecting that a user-initiated event has been performed on a user device; detecting a plurality of sensors connected to the user device; causing a plurality of content items related to the user-initiated event to be obtained using the plurality of sensors connected to the user device; determining whether each of the plurality of content items is to be associated with the user-initiated event based on user device information from a plurality of data sources; associating a portion of the plurality of content items with the user-initiated event based on the determination; retrieving information related to the portion of the plurality of content items; detecting, using the plurality of sensors connected to the user device, a second plurality of content items; determining that at least one of the second plurality of content items is related to at least one of the first plurality of content items; and causing information related to the user-initiated event to be presented by the user device based at least in part on the determination.
US10785202B2
A system and method for processing entitlement rights are disclosed. Content may be stored. A request for playback of the content may be received. A right of a user to view the content may be determined.
US10785197B2
Aspects of the disclosure relate to communication systems. In particular aspects relate to internet enabled wireless mobile devices, computer program products, non-transitory storage mediums, methods and systems for improving access to the internet.
US10785194B2
A method for execution by a processing unit in a dispersed storage network (DSN), the method includes creating a unique identifier for intent processing entities (IPEs) and when creating intents, encrypting the contents of intents using an associated intent encryption key (IEK). The method continues by the processing unit encrypting each IEK using a key associated with a trusted IPE (TIPE) to generate an encrypted IEK, followed by storing and transmitting the encrypted IEK, the encrypted contents of the intent, and the IPE ID to the target TIPEs.
US10785192B2
Various arrangements for performing secure domain name system (DNS) routing are presented. A secure signature may be generated using an internet protocol (IP) address of an authorized device. An encoded character string may be generated that comprises the IP address. The domain name server may receive a request for an IP address mapped to the hostname. The hostname may be validated using the secure signature. The IP address of the authorized device may be decoded from the encoded character string at least partially in response to the hostname being validated by the domain name server. The IP address decoded from the encoded character string may be transmitted at least partially based on the hostname being validated and the request for the IP address.
US10785191B2
A router includes a processor-readable medium including code representing instructions to cause a processor to perform operations. The operations include routing received information communicated from a first network to a component associated with a service within a second network, responsive to a determination that the received information is to be handled by a service that exists within the second network. The operations also include routing the received information to a predetermined component, responsive to a determination that the received information is to be handled by a service that does not exist within the second network.
US10785185B2
A system, method and program product for categorizing, analyzing, and continually aggregating unstructured communication data in the form of a query and responses. The method initially categorizes the conversation thread as a query and then uses natural language understanding technologies to start analyzing and extracting entities, sentiment and keywords. It then categorizes and aggregates those responses accordingly, providing the user with a continuously updated summary. The method groups the responses into Positive/Affirmative and Negative. The system can also determine conversations that need further action or response from the organizer by categorizing more complex individual responses that contain questions or action items. The method further analyzes an e-mail thread to identify a certain type of conversation, e.g., an RSVP/Poll, collect multiple responses, analyze the responses and tally up the results to create a summary that may be communicated back to the group thread originator according to a preferred messaging modality.
US10785184B2
Embodiments of a notification framework for smart objects (e.g., smart televisions) to deliver notifications to user devices are described. In one embodiment, a method includes a smart device sending an event-registration request to a server, the event-registration request including event information associated with an event associated with the smart device. The smart device may receive a code generated by the server in response to the event-registration request, the code being associated with the event information. The smart device may send the code to a user device through short-range wireless communication. By using the code, the user device may obtain from the server the event information associated with the event of the smart device.
US10785178B2
In one embodiment, a method includes receiving, by a mobile device associated with a user from one or more computing devices associated with a social-networking system, content for a notification and instructions to display the notification in a user interface of the application, and displaying the content for the notification as a structured card over a background in the user interface. The method may include detecting a user interaction with the notification. The method may then include sending information about the user interaction with the notification to a third-party server associated with the application.
US10785174B2
A messaging system for a live event is described. A processing device presents a live event having at least one participant. The processing device presents one or more participant messages within a native messaging interface associated with the event. The processing device also presents one or more viewer messages within the native messaging interface. The viewer messages are integrated with the participant messages and the viewer messages are entered via a non-native messaging interface.
US10785170B2
A method of communicating messages between modules in a system on a vehicle, each module configured as a publisher node and/or subscriber node, the publisher nodes and the subscriber nodes collectively forming a plurality of nodes that communicate in the operation of the vehicle. One method includes communicating, by a subscriber node, with a registry for information to determine if a new message associated with a first topic is available for reading, determining, by each subscriber node, if a new message associated with the first topic is available for reading, in response to determining a new message associated with the first topic is available for reading, reading from the registry location information indicating where the first message is stored in a first message buffer, and reading, by each subscriber node the first message from the first message buffer using the location information.
US10785168B2
A method for allocating a virtual resource based on a blockchain, including: receiving a resource allocation transaction sent by a client, wherein the resource allocation transaction includes a user identifier of a target user; in response to the resource allocation transaction, invoking verification logic in a smart contract deployed in the blockchain to verify whether a service indicator of the target user within a preset service cycle satisfies a virtual resource allocation condition; and when the service indicator satisfies the virtual resource allocation condition, invoking virtual resource allocation logic in the smart contract to allocate a preset amount of virtual resources to the target user from a virtual resource pool and transfer the preset amount of virtual resources to a blockchain account corresponding to the user identifier, wherein virtual resources in the virtual resource pool are associated with service profits of a service operator corresponding to a service of the target user.
US10785161B2
A method is provided by which a network adapter device receives a packet sent over a network from a peer, the packet including an enqueue timestamp indicating when the packet has been enqueued at the network adapter device. The network adapter device parses a header of the packet to detect whether the header includes bits indicating that the peer device is experiencing congestion, and obtains packet metadata of the packet and the enqueue timestamp of the packet. The network adapter device compares the packet metadata with information in a flow table to identify an entry in the flow table corresponding to a flow to which the packet metadata matches. The network adapter device sets a timer associated with the flow, the timer for use in scheduling transmission of a next packet provided by the host to be sent to the peer.
US10785160B2
The present application discloses a congestion control method and an apparatus. The method includes: receiving, by a root node network element, a first link notification message; determining, based on the link status information of the first link, that the first link is congested; determining an identifier of a first leaf node network element based on a correspondence between an identifier of the first port and the identifier of the first leaf node network element; determining a service queue of the first leaf node network element based on a correspondence between the identifier of the first leaf node network element and an identifier of the service queue of the first leaf node network element; and lowering output bandwidth of the service queue of the first leaf node network element.
US10785159B2
A network device for a communications network includes a port configured to transmit data to the network at a maximum transmit data rate. The device also includes a transmit buffer configured to buffer data units that are ready for transmission to the network, and a packet buffer configured to buffer data units before the data units are ready for transmission. The packet buffer is configured to output data units at a maximum packet buffer transmission rate faster than the maximum transmit data rate. The device includes a rate controller configured to control a transmission rate of data from the packet buffer to the transmit buffer so that averaged over a period, the transmission rate from the packet buffer to the transmit buffer is at most equal to the maximum transmit data rate, while allowing the transmission rate, at one or more time intervals, to exceed the maximum transmit data rate.
US10785154B2
Embodiments of the present disclosure generally relate to managing phys of a data storage target device. In one embodiment, a method of managing phys of a data storage target device includes waiting to receive a host address on a target phy and transmitting a target phy address for the target phy after waiting to receive the host address on the target phy. In another embodiment, a method of managing phys of a data storage target device includes configuring a target port comprising a first target phy and reconfiguring the target port comprising a first target phy and a second target phy.
US10785151B2
An embodiment includes a plurality of tables in a hardware network for performing packet processing. Each table in the plurality of tables includes a table declaration. The table declaration includes a first set of fields used for input matching and a second set of fields used as inputs for action processing. A first table is selected from the plurality of tables. Successor tables to the first table are selected from the plurality of tables. There is a third set of fields for each successor table of the successor tables. The contents of the third set of fields are output fields where the output fields are modified by the first table when a next table of the first table is the successor table of the first table.
US10785142B2
An inter-provider network architecture system is disclosed. In particular, the system may enable a service provider network and a partner network to take advantage of each other's network cores, such that the resources of the service provider network and the partner network may be more effectively utilized to service customers of both networks. By doing so, not only can the service provider network and the partner network take advantage of each other's network resources, but they can also give each other's customers broader network reach into regions that are not typically serviced by their own networks. The service provider network may effectively accomplish this by providing a limited view of the service provider network to the partner network, or vice versa, so that traffic and data can flow between the networks without each network having to be fully aware of each other's entire network topologies.
US10785137B2
Dataplane-based Seamless Bidirectional Forwarding Detection (S-BFD) monitoring for network entities is provided. In one embodiment, a method of S-BFD monitoring includes assigning, by a network element, a unique segment identifier (ID) to each entity of a plurality of entities that are monitored by the network element. The method includes receiving an S-BFD control packet at the network element, including a first segment ID associated with a particular entity. The method also includes performing a lookup operation for the first segment ID in stored data of the network element. Based on the lookup operation, when a first action is designated in the stored data for the first segment ID, the method includes returning the S-BFD control packet to its source, and, when a second action is designated in the stored data for the first segment ID, the method includes forwarding the S-BFD control packet to an S-BFD reflector session.
US10785135B2
Systems and methods for timeline representations of trip phases of a mobile vehicle are described. A method may include receiving operational events associated with a voyage of the mobile vehicle. The operational events may include events such as take-off, landing, door open, door closed, engine started, or other types of operational events. Each operational event may have a corresponding event time at which the event occurred or was detected. The method may include receiving network metric values for network communication metrics associated with a network service on the mobile vehicle. Each network metric value may have a corresponding value time at which the metric was measured or detected. The operational events and network communication metrics may be displayed in a time-aligned manner on a timeline representation over a time range indicated by a user.
US10785132B2
A method for monitoring browsers (B) for a communications network (N), wherein a monitoring server contains a set of monitoring elements, and implements:—a step (E1) of receiving a monitoring element request from a browser (B),—a step (E2) of determining whether the request is a first request from the browser,—if so, a step (E3) of calculating an identifier for the browser, then a step (E4) of determining a cache duration value associated with each monitoring element of the set, and a step (E5) of transmitting the set of monitoring elements and associated values to the browser;—if not, a step (E6) of determining the browser's identifier based on the monitoring elements requested in the request.
US10785131B2
A system and method for synchronous and asynchronous monitoring of network resources is provided. In an example system, an asynchronous monitoring engine is in communication with the network resources and receives asynchronous data from a portion of the network resources. The asynchronous data is collected at an application layer or at an end-user application layer. A synchronous monitoring engine is also in communication with the network resources and accesses synchronous data in the application layer in response to receiving a request from the asynchronous monitoring engine. The system further identifies an anomaly corresponding to the asynchronous characteristic and the synchronous characteristic.
US10785127B1
Various example embodiments for supporting services within a distributed cloud network are configured to support capabilities for solving a cloud service distribution problem for a set of services to be deployed within a distributed cloud network in order to determine the placement of service functions of the services within the cloud network, the routing of service flows of the services through the appropriate service functions of the services within the cloud network, and the associated allocation of cloud and network resources that support the deployment and routing of the services within the cloud network. Various example embodiments for supporting services within a distributed cloud network are configured to support capabilities for solving a cloud service distribution problem for a set of services to be deployed within a distributed cloud network in a manner for reducing or even minimizing the overall cloud network cost in the distributed cloud network.
US10785125B2
Aspects of the subject disclosure may include, for example, a method including obtaining a first set of votes from devices that are registered and enabled by a registration system to form a first network communicating with a processing system. The first set of votes relate to performance of a target device and indicate conformance to performance criteria for the first network. The processing system receives a reputation score for the target device from the registration system, and receives a second set of votes regarding target device performance from voting systems over a second network comprising a peer network including the processing system and the voting systems. The first and second sets of votes and the reputation score are aggregated to generate an updated reputation score for the target device. The registration system disables the target device when the reputation score falls below a threshold. Other embodiments are disclosed.
US10785123B2
In one embodiment, the system determines network performance metrics in a number of geographic areas within a communication network based on application data of end users. The system receives, from a client system, a query for geographic areas of interest specifying network performance criteria based on network performance metrics and corresponding thresholds. The system identifies geographic areas of interest matching the network performance criteria of the query. The system determines, for each geographic area of interest, network performance features based on network performance metrics derived from application data collected from the geographic areas of interest. The system generates optimization recommendations for one or more of the geographic areas of interest. The optimization recommendations are customized for the geographic areas of interest based on the performance features associated with the respective geographic areas of interest. The system sends, to the client system, instructions for presenting the optimization recommendations.
US10785119B2
A computerized service including interconnected components within a computer network is monitored using entry points of a service model corresponding to the computerized service. A discovery process is performed by a discovery mechanism based on an initial entry point of a computerized service. A service model is generated based on results of the discovery process. The service model includes indications of a plurality of components of the computerized service and indications of a plurality of entry points including the initial entry point and at least one additional entry point used for communication between ones of the plurality of components. Using a monitoring mechanism, at least one entry point of the plurality of entry points is tested using at least one protocol associated with the at least one entry point. An event generated based on the test is then processed, such as to identify alerts associated with the computerized service.
US10785117B2
Techniques for providing a backup network path using a standby wide area network (WAN) link with reducing monitoring. Packet loss and latency metrics are monitored for network paths in an adaptive private network (APN) connecting a first user and a second user according to control traffic operating at a first control bandwidth for each network path. A determination is made that a first network path uses a standby WAN link, has packet loss and latency metrics indicative of a good quality state, and has at least one characteristic that identifies the first network path as a backup network path. The control traffic is then reduced for the backup network path to a second control bandwidth substantially less than the first control bandwidth. The backup network path is made active when the number of active network paths is less than or equal to a minimum number.
US10785112B2
Methods, systems, and computer readable media can be operable to output troubleshooting and/or setup information associated with a device from a server within the device. In embodiments, troubleshooting and/or setup information is output from within the device to a subscriber when the device detects that an issue or failure exists with the device's connection to a network. A data or service request received from a subscriber can be rerouted to a server within the receiving device, and troubleshooting and/or setup information can be output as a result.
US10785109B1
A device may receive a set of design parameters for a network service. The set of design parameters may include information that identifies one or more network functions associated with the network service. The device may determine attribute information associated with a plurality of virtual network functions (VNFs). A VNF, of the plurality of VNFs, may be configurable to perform at least one network function of the one or more network functions. The device may generate a network service design, associated with providing the network service, based on the set of design parameters and the attribute information. The network service design may include information identifying one or more VNFs, of the plurality of VNFs, that are capable of providing the network service in accordance with the set of design parameters. The device may provide information associated with the network service design.
US10785104B1
A mechanism automatically reconfigures and later restores the network configuration and settings for network devices installed at one location according to configuration and settings of corresponding network devices installed at another location. This enables a user to access these network devices the same way in both locations. This mechanism further avoids having to perform any network reconfiguration of mobile devices that may be carried between the two locations.
US10785098B1
This disclosure relates to network configuration using multicast address modulation. In one aspect, a method includes dividing data for completing network configuration of a device. Multiple packets are selected from the divided data. A total length of data in the multiple packets is obtained. Multicast address modulation is performed on indexes of the multiple packets to obtain a multicast target address. Data in the multiple packets is parsed based on the total length of the data in the multiple packets and the multicast target address.
US10785097B2
The present invention relates to an improved method of controlling interaction between network-enabled devices. In a network comprising multiple control devices, the selection of a control device can enable the mitigation of privacy risks and security risks and can further avoid frequent communications between network-enabled devices and an internet-based service (which increase power usage) as well as prevent devices becoming uncontrollable (based on failure of the network-enabled devices to connect to an internet-based service for control). The method comprises the steps of a user selecting an interaction schedule (102) and selection of a control device (104) as well as configuration of devices (106), based on said interaction scenario and said control scenario.
US10785087B2
Embodiments of the present disclosure relate to improving computer performance. An action may be issued to a first client and a second client. A first optimization factor list (OFL) may be generated for the first client and a second OFL may be generated for the second client. After each OFL is generated, the first OFL may be compared to the second OFL. A correlation factor (CF) may be generated between the first client and the second client based on the OFL comparison, wherein the CF indicates a level of similarity between the first client and the second client. A bottleneck causing performance issues in the first client may be determined and computer configuration of the first client may be adjusted based on the bottleneck.
US10785084B2
A coding and modulation apparatus and method are presented, particularly for use in a system according to IEEE 802.11. The apparatus comprises an encoder configured to encode input data into cell words according to a low density parity check code, LDPC, and a modulator configured to modulate said cell words into constellation values of a non-uniform constellation and to assign bit combinations to constellation values of the used non-uniform constellation, wherein said modulator is configured to use, based on the PHY mode, the total number M of constellation points of the constellation and the code rate, a particular non-uniform constellation.
US10785081B2
A wireless communication transceiver comprising circuitry configured to send or receive, via a wire-less link, an indicator indicating a Non-Uniform Constellation pattern out of a plurality of Non-Uniform Constellation patterns.
US10785080B2
Methods, systems, and devices for wireless communications are described. In some systems, base stations and user equipment (UEs) may use beamforming for transmitting random access channel (RACH) messages. A UE may transmit multiple RACH preamble messages (e.g., within a random access response (RAR) window) to initiate a RACH procedure. The UE may transmit the RACH preamble messages in transmission opportunities corresponding to reference signals received from the base station. In some cases, the UE may determine the number of RACH preamble messages to transmit within the RAR window based on an ability of the UE to simultaneously monitor for a RAR message in response to each of the transmitted messages. In other cases, the UE may transmit an indication of UE capabilities to the base station. The base station may determine a RACH resource configuration for the UE based on the capabilities and may indicate the configuration to the UE.
US10785079B2
A method and apparatus are provided. The method includes receiving a reference signal from a transceiver, estimating a time offset (TO) of the reference signal in the frequency domain based on a spectral phase ramp introduced by the TO, compensating the TO of the reference signal based on the estimated TO in the frequency domain by applying the spectral phase ramp to the received reference signal, and providing a TO compensated signal of the reference signal.
US10785074B1
A synchronizer generates cross-products of In-phase (I) and Quadrature (Q) samples and stores the sign bits for the sine and cosine cross-products. The sign bits are compared to a local reference of a frame-start bit-sequence and the compare results accumulated as I and Q correlations for symbol and half-symbol sampling. Linear combinations of the accumulated I and Q correlations for the symbol and half-symbol sampling generate linear combination results for frequency bins that peak at a different implied Carrier Frequency Offset (CFO) settings. The maximum of the linear combination results is selected and the implied CFO setting for that frequency bin is applied to a demodulator to adjust the receiver's CFO setting and bit synchronization. Computational complexity is reduced since only the sign bit of each cross-product is retained for correlation with the frame-start bit-sequence. Linear combinations can support a wide CFO range.
US10785067B2
A device includes a voltage generator that generates a reference signal, a multi-level bias generator coupled to the voltage generator to receive the reference signal and generate a plurality of bias level signals based at least in part on the reference signal. The multi-level bias generator transmits the plurality of bias level signals to a plurality of multiplexers that each receive a select signal to select a subset of bias level signals of the plurality of bias level signals. The device also includes an adjustment circuit of a decision feedback equalizer that receives a respective selected subset of bias level signals from one multiplexer of the plurality of multiplexers and utilizes the respective selected subset of bias level signals to compensate for inter-symbol interference of a bit due to a previously received bit of a bit stream.
US10785065B2
Aspects of the present disclosure are directed to facilitating communications to respective circuit nodes in a manner that may also be useful for mitigating undesirable signal attenuation. As may be implemented in accordance with one or more embodiments, switchable isolation circuits, presented by at least one transformer and switch, are utilized to isolate adjacent data processing nodes on a bus in which each data processing node includes logic circuitry and processes signal therein. For each of the switchable isolation circuits, switching circuitry operates to mitigate communication propagation over the differential bus between adjacent data processing nodes, by switching the switchable isolation circuit for providing isolation. This approach may be utilized, for example, to assign sequential identification to daisy-chained circuit nodes upon start-up or reset, for use in addressing each node directly for further communication therewith.
US10785062B2
The present disclosure relates to a state feedback decoder based channel estimating method including: calculating a first output bit when an input bit is 0 and a second output bit when an input bit is 1 using convolution encoder state information received from a determining unit; configuring a first virtual pilot and a second virtual pilot through modulation by receiving the first output bit and the second output bit; deinterleaving an i-th (here, i refers to a natural number corresponding to the number of OFDM symbols from 1) OFDM symbol; estimating a first channel and a second channel based on the first virtual pilot and the second virtual pilot using an output value in accordance with the deinterleaving result and calculating a first mean square error (MSE) and a second MSE; and comparing the calculated first MSE and second MSE to determine an input bit having a lower MSE as a reception bit by the determining unit and updating and feedbacking the convolution encoder state information using the determined reception bit.
US10785061B2
A propagation channel estimation method is provided. In-phase and quadrature components of a propagation channel estimation value in each pilot subcarrier are separated into amplitude and phase components. A propagation channel of a data subcarrier portion existing between pilot subcarriers is estimated by phase/amplitude separation linear interpolating in each separated amplitude and phase component. A reference parameter is produced by linear interpolating a portion between pilot subcarriers on a complex plane. When quadrants on the complex plane of the interpolated phase component estimation value and the reference parameter are different, a phase connecting process to cancel a discontinuity of the phases is executed to the phase component estimation value interpolated by the phase/amplitude separation linear interpolation. When the quadrants are not different or after the phase connecting process, a complex propagation channel estimation value of the data subcarrier portion is calculated from the phase and amplitude components of the propagation channel estimation value.
US10785051B2
A mobile terminal includes: a display; a radio communication unit configured to exchange data with a server; and a controller configured to perform various operations. For example, in response to an input to execute an application associated with a home appliance, the controller to control a screen of the application associated with the home appliance to be displayed on the display. In response to a simple login item on the screen of the application being selected, the controller to control the radio communication unit to create a simple login ID account based on device information of the mobile terminal, and to transmit data including information on the created simple login ID account to the server. Additionally, in response to an account login item on the screen of the application being selected, the controller to control the radio communication unit to transmit data including user account information to the server.
US10785041B2
A method for providing a space puzzle includes computing, by a puzzle generating entity (PGE), a master secret key (MSK), a public key (PK), a random predicate (RP), and a secret key (SK) using the computed MSK and the computed RP; providing, by the PGE, a challenge comprising the PK and the SK to a proving computing entity; computing, by the proving computing entity, a response to the challenge using a size of the RP by computing a higher dimensional virtual structure; encrypting each row of the higher dimensional structure with the PK; decrypting the encrypted rows using the SK to obtain a decrypted predicate; recomputing the RP using the decrypted predicate and the higher dimensional virtual structure to provide a recomputed random predicate; and verifying the provided challenge by comparing the recomputed random predicate with the RP.
US10785023B2
An apparatus and method for managing meter data. The apparatus for managing meter data includes a metering unit for acquiring meter data from a target device based on time information; a communication unit for receiving a message including the time information from a server device and transmitting the meter data to the server device; and a security unit for creating a private key using the time information and encrypting the meter data using the private key.
US10785022B2
A network includes a logical network and a physical network. The logical network includes a plurality of logical nodes. Each logical node is connected to a respective identification core. Each identification core includes at least one semiconductor chip having a physical randomness. Each semiconductor chip generates one of a plurality of pairs of private keys and public keys based on the physical randomness thereof according to an input received by the one of the at least one semiconductor chip under a public key cryptography. One of the public keys is regarded as a logical address of one of the logical nodes, which is connected to one of the identification cores. The physical network includes a plurality of physical nodes. Each identification core is one of components in each physical node. The logical network is uniquely linked to the physical network by the pairs of private keys and public keys.
US10785020B2
A system for hardware offloading programs a network interface card with a mapping between (i) a connection identification (CID) for one or more Quick User Datagram Protocol Internet Connections (QUIC) data packets and (ii) a symmetric key and a crypto algorithm. When one or more data packets are received over a network, the one or more data packets are parsed to identify the one or more data packets as QUIC data packets and then obtain the CID for the QUIC data packets. The CID is sent to the network interface card that identifies the symmetric key and the crypto algorithm based on the CID to perform a crypto decrypt operation on the QUIC data packets, and reassembles the QUIC data packets, and an encrypt and large send offload (LSO) on transmit. A software control complexity and processing burden is thereby reduced.
US10785015B1
Methods, systems, and apparatus for EM communications. One of the apparatus includes a plurality of receive samplers arranged in parallel and configured to receive an amplitude modulated input signal, each sampler being clocked at a same rate but not a same phase, the rate being in relation with the input signal; a plurality of envelope extractors, wherein each envelop extractor is communicatively coupled to a respective output of one of the plurality of receive samplers, and wherein each envelope extractor is configured to extract the envelope of the input signal after sampling; and a combiner communicatively coupled to the envelope extractors to combine the signal envelopes sampled at their respective phases, creating a combined output that provides an approximate copy of the input signal envelope, providing an output signal for performing symbol synchronization.
US10785001B2
A physical downlink shared channel (PDSCH) region of a subframe may include a reference signal (RS) section that includes one or more of a beam-scanning subsection, a transmit (TX) beam-tracking subsection, a receive (RX) beam-tracking subsection, and a channel state information (CSI) subsection. Reference signals in the TX beam-tracking subsection may be used to update TX analog beams. Reference signals in the RX beam-tracking subsection may be used to update RX analog beams. Reference signals in the beam-scanning subsection may be used to evaluate different combinations of TX and RX analog beams for use in a future directional data transmission. Reference signals in the CSI subsection may be transmitted over quasi-co-located (QCL) antenna ports, and may be used for purposes of channel estimation.
US10784999B2
Techniques and apparatuses described herein facilitate narrowband communication within the unlicensed frequency spectrum by simultaneously transmitting (e.g., in adjacent channels) a plurality of anchor channels. For example, a base station may simultaneously transmit at least three anchor channels of 180 kHz each so that the 500 kHz minimum bandwidth requirement is satisfied. Furthermore, the techniques and apparatuses described herein provide discovery reference signal (DRS) structures to cause the different types of DRS to be repeated and/or transmitted on different anchor channels, which improves frequency diversity. Also, a synchronization signal of the anchor channels may be used to indicate a configuration of the anchor channels. Thus, synchronization in the NB-IoT-unlicensed (NB-IoT-u) spectrum is enabled, and efficiency is improved over synchronization using a single anchor channel.
US10784994B2
The present invention relates to a wireless communication system. More specifically, the present invention relates to a method and a device for transmitting information for LTE-WLAN aggregation system, the method comprising: checking, by a Packet Data Convergence Protocol (PDCP) entity, whether a FCI transmission condition is met or not; and transmitting Flow Control Information (FCI) when the FCI transmission condition is met.
US10784988B2
Techniques are described for performing conditional forward error correction (FEC) of network data. The techniques and solutions can be applied to suppress the transmission of redundant forward error correction information for data (e.g., frames of audio and/or video data) that can be effectively recovered at the receiving device (e.g., at the decoder). For example, a first computing device that is encoding and transmitting data (e.g., encoded audio data) to a second computing device can determine whether portions of data can be predicted (e.g., to a certain quality measure) at the second computing device. If the portions of data can be predicted, then the first computing device can skip sending redundant copies of the portions of data (e.g., can skip sending forward error correction information) in current network packets.
US10784986B2
Aspects of the embodiments are directed to systems, methods, and devices that can activate forward error correction (FEC) based on the channel loss of a channel. The channel's loss can be characterized as a high loss channel if the channel loss exceeds a predetermined threshold value. For channels with high loss and for those that operate at high data rates (e.g., data rates commensurate with PCIe Gen 4 or Gen 5), FEC can be activated so that the channels can achieve higher data rates.
US10784985B2
A WLAN link adaptation method and a network device are provided, and can provide accurate link adaptation for each user in an OFDMA communications system. Embodiments of the present application include: obtaining, by a first network device, a target channel information measurement result, where the target channel information measurement result is a measurement result obtained by measuring channel information over target bandwidth; and determining, by the first network device, a modulation and coding scheme MCS of a link according to the target channel information measurement result.
US10784982B2
Provided are a method and system for allocating wavelength channels in a Passive Optical Network (PON), and an Optical Line Terminal (OLT). In the method, an OLT may acquire pre-set wavelength channel priority information and Optical Network Unit (ONU) priority information; and the wavelength channel priority information and the ONU priority information may be sent to each ONU to enable each ONU to selectively access a corresponding wavelength channel according to the wavelength channel priority information and the ONU priority information based on a pre-set rule.
US10784970B2
Embodiments disclosed herein may be implemented in the form of a method or corresponding apparatus for receiving or transmitting network communications carried at acoustic wavelengths via an acoustic medium. The corresponding method or apparatus may include a gate-level digital hardware module communicatively coupled to a communications module and define therein logic blocks configured to perform respective primitive processing functions, sequences of the logic blocks being capable of processing data units in accordance with any of the multiple communications protocols on a data unit-by-data unit basis without reconfiguring. According to some embodiments, the gate-level digital hardware module may be configured to process a data unit in accordance with a first communications protocol by directing the data unit through a first sequence of logic blocks, and process a subsequent data unit in accordance with a second communications protocol by directing the subsequent data unit through a second of sequence logic blocks.
US10784965B2
A method selects a phase shift profile to be applied to a programmable optical phase shift modulator having an array of pixels. A base stepped phase shift profile for the modulator is selected such that when applied to the modulator, the base stepped phase shift profile allows the modulator to function as a blazed grating steering an optical beam through a prescribed angle. The base stepped phase shift profile has a plurality of segments each extending over a given number of the pixels defining a linear array of pixels. Each segment has first and last pixels in the linear array of pixels. Variations in minimum and maximum luminosity levels among the segments of the base stepped phase shift profile are reduced so that any changes to a slope of each segment arising from reducing the variations in the minimum and maximum luminosity level is maintained below a given amount.
US10784964B2
Methods and systems for a distributed optical transmitter with local domain splitting is disclosed and may include, in an optical modulator integrated in a silicon photonics chip: receiving electrical signals, communicating the electrical signals to domain splitters along a length of waveguides of the optical modulator utilizing one or more delay lines, and generating electrical signals in voltage domains utilizing the domain splitters for modulating the optical signals in the waveguides of the optical modulator by driving diodes with the electrical signals generated in the voltage domains. The delay lines may comprise one delay element per domain splitter, or may comprise a delay element per domain splitter for a first subset of the domain splitters and more than one delay element per domain splitter for a second subset of the domain splitters.
US10784959B2
A method supported by a first terminal is provided herein. To implement the method, a camera of a first terminal performs two or more captures of two or more frames along a line of sight toward a second terminal. A controller of the first terminal manipulates the two or more frames to produce two or more interim images and analyzes the two or more interim images to track a beacon of the second terminal. The controller outputs coordinates with respect to the tracked beacon to a mirror package of the first terminal.
US10784957B2
A method and device for controlling a wavelength of a light emitting assembly. The device comprises a microcontroller, a light emitting assembly temperature control unit, an analog-to-digital converter, a digital-to-analog converter, a storage unit, a thermistor of a negative temperature coefficient in a TOSA component, and a TEC assembly. The microcontroller comprises an ADC input interface, a DAC output interface, a GPIO output interface, an external communication interface, and a memory interface. The light emitting assembly temperature control unit comprises a turn-off enable control circuit, a temperature detecting circuit, an error amplification-comparison-compensation unit, a TEC voltage/current limitation circuit, a TEC voltage/current detecting circuit, and a TEC differential voltage driver. The method and device are simple and flexible, implements a precise control of the wavelength, and also considers an adjustment function of the wavelength.
US10784946B2
A communication device including a first directional antenna and a second directional antenna which may each be set to any one of a plurality of main beam directions for radio communication, a transceiver configured to determine a reception quality for at least some of the plurality of main beam directions using the first directional antenna and for at least some of the plurality of main beam directions using the second directional antenna, select a main beam direction of the plurality of main beam directions based on the reception qualities determined by the first directional antenna and based on the reception qualities determined by the second directional antenna, and perform communication using the selected main beam direction.
US10784945B2
Systems, methods, apparatuses, and computer program products for robust system information (SI) delivery are provided. One method may include receiving, by a network node, a SI request from a UE, and transmitting an acknowledgement of the SI request to the UE. In one example, the method may include selecting, by the network node, a subset of downlink beams for transmitting the requested SI message. In an embodiment, the selecting may include selecting the subset of downlink beams based on SI requests associated with SS/PBCH blocks, and the subset of downlink beams associated with the SI requests are used for the delivery of an SI message.
US10784944B2
A wireless device receives message(s) comprising configuration parameter(s) indicating reference signal(s) of a cell. The configuration parameter(s) may indicate one or more preambles for a beam failure recovery procedure. The configuration parameter(s) may indicate a time alignment timer of a timing advance group comprising the cell. The time alignment timer may start in response to receiving a timing advance command for the timing advance group. The beam failure recovery procedure may be initiated in response to detecting a beam failure of the cell. The beam failure of the cell may be detected based on the reference signal(s) of the cell. A preamble of the one or more preambles may be transmitted for the beam failure recovery procedure. The beam failure recovery procedure may be aborted in response to an expiry of the time alignment timer during the beam failure recovery procedure.
US10784935B2
A wireless transmitter includes a signal processing circuit configured to generate a plurality of first and second spatial streams signals. The transmitter includes a frequency shift circuit configured to selectively apply different frequency shifts to the first and second spatial streams signals. A wireless receiver includes a frequency shift circuit configured to selectively apply different frequency shifts to the received first and second spatial streams signals. The receiver also includes a signal processing circuit configured to process the first and second frequency shifted signals.
US10784934B2
Methods, systems, and devices for wireless communication are described that support a low peak-to-average power ratio (PAPR) precoded reference signal design for multiple-input, multiple-output (MIMO) transmissions. A user equipment (UE) may identify multiple sets of symbols associated with different reference signal waveforms, where each reference signal waveform may be associated with a low PAPR. In some cases, different single-carrier reference signal waveforms may be mapped to subsets of frequency resources through frequency division multiplexing (FDM) for a transmission on a single antenna. However, the addition of single-carrier waveforms through FDM for a transmission via an antenna may result in an uplink transmission having a high PAPR (e.g., as compared to single-carrier waveforms). The UE may reduce the PAPR of the uplink transmission by multiplexing the reference signal waveforms in the time domain (e.g., using time division multiplexing (TDM)).
US10784926B2
There is provided a configuration that can prevent malfunction in bus communication even when a radio signal transmitted from a transmitter of an apparatus is received with a receiver of the same apparatus. A logic circuit outputs logic 1 to a transmitter in a case where logic 0 is input from a receiver to the logic circuit and a low-level logic signal is input from a processor to the logic circuit. The logic circuit outputs the low-level logic signal to the processor in a case where the logic 1 is input from the receiver and a radio signal received with the receiver is a radio signal transmitted from a communication counterpart. The logic circuit outputs a high-level logic signal to the processor in a case where the logic 1 is input from the receiver and a radio signal received with the receiver is a radio signal transmitted from the transmitter.
US10784923B2
A receiving apparatus includes: a capacitance element connected to a receiving side of a transmission line through which a transmission signal is transmitted, and where a direct current flowing through the transmission line changes in accordance with a logic level of a data signal; a transistor configured to amplify a current flowing between a receiving-side node and a power supply node to which a power supply potential is supplied, where the receiving-side node is positioned between the transmission line and the capacitance element; and a data signal generator configured to generate the data signal based on the current amplified by the transistor.
US10784921B2
The disclosed systems, structures, and methods are directed to a receiver architecture. The configurations presented herein employ a structure operative to receive a plurality of wireless analog signals, a signal encoding module configured to encode the plurality of received analog signals into a single encoded analog signal based on a coding scheme, a code compression module operative to compress the code scheme. In addition, a spectrum compression module is configured to under-sample the single encoded analog signal to generate a spectrum-compressed digital signal, a spectrum recovery module operative to recover desired information content of the received analog signals from the spectrum-compressed digital signal and to generate a digital recovery signal, and a signal detection module configured to decode the digital recovery signal based on the coding scheme and to output analog signals replicating the received wireless signals containing the desired information content.
US10784920B2
Methods and apparatus are disclosed for detecting a wirelessly detectable object. The wirelessly detectable object may include an antenna and a passive variable-frequency transponder circuit that is communicatively coupled to the antenna. The passive variable-frequency transponder circuit is powered by an interrogation signal received from an external source, and returns via the antenna a wireless response signal having a frequency that varies over a single interrogation cycle. Such variation may be based upon a decaying control voltage that controls the value(s) of one or more components in the passive variable-frequency transponder circuit and/or a switch that selectively couples and decouples components in the passive variable-frequency transponder circuit. The variable frequency may provide a characteristic signature for the wireless response signal that may be used to identify the wirelessly detectable object.
US10784918B2
A discrete spectrum (DS) signal transmitter includes a first circuit element comprising a DS signal generator that generates a plurality of DS signals, each DS signal having a different DS frequency, each DS frequency being (a) a harmonic of a fundamental frequency or (b) the fundamental frequency. A second circuit element receives as an input the DS signals and that generates as an output (a) a finite summation of the DS signals or (b) pulses that represent a mathematical equivalent of a summation of an infinite number of the DS signals. An antenna is electrically coupled to an output of the second circuit element. The analog DS signals transmitted by the DS signal transmitter are received by a DS signal receiver that converts the analog DS signals to DS discrete signals and performs a fast Fourier transform of the DS discrete signals.
US10784914B1
The invention relates to a smart mobile phone shell. The smart mobile phone shell includes a shell body, a fixing component, a rotating component and a support ring. The invention has the effects of easy disassembly and safe use while safely protecting mobile phone.
US10784911B2
A local oscillation device according to the present invention includes: a first local oscillator to output a first local oscillation wave synchronized with a reference signal, the first local oscillator being turned on/off on the basis of a control signal; a second local oscillator to output a second local oscillation wave synchronized with the reference signal and the same in frequency and phase as the first local oscillation wave, the second local oscillator being turned on/off on the basis of the control signal; and a path switching circuit coupled to the first local oscillator and the second local oscillator, the path switching circuit switching paths of the first local oscillation wave and the second local oscillation wave on the basis of the control signal or a signal synchronized with the control signal.
US10784900B2
A rate matching method for a polar code is provided, to improve performance. The method includes: encoding, based on an N*N encoding matrix of a polar code, a sequence including N first bits, to generate a mother code including N second bits, where the N first bits are in a one-to-one correspondence with N rows in the encoding matrix in sequence, and the N second bits are in a one-to-one correspondence with N columns in the encoding matrix in sequence; determining N−M to-be-punctured second bits from the N second bits, where at least one first bit in N−M first bits participating in encoding of the N−M second bits belongs to the first M first bits in the N first bits, and the N−M first bits are fixed bits; and puncturing the N−M second bits, to obtain a target polar code including M second bits.
US10784890B1
A signal processor and a method for processing an input signal are presented. The signal processor is adapted to clip an oversampled input signal without introducing noise in the frequency band of interest. For instance, the signal processor may be used for clipping an acoustic signal. The signal processor includes a summer coupled to a limiter and to a feedback circuit. The summer is adapted to sum the input signal with at least one feedback signal to provide an adjusted signal. The limiter is adapted to compare the adjusted signal with a first threshold value and a second threshold value to provide a limited signal. The feedback circuit is adapted to calculate a difference between the limited signal and the adjusted signal, and to generate at least one feedback signal based on the difference.
US10784886B1
A digital to analog converter receives a digital input consisting of first least significant bits, second most significant bits, and third middle significant bits. The digital to analog converter includes first, second, and third sub-DACs. The first sub-DAC receives the first least significant bits, and includes first resistors each contributing a respective voltage, to provide a first output. The second sub-DAC receives the second most significant bits, and includes second resistors each contributing a respective voltage, to provide a second output as an output of the digital to analog converter. The third sub-DAC is connected to the first sub-DAC to receive the first output, and receives the third middle significant bits, and includes third resistors each contributing a respective voltage, to provide a third output to the second sub-DAC. The first and third resistors each has a physical area less than an area of each second resistor.
US10784885B2
A semiconductor device in which an increase of circuit area is prevented is provided. A semiconductor device including a control circuit with a plurality of scan chain circuits, a DA converter electrically connected to the control circuit, and a plurality of potential holding units electrically connected to the DA converter is provided. The plurality of potential holding units each include a transistor including an oxide semiconductor in a channel formation region and a capacitor electrically connected to the transistor. In accordance with digital data held in any one of the plurality of scan chain circuits, an output potential output from the DA converter is held in any one of the plurality of potential holding units.
US10784880B2
A ultra-high speed DAC apparatus (e.g., with a full sampling frequency not less than 20 GHz) may include one or more digital pre-coders and DAC modules. Each DAC module may include multiple current-mode DAC systems and a first power combiner. The gate length of transistors within each DAC module may be between 6 and 40 nm. Each current-mode DAC system includes a transmission line (e.g., 40 to 80 microns long) coupled to multiple interleaving sub-DAC systems (within the current-mode DAC systems) and the first power combiner. The first power combiner combines, without interleaving, analog signals that have been interleaved within the current-mode DAC systems. The impedance of the first power combiner matches the impedance of each of the current-mode DAC systems and a load of the first power combiner. A second power combiner combines, without interleaving, analog signals from the DAC modules.
US10784869B2
An integrated circuit includes a first gate, a second gate, a first contact and a first insulating layer. The first gate extends in the first direction and is located on a first level. The second gate extends in the first direction, is located on the first level, and is separated from the first gate in a second direction different from the first direction. The first contact extends in the second direction, overlaps the first gate and the second gate, is located on a second level different from the first level, and is coupled to at least the first gate. The first insulating layer extends in the second direction, overlaps the first gate and the second gate, and is between the second gate and the first contact.
US10784867B1
A level shifting circuit for a voltage level translator includes first and second cross-coupled level shifters, each coupled between an output supply voltage and a lower rail and further coupled to receive first and second input control signals and to provide an output control signal. The second cross-coupled level shifter includes a first PMOS transistor coupled in series with a first NMOS transistor and a second PMOS transistor coupled in series with a second NMOS transistor. When an input supply voltage is less than a VCCI trigger associated with the output supply voltage, only the first and second NMOS transistors are coupled to contribute to the output control signal and when the input supply voltage is equal to or greater than the VCCI trigger, only the first and second PMOS transistors are coupled to contribute to the output control signal.
US10784866B2
A semiconductor device includes a latch circuit including a first inverter configured to output a first signal based on an input signal, a second inverter configured to output a first clock signal based on a first strobe signal, a third inverter configured to output a second clock signal based on a second strobe signal, a first clock generation circuit configured to generate a third clock signal having transitions that are delayed with respect to the first clock signal, a second clock generation circuit configured to generate a fourth clock signal having transitions that are delayed with respect to the second clock signal, a fourth inverter configured to output an inversion signal of the first signal in accordance with the third and fourth clock signals, and a data latch circuit configured to latch an output signal of the fourth inverter.
US10784862B1
Embodiments described herein include radio frequency (RF) switches. In general, the embodiments described herein selectively bias the output terminals of one or more switching transistors in the RF switch. Such coupling can provide a bias that significantly reduces the effects of gate-lag. In one embodiment, the RF switch includes an antenna node, a first input/output (I/O) node, a second I/O node, a field-effect transistor (FET), a FET stack, and a bias coupling circuit. In this embodiment the bias coupling circuit electrically couples a gate terminal of the FET to one or more FET output terminals of the FET stack to provide a bias voltage to the output terminal(s).
US10784861B2
Systems, methods, and apparatus for biasing a high speed and high voltage driver using only low voltage transistors are described. The apparatus and method are adapted to control biasing voltages to the low voltage transistors such as not to exceed operating voltages of the low voltage transistors while allowing for DC to high speed operation of the driver at high voltage. A stackable and modular architecture of the driver and biasing stages is provided which can grow with a higher voltage requirement of the driver. Capacitive voltage division is used for high speed bias voltage regulation during transient phases of the driver, and resistive voltage division is used to provide bias voltage at steady state. A simpler open-drain configuration is also presented which can be used in pull-up or pull-down modes.
US10784859B2
A gate drive circuit for generating asymmetric drive voltages comprises a gate drive transformer comprising: a primary winding responsive to a pulse width module (PWM) input signal to generate a bipolar signal having a positive bias voltage and a negative bias voltage; and a secondary winding responsive to the bipolar signal to generate a PWM output signal. A first charge pump is connected to the secondary winding responsive to the PWM output signal to generate a level shifted PWM output signal. A second charge pump is connected to the secondary winding to generate a readjusted PWM output signal by decreasing at least a portion of the level shifted PWM output signal. A gate switching device is connected to the first charge pump and second charge pump. A level shifted PWM output signal establishes an ON condition and the readjusted PWM output signal establishes an OFF condition of the gate MOSFET.
US10784845B2
Various aspects provide for error detection and compensation for a multiplexing transmitter. For example, a system can include an error detector circuit and a duty cycle correction circuit. The error detector circuit is configured to measure duty cycle error for a clock associated with a transmitter to generate error detector output based on a clock pattern for output generated by the transmitter in response to a defined bit pattern. The duty cycle correction circuit is configured to adjust the clock associated with the transmitter based on the error detector output. Additionally or alternatively, the error detector circuit is configured to measure quadrature error between an in-phase clock and a quadrature clock in response to the defined bit pattern. Additionally or alternatively, the system can include a quadrature error correction circuit configured to adjust phase shift between the in-phase clock and the quadrature clock based on quadrature error.
US10784844B2
A fractional frequency divider comprises: a fractional frequency divider circuit configured to, by using an integer frequency division signal obtained by dividing an input signal by an integer frequency division ratio, generate a fractional frequency division signal into which the input signal is divided by a fraction frequency division ratio; a latch circuit configured to capture a frequency control signal representing a specified fraction frequency division ratio in synchronization with the fractional frequency division signal; and a control circuit configured to generate an integer control signal for setting an integer frequency division ratio corresponding to a specified fraction frequency division ratio in synchronization with an integer frequency division signal, based on a captured frequency control signal. The fractional frequency divider circuit updates the integer frequency division ratio by referring to the integer control signal in synchronization with the input signal.
US10784825B2
An amplifier circuit includes an input port, an output port, and a reference potential port, an RF amplifier device having an input terminal electrically coupled to the input port, an output terminal electrically coupled to the output port, and a reference potential terminal electrically coupled to the reference potential port. An impedance matching network is electrically connected to the output terminal, the reference potential port, and the output port. The impedance matching network includes a reactive efficiency optimization circuit that forms a parallel resonant circuit with a characteristic output impedance of the peaking amplifier at a center frequency of the fundamental frequency range. The impedance matching network includes a reactive frequency selective circuit that negates a phase shift of the RF signal in phase at the center frequency and exhibits a linear transfer characteristic in a baseband frequency range.
US10784819B2
Apparatus and methods for power amplifiers with positive envelope feedback are provided herein. In certain implementations, a power amplifier system includes a power amplification stage that amplifies a radio frequency signal, at least one envelope detector that generates one or more detection signals indicating an output signal envelope of the power amplification stage, and a wideband feedback circuit that provides positive envelope feedback to a bias of the power amplification stage based on the one or more detection signals. The power amplifier system further includes a supply modulator that controls a voltage level of a supply voltage of the power amplification stage based on the one or more detection signals such that the supply voltage is modulated with the output signal envelope through positive envelope feedback.
US10784817B2
Provided is an oscillator including a resonator which includes a resonator element and a resonator element container accommodating the resonator element, an integrated circuit element which includes an inductor, and a nonconductive spacer member, in which the resonator and the integrated circuit element are stacked above each other, the resonator has a metal member, and the spacer member is provided between the resonator and the integrated circuit element.
US10784814B2
A support apparatus for a photovoltaic module and a photovoltaic system are provided. The support apparatus for a photovoltaic module is to be arranged on a water surface, and includes: a support body for mounting the photovoltaic module; and a floating body connected to the support body and configured to provide buoyancy for the support apparatus. A connection function for providing connection with the photovoltaic module and a buoyancy function for providing the buoyancy are separated. The support body having the connection function may be used for providing only connection with the photovoltaic module and not for providing buoyancy. In manufacturing and installation processes, it is unnecessary for the support body to be watertight, thus the manufacturing process of the support body may be greatly simplified, and the manufacturing cost can be reduced.
US10784811B2
A power conversion device control system includes a power conversion device configured to supply electric power to a rotary electric machine, and a control device configured to control the power conversion device, wherein the control device controls the power conversion device through synchronous control in which a carrier frequency of the power conversion device is proportional to a rotational speed of the rotary electric machine when a temperature of a permanent magnet provided in the rotary electric machine is higher than a predetermined threshold value, and controls the power conversion device through non-synchronous control in which a carrier frequency of the power conversion device is not proportional to a rotational speed of the rotary electric machine when a temperature of the permanent magnet is the predetermined threshold value or less.
US10784807B2
A method and a parameter estimation system are provided for controlling an electrical machine, (e.g., an induction motor), powered by a drive unit. The method and the parameter estimation system disclosed herein detect a travelling wave generated on a linking element disposed between a first connection point, which is at least one terminal of the electrical machine, and a second connection point, which is at least one terminal of the drive unit. Further, the method and the parameter estimation system disclosed herein obtain at least one of a plurality of wave characteristics associated with the travelling wave, (e.g., an amplitude, a width, a frequency, a travel time of the travelling wave). Further, the method and the parameter estimation system disclosed herein determine one or more control parameters, (e.g., an operational torque and speed), of the electrical machine based on at least one of the wave characteristics.
US10784801B2
The phase error detection unit PHED detects the phase error PERR between the phase of the BEMF and the phase of the phase switching signal COMM (masking signal MSK) at each of a plurality of detection timings that become the zero crossing timings of the BEMF in the mechanical angular cycle. The PI compensator PICPa has a plurality of cycle setting registers REGN 0_0 to REGN 3_5 for each of a plurality of detection timings, and while switching the registers for each detection timing, the PI compensator determines the cycle setting value NCNTS for bringing the inputted phase error PERR close to zero by reflecting the previous cycle setting value NCNT stored in the register. The clock generation unit CGEN sequentially controls the phase switching signal COMM based on the cycle setting value NCNTS.
US10784800B2
An object of the present invention is to improve reliability after the control of a microcomputer recovers. A signal control apparatus according to the present invention includes a microcomputer, an output control unit that receives a reset signal and a load control signal from the microcomputer and outputs a load output signal to a load, and when the output control unit receives the reset signal, the output control unit maintains a state of the load output signal immediately before the reset signal is received, and when the load control signal is switched, the output control unit releases the maintaining state of the load output signal.
US10784794B2
A power converter in which two power FETs are provided in a full bridge arrangement with two diodes for supplying a rectified voltage to a load. The gates of the power FETs receive alternating and opposite voltage waveforms such that the power FETs conduct oppositely to each other. A turn-off FET is connected to the gate of each power FET to prevent spurious turn on of the power FET during periods in which the opposite power FET is turned on. A voltage sense FET is also connected to the gate of each power FET to limit the gate voltage of the power FET. The voltage sense FETs are each synchronously modulated with the corresponding power FET to limit the gate to source voltage of the voltage sense FET when the corresponding turn-off FET is on and the corresponding power FET is off.
US10784782B2
A drive device comprises a plurality of boost converters connected in parallel to each other and placed between a power storage device side and an electric load side; a drive mode setting switch operated to set a drive mode among a plurality of drive modes; and a control device configured to control the plurality of boost converters by employing one control mode including a first control mode that drives and controls only some boost converters out of the plurality of boost converters and a second control mode that drives and controls a larger number of boost converters than some boost converters. The control device changes a switchover reference value that is used to switch over control between the first control mode and the second control mode according to the magnitude of an electric load, based on a drive mode set by operation of the drive mode setting switch.
US10784780B1
A controller circuit for generating a Pulse-Width Modulation (PWM) signal for activating a switching device of a Switched-Mode Power Supply (SMPS) includes gap detection circuitry, Pulse Frequency Modulated (PFM) circuitry, PWM circuitry and logic circuitry. The gap detection circuitry is configured to generate a shift signal based on an indication of a voltage difference between a reference voltage and a feedback voltage corresponding to voltage output by the SMPS. The PFM circuitry is configured to generate a hold signal indicating a target PFM frequency for the PWM signal. The PWM circuitry is configured to shift, based on the shift signal, a pedestal current to generate a shifted pedestal current and to generate, based on the shifted pedestal current, a peak signal indicating a target PWM on time for the PWM signal.
US10784777B2
A capacitor-drop power supply includes a rectifier and a switched capacitor converter coupled to the rectifier. The rectifier is configured to receive an alternating current (AC) signal at an AC voltage and convert the AC signal into a rectified direct current (DC) signal at a rectified voltage. The switched capacitor converter is configured to receive the rectified DC signal and generate a converter output signal at a converter voltage that is proportional to the rectified voltage and that is less than the AC voltage.
US10784770B2
A conversion circuit includes a main device, a voltage control switching circuit and a trigger circuit. The trigger circuit includes an output terminal and a sense terminal. The sense terminal is electrically connected to the control terminal of the main device. The voltage control switching circuit includes a first terminal, a second terminal and a control terminal. A first terminal is configured to receive an original signal. A second terminal is connected to a control terminal of the main device, and is configured to transmit a driving signal to drive the main device. A control terminal is connected to the main device and the output terminal. The driving signal has a first voltage level generated by the voltage control switching circuit in response to a voltage level at the control terminal of the voltage control switching circuit.
US10784764B2
A gate driver for a high-side NMOS power transistor in a DC/DC boost converter includes first and second switches coupled in series between an output pin and the gate of the high-side transistor. A third switch is coupled between the gate and a switch-node between the high-side and low-side transistors, the switch node also being coupled to an input pin. Fourth and fifth switches are coupled in series between the output pin and a clamp pin. Sixth and seventh switch are coupled in series between the output pin and a ground pin. First and second bootstrap capacitors have respective first terminals coupled to a first node between the first and second switches. The first capacitor has a second terminal coupled to a node between the fourth and fifth switches; the second capacitor has a second terminal coupled to a node between the sixth and seventh switches.
US10784761B2
An actuator is introduced that utilizes the forces that result from placing a current carrying coil in a magnetic field to rotate a connected object about at least one axis. In some embodiments, the introduced coil actuator includes a coil of conductor coupled to an arm or other type of structural element that extends radially from an axis of rotation. The introduced coil actuator can be utilized to provide motion control in a variety of different applications such as gimbal mechanisms. In some embodiments, the introduced coil actuator can be implemented in a gimbal mechanism for adjusting an orientation of a device such as a camera relative to a connected platform such as the body of an aerial vehicle.
US10784759B2
The present application relates to the technical field of electronics and provides a linear vibrating motor. The linear vibrating motor comprises a motor housing, a stator, a vibrator and an elastic support member through which the vibrator is suspended in the motor housing, wherein the elastic support member is configured to support the vibrator and to provide an elastic restoring force; the stator comprises a coil and a circuit board; the circuit board comprises a circuit connecting end, a coil securing end and a transitional connecting plate through which the circuit connecting end and the coil securing end are connected; and a coil securing plate that is not co-planer with the transitional connecting plate is disposed on the coil securing end and fixedly connected to the motor housing. The circuit board is compact in structure and does not take up the internal space of the motor housing.
US10784752B2
An inverter protecting structure includes an inverter that supplies driving electric power to a traction motor, and a protection cover that covers the inverter. A surface of the protection cover facing an upper surface of the inverter has corrugation. A first bolt mounted on the upper surface of the inverter is disposed under a recess of the corrugation.
US10784751B2
A stator includes a first split core having a first yoke part extending in a circumferential direction about an axis line and a first tooth extending from the first yoke part toward the axis line, a second split core having a second yoke part extending in the circumferential direction and a second tooth extending from the second yoke part toward the axis line, a first insulator arranged to surround the first tooth and having a first holding part located between a tip end part of the first tooth and a tip end part of the second tooth, a second insulator arranged to surround the second tooth and having a second holding part located between the tip end part of the first tooth and the tip end part of the second tooth, and a Hall effect sensor held by the first holding part and the second holding part.
US10784747B2
The invention relates to an electric motor, particularly an “external rotor motor”, comprised of a stator housing and a rotor housing which is rotatable with respect to the stator housing, wherein the rotor housing has a cooling ring disposed on its side which axially faces the stator housing, wherein the stator housing and the cooling ring are each provided with a plurality of first and second cooling fins (the second cooling fins also being referred to as “cooling ribs”) which face each other axially and are disposed so as to be distributed in the respective circumferential directions, which fins/ribs collaborate in flow technology when the rotor housing is in rotating operation; wherein, in an axial plan view, the first cooling fins extend radially outwardly, and the second cooling fins (the cooling ribs) are V-shaped and point in the circumferential direction, wherein a rotary relative movement of the first and second cooling fins (the cooling fins and the cooling ribs) generates a cooling air stream, at least between the stator housing and the rotor housing.
US10784743B2
A vehicle seat actuator includes an electric motor and a gear set that connects the drive motor to the seat and transmits the output of the motor to the vehicle seat. The drive motor and gear set are each disposed in an individual, dedicated housing component. The individual housing components are then assembled together to provide the actuator. The housing components are maintained in the assembled configuration using snap fit mechanical fasteners. Each snap-fit fastener includes a receiving portion provided on one housing component and a retaining portion provided on the other housing component. The receiving portion may be a blind hole formed in the drive motor housing that is partially obstructed by an elastic member, while the retaining component is a latch that protrudes from an outer surface of the gear housing and forms a snap-fit engagement with the elastic member.
US10784722B2
Provided are a BLUETOOTH headset, a charging cabin and a charging system thereof. The BLUETOOTH headset includes: a headset charging interface circuit, a control circuit, a level shifting circuit and a chip module. The headset charging interface circuit includes a detecting terminal connected to a power supply voltage terminal of the BLUETOOTH headset through the control circuit. When the detecting terminal is connected to a detecting pin of the charging cabin, a voltage of the detecting terminal is shifted from a first voltage provided by the power supply voltage terminal to a second voltage provided by the detecting pin of the charging cabin to trigger the control circuit to output a first level signal to the level shifting circuit, and then the first level signal is shifted to a power-off signal through the level shifting circuit to trigger the chip module to power off the BLUETOOTH headset.
US10784713B2
During power running operation of a load, a control unit turns off a switch unit to supply AC power from an uninterruptible power supply unit to the load. During regenerative operation of the load, in a case where an AC power supply can recover regenerative power, the control unit turns off the switch unit to supply the regenerative power to the AC power supply via the uninterruptible power supply unit. In contrast, in a case where the AC power supply cannot recover the regenerative power, the control unit turns on the switch unit to cause an auxiliary load unit to consume the regenerative power.
US10784710B2
A DC to AC converter is described in which DC power presented as a set of relatively floating DC power sources of differing DC voltage values is converted to a desired AC power waveform by combining the DC voltage values with sequential sets of associated ternary-valued multiplicative weights of +1, −1, or 0, and summing the weighted voltage values, so as to produce voltage points on the desired waveform at appropriate time instants.
US10784708B2
A method for transmitting wireless power in a wireless charging system and a wireless power transmitting unit (PTU) and provided. The method for transmitting wireless power in a wireless charging system includes receiving information related to a voltage from each of a plurality of power receiving units (PRUs); identifying a voltage ratio of each of the plurality of PRUs based on the received information, wherein the voltage ratio is a current voltage relative to a first voltage; determining a PRU among the plurality of PRUs based on the identified voltage ratio; and adjusting transmission power according to a voltage setting value of the determined PRU.
US10784707B2
An inductive power receiving device configured to: supply power received with a power receiving coil to a load in a first mode; determine whether a converter voltage exceeds a threshold voltage; in response to the determining the converter voltage exceeds the threshold voltage after sending a charging mode request, switch to supplying power received with the power receiving coil to the load in a second mode; and in response to determining the converter voltage coil exceeds the threshold voltage before sending the charging mode request is sent, prevent at least a portion of the power received with the power receiving coil from reaching the load. An inductive power transmitting device configured to provide an alternating current voltage to a power transmitting coil and gradually increase the voltage after receiving a charging mode request and stop gradually increasing the voltage once an inductive power receiving device changes modes.
US10784706B2
A wireless power transmitter configured to wirelessly transmit power to an electronic device is provided. The wireless power transmitter includes a power transmission antenna including a plurality of patch antennas for wirelessly transmitting power, a sensor, and a processor, wherein the processor may be configured to create a first clutter map representing a reflection characteristic of an object positioned around the wireless power transmitter based on, at least, first data obtained by the sensor during a first period, store the first clutter map, compare a difference between the first clutter map and second data obtained by the sensor during a second period with data contained in the first clutter map, create a second clutter map corresponding to the second period based on a result of the comparison, determine a position of an organism using the second data and the second clutter map, and control the power transmission antenna such that a magnitude of the RF wave is less than a predetermined value based on the position of the organism.
US10784703B2
A system and method is disclosed for monitoring current consumption of various subsystems and applications and adjusting functional parameters to ensure a constant current drain from the battery. The constant current drain can be dynamically adjusted based on a predetermined amount of battery life. A user can determine the amount of battery life to be required and the system adjusts current consumption of various subsystem components and applications to provide consistent and predictable battery life.
US10784692B2
The present disclosure relates to a method for checking a charging parameter. The method includes: after a communication channel between a terminal and a charger is successfully established, reading, by the terminal, charging capability information of the charger in a preset manner; comparing a maximum capability value of the charger for each preset charging parameter with a target value that is corresponding to a corresponding preset charging parameter and that is stored in the terminal, and determining a minimum value as a first configuration value for the corresponding preset charging parameter; writing, into the charger, the first configuration value that is obtained by means of comparison and that is for each preset charging parameter; reading a second configuration value of the charger for each preset charging parameter; and sending, by the terminal, a charging acknowledgment instruction to the charger after determining that all preset charging parameters are successfully configured.
US10784689B2
An electrical power system includes a cluster of electrical power subsystems, each of the electrical power subsystems including a power converter electrically coupled to a generator having a generator rotor and a generator stator. Each of the electrical power subsystems defines a stator power path and a converter power path for providing power to the power grid. The converter power path includes a partial power transformer. The electrical power system further includes a subsystem breaker configured with each of the electrical power subsystems, and a cluster transformer for connecting each cluster of electrical power subsystems to the power grid. The electrical power system further includes a cluster power path extending between each subsystem breaker and the cluster transformer, and a distortion filter electrically coupled to the cluster transformer. The distortion filter reduces harmonics in current flowing from the electrical power subsystems to the cluster transformer.
US10784683B2
The present application provides a method of controlling an electrical power system and an apparatus using the same. The electrical power system includes a DC bus and a DC bus capacitor connected to the DC bus. The method includes: receiving a virtual DC bus capacitance value of the DC bus capacitor; detecting a DC bus voltage; calculating an expected value of a DC bus current based on the virtual DC bus capacitance value and the DC bus voltage; and adjusting the DC bus current, so that the DC bus current reaches the expected value and thus the DC bus capacitor is equivalent to the virtual DC bus capacitance value.
US10784682B2
The present disclosure provides techniques for network-cognizant droop control in power systems, such as a power distribution system. An example device includes a processor configured to determine, based on (i) a model representing a structure of a power system that includes a plurality of energy resources and (ii) an indication of predicted uncontrollable power injections in the power system, for each controllable energy resource in the plurality of energy resources, a respective value of a first droop coefficient and a respective value of a second droop coefficient. The processor may be further configured to cause at least one controllable energy resource in the plurality of energy resources to modify an output power of the at least one energy resource based on the respective value of the first droop coefficient and the respective value of the second droop coefficient.
US10784664B2
A three-piece electronics enclosure may be provided. The electronics enclosure may comprise a back housing, a lid, and a center frame. The back housing may comprise back housing heat sinks on an exterior of the back housing and back housing circuitry disposed in an interior of the back housing. The lid may comprise lid heat sinks on an exterior of the lid and lid circuitry disposed in an interior of the lid. The center frame may be disposed between the back housing and the lid. The center frame may comprise a plurality of input/output (I/O) ports comprising a first I/O port and a second I/O port. At least one of the plurality of I/O ports may provide power to the back housing circuitry and the lid circuitry. The center frame may further comprise a power bypass that passes power between the first I/O port and the second I/O port.
US10784662B2
A weak-link latch for releasably pulling a cable (13) arranged in a conduit (14). The weak link latch is releasably connected to the conduit, and securely connected to the cable. A plurality of arms (4,5) extend laterally from a central member (1) arranged to engage the conduit, with at least one of which arms being a rotatable arm (5,19), rotatable about an axle (6) from an extended position in locked engagement with the conduit to a collapsed position disengaged from the conduit. A shear pin (7) is arranged between the rotatable arm (5,19) and the central member (1), the shear pin arranged to prevent rotation of the rotatable arm from the extended position to the collapsed position, said shear pin having a predetermined breaking force, said breaking force being a shear force due to rotational force from the rotatable arm.
US10784651B2
An apparatus for measuring an input signal, the apparatus comprising: a first light source configured to output a sequence of pulses of light, wherein there is a random relationship between the phase of the pulses; a beam splitter having first and second inputs and first and second outputs, said first input being arranged to receive light pulses from said first light source and the second input being arranged to receive said input signal; a differencing circuit adapted to subtract signals obtained from the first and second outputs from each other; and output a value; and a processing circuit adapted to estimate the minimum entropy of said input signal, from the output of the differencing circuit corresponding to a sequence of said light pulses from the first light source.
US10784649B2
A semiconductor laser (2) includes an n-type semiconductor substrate (1), a stack of an n-type cladding layer (4), an active layer (5), and a p-type cladding layer (6) successively stacked on the n-type semiconductor substrate (1). An optical waveguide (3) includes a non-impurity-doped core layer (9) provided on a light output side of the semiconductor laser (2) on the n-type semiconductor substrate (1) and having a larger forbidden band width than the active layer (5), and a cladding layer (10) provided on the core layer (9) and having a lower carrier concentration than the p-type cladding layer (6). The semiconductor laser (2) includes a carrier injection region (X1), and a non-carrier-injection region (X2) provided between the carrier injection region (X1) and the optical waveguide (3).
US10784629B2
The connector comprises an inner structure and an outer housing. The inner structure comprises a fit portion, which is fit to a mating fit portion of a mating connector under a mated state, and a cable-holding portion configured to hold a jacket of a cable. The fit portion comprises terminals, a holding member holding the terminals and a shell enclosing the terminals and the holding member. The cable-holding portion is located rearward of the fit portion in a front-rear direction (X-direction). The outer housing has a front holding portion and a rear holding portion. The front holding portion holds the shell to prevent a movement of the fit portion in a perpendicular plane (YZ-plane) perpendicular to the front-rear direction. The rear holding portion is located rearward of the front holding portion and holds the cable-holding portion to prevent a movement of the cable-holding portion in the perpendicular plane.
US10784618B2
The present invention disclosed a transmission line with a foldable bracket, comprising: a first connector (1), a second connector (2), a wire body (3), and a support member (4); wherein the first connector (1) and the second connector (2) are connected through the wire body (3); the support member (4) comprises a connecting portion (5) and a supporting portion (6), the connecting portion (5) is disposed on the first connector (1) and pivoted to the first connector (1) rotatably, wherein the supporting portion (6) can rotate around the pivot. As a result, when an electronic mobile device needs to be propped up, the support member (4) of the transmission line can be opened to form a stable triangle structure between an edge of the electronic mobile device and the support member (4), to prop up the electronic mobile device.
US10784617B2
A plug connector part for electrically contacting a mating plug connector part includes: a contact element, which is engageable in a plug-in manner with a mating contact element of an associated mating plug connector part in an insertion direction for electrical contacting; and a lance element that includes an at least partially resilient shaft and a contacting portion, the shaft being connected to the contact element at a first end and the contacting portion being arranged at a second end of the shaft such that the contacting portion remains in electrical contact with the mating contact element of the mating plug connector part when the connector part is released from the mating plug connector part after the electrical contact between the contact element and the mating contact element has already been broken.
US10784616B2
The present disclosure includes: a pair of left and right half body parts, each of which includes a connector main body along with multiple terminals installed in this connector main body; and a reinforcing bracket for coupling the half body parts, wherein connector main bodies of each of the half body parts are abutted and installed at main body end parts formed on both ends of the connector main bodies, wherein each connector main body extends in the longitudinal direction thereof, in addition to including a projection for retaining the terminals, an extension end part connected to both ends in the longitudinal direction of this projection, and an end wall part extending from this extension end part towards the counterpart half body part, and wherein each of the main body end parts include mutually abutted left and right end wall parts along with left and right extension end parts with these end wall parts extending therefrom.
US10784614B2
An electrical connector includes an insulative housing, a plurality of contacts, and a fastener. The insulative housing has a plurality of contact-receiving passageways and a positioning slot recessed upwards from a bottom face thereof, the positioning slot is communicated with the contact-receiving passageways. The fastener is assembled into the positioning slot before the contacts being inserted into the insulative housing. Each contact defines a stopping portion and an elastic locking arm, the locking arm extends backwards to form a free end, and the free ends of the locking arms are locking with the insulative housing to realize a pre-position between the contacts and the housing, after the contacts assembled into the insulative housing, the fastener is pressed upwards into the positioning slot fully and abutting against a rear end of the stopping portion to form a secondary positioning.
US10784612B2
The present disclosure provides a connector which is a combination of at least one power pin, one plastic member, and one signal pin, wherein the power pin includes a columnar metal block, each plastic member is connected to the columnar metal block at side surface, each signal pin is attached to a side surface of the plastic member, and extends to two bottom surfaces of the plastic member to form contact surfaces with predetermined areas on the two bottom surfaces; wherein, the contact surface on first bottom surface of the plastic member is flush with first bottom surface of the metal block, and the contact surface on second bottom surface of the plastic member is flush with second bottom surface of the metal block.
US10784610B2
The present disclosure provides a conductive connection structure, a multifunctional high-voltage connector and a battery product, the conductive connection structure comprises: a main body portion; and two conductive connection portions. The main body portion comprises: a tube body having openings; and a conductive fusing body. The conductive connection portion has: a first contact segment connected to the conductive fusing body and sealing a corresponding opening; a second contact segment; and a transitional connection segment. It is not necessary to additionally provide the package plate, thereby making the structure of the conductive connection structure simple and the volume of the conductive connection structure small, reducing the assembling steps, and improving the space utilization of the multifunctional high-voltage connector. When the upper cover and the pedestal are assembled, the second contact segment is directly inserted into the corresponding mating terminal, thereby further reducing the connection resistance in the high-voltage circuit.
US10784605B2
A connector comprises a housing and a plurality of contacts retained in the housing. Each of the contacts extends in a longitudinal direction and has a retained portion, a contacting portion disposed in front of the retained portion in the longitudinal direction, and a connecting portion disposed behind the retained portion in the longitudinal direction. Each of the contacting portion and the connecting portion are shifted with respect to the retained portion in a vertical direction perpendicular to the longitudinal direction. The housing is in contact with the retained portion of each of the contacts from both above and below in the vertical direction and from both right and left in a lateral direction perpendicular to the vertical direction and the longitudinal direction.
US10784593B1
A dual-band patch antenna includes a first patch antenna for operation at a first frequency and a second patch antenna for operation at a second frequency that is an integer multiple of the first frequency. A dielectric support is provided on which the first and second patch antennas are mounted. A nearest distance defined between the first and second patch antennas is a function of the second frequency and a dielectric constant of the dielectric support. The dielectric support has a feed point adapted to have a transmission line electrically coupled thereto. Electrically-conducting paths are coupled to the dielectric support for electrically coupling the feed point to the first and second patch antennas where at least one such electrically-conducting path has an insertion loss that is greater than 0 dB and less than or equal to 3 dB.
US10784589B2
A wireless communication device includes: a reflector plate that comprises a reflective surface, the reflective surface reflecting an electromagnetic wave; an array antenna that comprises a plurality of antenna elements, the antenna elements being arranged on the reflective surface; one or more fins that stand on the reflective surface; and a transmission and reception circuit that is connected to the reflector plate, and transmits and receives a wireless signal via the array antenna.
US10784587B2
A semiconductor device includes a semiconductor chip including a communication circuit, a first antenna element formed in a first rewiring layer covering a first surface of the semiconductor chip and connected to the communication circuit, and a second antenna element formed in a second rewiring layer covering a second surface on the side opposite to the first surface of the semiconductor chip and connected to the communication circuit.
US10784585B2
Disclosed is an antenna for enhancing link coupling efficiency in a power transmission. The antenna may comprise a plurality of coil windings layered across each other. It may be noted that each coil winding may be deployed with a plurality of edges. It may be understood that an edge is separated with another edge at a predetermined distance on each coil winding. It may be noted that the edge and the another edge is a subset of the plurality of edges.
US10784580B2
A metal-interference-resisting dipole antenna comprises a first metal plane, a second metal plane and a cable; the cable comprises an inner conductor, an insulation layer and an outer conductor, and the inner conductor comprises a first inner connecting end electrically connected to the first metal plane, and a second inner connecting end adapted for receiving the first feed signal; the insulation layer partly covers the inner conductor, wherein the outer conductor is disposed at the outer of the insulation layer corresponding to the inner conductor, and the outer conductor is electrically insulated from the inner conductor; the outer conductor has a first outer connecting end and a second outer connecting end, and the first outer connecting end is electrically connected to the second metal plane, and the second outer connecting end is adapted for receiving the second feed signal.
US10784577B2
A dual-band antenna module includes a substrate, a dual-band omnidirectional antenna, a low-frequency reflection module and a high-frequency reflection module. The dual-band omnidirectional antenna is disposed perpendicular to the substrate and is used for resonating to generate a first radio-frequency signal with a first frequency and a second radio-frequency signal with a second frequency. The low-frequency reflection module includes three low-frequency reflection units used for reflecting the first radio-frequency signal with the first frequency according to different low-frequency directional control signals. The high-frequency reflection module includes three high-frequency reflection units used for reflecting the second radio-frequency signal with the second frequency according to different high-frequency directional control signals. The low-frequency reflection units of the low-frequency reflection module and the high-frequency reflection units of the high-frequency reflection module are disposed on the substrate and are disposed around the dual-band omnidirectional antenna.
US10784574B2
The present invention relates to an antenna, which can improve a front-to-rear ratio and cross-polarization isolation without changing a structure of a reflection panel. The antenna includes an antenna element and a reflection panel. The antenna element is disposed on the reflection panel. The antenna further includes a wave-absorbing material layer. The wave-absorbing material layer is disposed on one side of an outer surface, back to the antenna element, of the reflection panel.
US10784570B2
A liquid-crystal antenna device includes a signal source, a driving module, a correction module, and a plurality of radiation units. The signal source provides an input electromagnetic wave. The driving module outputs a plurality of initial voltage signals according to a radiation address. The correction module receives the initial voltage signals and outputs a plurality of corrected voltage signals according to a lookup table. The radiation units respectively receive the corrected voltage signals and are coupled to the input electromagnetic wave to generate an output electromagnetic wave.
US10784567B2
In one embodiment, an antenna system is described. The antenna system includes a primary antenna on an aircraft. The primary antenna is mechanically steerable and has an asymmetric antenna beam pattern with a narrow beamwidth axis and a wide beamwidth axis at boresight. The antenna system also includes a secondary antenna on the aircraft, the secondary antenna including an array of antenna elements. The antenna system also includes an antenna selection system to control communication of a signal between the aircraft and a target satellite via the primary antenna and the secondary antenna. The antenna selection system switches communication of the signal from the primary antenna to the secondary antenna when an amount of interference with an adjacent satellite reaches a threshold due to the wide beamwidth axis of the asymmetric antenna beam pattern.
US10784550B2
A phase shifter having both digital and analog shifting components is disclosed. The digital-analog phase shifter includes an input/output port configured, in part, for receiving an input radio frequency (RF) signal from an external source and outputting a phase shifted RF signal. A digital shifter performs coarse phase shifts of the input RF signal, while an analog shifter variably shift the phase of the input RF signal relative to the coarse phase shift. This produces a phase shifted RF signal having a total phase range that is output is continuously variable from 0° to 360°.
US10784548B2
Supercapacitive bioelectrical systems (SC-BESs) wherein the anode and cathode act as electrodes for a self-powered internal supercapacitor. The BES may further be enhanced by the use of optimized catalysts and enzymes to increase cell voltage and the use of a third capacitive electrode (AdE) short-circuited to the BES cathode and coupled to the BES anode to improve the power output of the self-powered internal supercapacitor.
US10784547B2
A system for controlling a temperature of an electrical energy storage device may include a coolant circuit through which a coolant is flowable, a refrigerant circuit through which a refrigerant is flowable, a first coolant cooler, a support structure, and at least one molded component. The coolant circuit may be thermally coupled to the electrical energy storage device such that heat is at least one of (i) absorbable from the electrical energy storage device via the coolant and (ii) dissipatable to the electrical energy storage device via the coolant. The refrigerant circuit may be configured as part of a heat pump. The first coolant cooler may be configured to transfer heat between the coolant and the refrigerant. The at least one molded component may be structured separately from the support structure and may include a foamed plastic.
US10784544B2
A battery module includes a battery module housing and a plurality of battery cells accommodated by the battery module housing. The battery module housing includes a main component for accommodating the battery cells and at least one additional component. The main component is of integral design and surrounds the battery cells from four sides. The additional component includes recesses for receiving a medium for temperature control. The recesses are closed by connecting the additional component to the main component to form media-carrying ducts. The main component is of open design on averted end sides. The battery cells are arranged at least substantially within the space which is surrounded by the main component.
US10784533B2
A Li—Sn—O—S compound, a manufacturing method therefor and use thereof as an electrolyte material of Li-ion batteries, and a Li—Sn—O—S hybrid electrolyte are provided. The Li—Sn—O—S compound of the present invention is laminated Sn—O—S embedded with lithium ions. The Li—Sn—O—S compound is represented by the formula Li3x[LixSn1−x(O,S)2], where x>0. The manufacturing method for a Li—Sn—O—S compound includes the following steps of: (S1000) providing a Sn—O—S compound; (S2000) adding a lithium source into the Sn—O—S compound to form a Li—Sn—O—S precursor; and (S3000) performing calcination on the Li—Sn—O—S precursor in a vulcanization condition.
US10784528B2
The description relates to fuel cells and fuel cell systems. One example includes at least one multi cell membrane electrode assembly (MCMEA). Individual MCMEAs can include multiple serially interconnected sub-cells.
US10784521B2
A solid oxide fuel cell (SOFC) stack including a plurality of SOFCs and a plurality of interconnects. Each interconnect is located between two adjacent SOFCs, and each interconnect contains a Mn or Co containing, electrically conductive metal oxide layer on an air side of the interconnect. The SOFC stack also includes a barrier layer located between the electrically conductive metal oxide layer and an adjacent SOFC. The barrier layer is configured to prevent Mn or Co diffusion from the electrically conductive metal oxide layer to the adjacent SOFC.
US10784504B2
A battery electrode composition is provided that comprises composite particles. Each composite particle may comprise, for example, active fluoride material and a nanoporous, electrically-conductive scaffolding matrix within which the active fluoride material is disposed. The active fluoride material is provided to store and release ions during battery operation. The storing and releasing of the ions may cause a substantial change in volume of the active material. The scaffolding matrix structurally supports the active material, electrically interconnects the active material, and accommodates the changes in volume of the active material.
US10784502B2
Provided is a slurry composition for a secondary battery negative electrode that has excellent producibility and can suppress cell swelling and an increase in internal resistance in a secondary battery. The slurry composition for a secondary battery negative electrode contains a negative electrode active material, a particulate polymer, and water. The negative electrode active material includes a carbon-based negative electrode active material having a surface functional group content of at least 0.9% and not more than 1.5%, and a BET specific surface area of 2.5 m2/g or less. The particulate polymer has a surface acid content of at least 0.2 mmol/g and not more than 2.0 mmol/g.
US10784483B2
A rechargeable battery according to another exemplary embodiment of the present invention includes an electrode assembly including a first electrode including a first electrode plate, a plurality of first electrode uncoated regions protruded from the first electrode plate, a base member, and a coupled member formed at at least one lateral side of the base member, a separator overlapping the first electrode, and a second electrode including a second electrode plate overlapping the separator, a plurality of second electrode uncoated regions protruded from the second electrode plate, a base member, and a coupled member formed at at least one lateral side of the base member, wherein a ratio of a thickness (T2*2) of one of the coupled members to a thickness (T1) of one of the base members is between about 3 and about 6.
US10784471B2
An OLED display device and a manufacturing method thereof are provided. The manufacturing method of the OLED display device realizes the effect of a plurality of non-connected OLED light emitting layers by providing an inverse trapezoidal photoresist in an interval region of a plurality sub-pixels. The produced OLED display device does not have lateral current forming an entire surface distributed cathode over the plurality of OLED light emitting layers of the common layer, that avoiding cross color phenomenon caused by carrier migration between adjacent sub-pixels and ensuring better display effect of the OLED display. Also, by fabricating an auxiliary cathode above or below the cathode and connected thereto, the sheet resistance of the cathode and the uneven brightness caused by voltage drop can both be reduced.
US10784468B2
The present invention provides a package method of an OLED element and an OLED package structure. In the package method of the OLED element, according to the present invention, by manufacturing a circle of the retaining wall at the periphery of the OLED element, and then forming the laminated film covering the OLED element in the region surrounded by the retaining wall, and the laminated film comprises the few first barrier layers and the few buffer layers which are alternately stacking, and ultimately, forming the second barrier layer which completely covers the buffer layer and the top of the retaining wall on the outermost buffer layer of the laminated film, the OLED package structure of extremely strong sealing can be obtained. In the package method, a protective shield of extremely strong sealing for the OLED element is formed with the retaining wall and the outermost second barrier layer.
US10784462B2
A display device includes: a substrate including a first pixel area (PA) and a second PA, the first PA being spaced apart from the second PA by a non-PA; a first pixel electrode (PE) overlapping the first PA; a second PE overlapping the second PA; a pixel-defining layer including a first opening overlapping the first PE and a second opening overlapping the second PE; a first intermediate layer (IL) on the first PE, the first IL including a first emission layer (EL); a second IL on the second PE, the second IL including a second EL spaced apart from the first EL; a first opposite electrode (OE) on the first IL; a second OE on the second IL, the second OE being spaced apart from the first OE; and a wiring layer (WL) overlapping the non-PA, the WL contacting respective portions of the first OE and the second OE.
US10784460B2
Provided are an electroluminescent device and an electroluminescent display device. The electroluminescent device includes an anode and a cathode facing each other, a light compensation layer located between the anode and the cathode and having a first refractive index, and an emitting material layer located between the light compensation layer and the cathode, and having a second refractive index higher than the first refractive index.
US10784457B2
The disclosure provides a fabricating method of a QLED device and a QLED device. In the fabricating method of a QLED device, a mixed light-emitting layer is formed by doping a quantum dot material with a second hole transporting material having a valence band energy level between the quantum dot material and the first hole transporting material; a stepped barrier between the first hole transporting material and the doped second hole transporting material is used to enhance the hole injection; simultaneously, the first hole transporting material with a higher valence band energy level can block the electrons on one side of the hole transport layer close to the cathode to weaken the injection of electrons into the mixed light-emitting layer, thereby promoting the balance of carriers in the mixed light-emitting layer, improving the carrier recombination efficiency, and then improving the luminous efficiency and brightness of the QLED device.
US10784437B2
A Magnetic Tunnel Junction (MTJ) device can include a reference magnetic layer having one or more trenches disposed therein. One or more sections of a tunnel barrier layer can be disposed on the walls of the one or more trenches. One or more sections of a free magnetic layer can be disposed on the one or more sections of the tunnel barrier layer in the one or more trenches. One or more sections of a conductive layer can be disposed on the one or more sections of the free magnetic layer in the one or more trenches. One or more insulator blocks can be disposed between corresponding sections of the tunnel barrier layer, corresponding sections of the free magnetic layer and corresponding sections of the conductive layer in the one or more trenches.
US10784434B2
A piezoelectric element includes a plate-shaped piezoelectric body having one principal face and the other principal face which are opposite to each other; and a first surface electrode mounted on the one principal face and a second surface electrode mounted on the other principal face, at least one of the first surface electrode and the second surface electrode including a center part and a peripheral part which is greater in thickness than the center part, the peripheral part having a thicker region and a thinner region which is thinner than the thicker region.
US10784431B2
A device includes a first substrate formed of a first material that exhibits a threshold level of thermal conductivity. The threshold level of thermal conductivity is achieved at a cryogenic temperature range in which a quantum circuit operates. In an embodiment, the device also includes a second substrate disposed in a recess of the first substrate, the second substrate formed of a second material that exhibits a second threshold level of thermal conductivity. The second threshold level of thermal conductivity is achieved at a cryogenic temperature range in which a quantum circuit operates. In an embodiment, at least one qubit is disposed on the second substrate. In an embodiment, the device also includes a transmission line configured to carry a microwave signal between the first substrate and the second substrate.
US10784427B2
A light-emitting device includes a first edge to a fourth edge; a semiconductor stack formed on a substrate, including a first semiconductor layer, a second semiconductor layer and an active layer; a first electrode formed on the first semiconductor layer, including a first pad electrode and a first finger electrode; and a second electrode formed on the second semiconductor layer, including a second pad electrode and a second finger electrode; wherein the first finger electrode is disposed at and along the first edge; and the first finger electrode includes a first overlapping portion overlapping the second finger electrode; the second finger electrode includes a second overlapping portion overlapping the first finger electrode and a non-overlapping portion that does not overlap the first finger electrode; and the second overlapping portion is not parallel with the first overlapping portion and the non-overlapping portion is not parallel with the first edge.
US10784426B2
A device substrate includes a receiving substrate, a micro light emitting element, a first wire, and a second wire is provided. The micro light emitting element is disposed on the receiving substrate. The micro light emitting element includes a first type semiconductor layer and a second type semiconductor layer. The first type semiconductor layer is disposed on the receiving substrate and has a first wire connecting surface away from the receiving substrate. The second type semiconductor layer is disposed on a part of the first type semiconductor layer and has a second wire connection surface away from the receiving substrate. The first wire is disposed on the first wire connection surface. The second wire is disposed on the second wire connection surface. A projection range of the first wire perpendicularly projected on the micro light emitting element and a projection range of the second wire perpendicularly projected on the micro light emitting element are at least partially overlap.
US10784425B2
The light illumination module includes a substrate, a plurality of wiring patterns formed in parallel on the substrate, and a plurality of LED devices disposed on the wiring patterns. Each wiring pattern has a stripe-shaped portion extending in a first direction, a first protrusion portion protruding in a second direction, and a second protrusion portion protruding in an opposite direction. The first and second protrusion portions are formed in an alternating manner along the first direction, and the LED devices are disposed on the first protrusion portion and the stripe-shaped portion at a location corresponding to the second protrusion portion. A first electrode of each LED device is electrically connected to the first protrusion portion or the stripe-shaped portion immediately below, and a second electrode of each LED device is electrically connected to the stripe-shaped portion or the second protrusion portion of an adjacent wiring pattern with a wire.
US10784419B2
A light emitting device includes a light emitting element; a sealing resin covering the light emitting element; and a light diffusing material contained in the sealing resin. When a difference in refractive index at 10° C. between the sealing resin and the light diffusing material is Δn1 and a difference in refractive index at 50° C. between the sealing resin and the light diffusing material is Δn2, a ratio of Δn2 to Δn1 is in a range of 95% to 105%.
US10784417B2
Provided is a wavelength conversion film that suppresses a deterioration of quantum dots by oxygen and is capable of suppressing a decrease in brightness. The wavelength conversion film includes a wavelength conversion layer and auxiliary layers sandwiching the wavelength conversion layer, in which the wavelength conversion layer has polyvinyl alcohol and cured substance particles of a (meth)acrylate compound including wavelength conversion particles, and an oxygen permeability of the auxiliary layer is 1.0×100 to 1.0×10−2 cc/(m2·day·atm).
US10784409B2
An embodiment provides a semiconductor element, which comprises: a plurality of semiconductor structures, each of which comprises a first conductive semiconductor layer, a second conductive semiconductor layer, an active layer disposed between the first conductive semiconductor layer and the second conductive semiconductor layer, and a first recess extending through the second conductive semiconductor layer and the active layer to a partial area of the first conductive semiconductor layer; a second recess disposed between the plurality of semiconductor structures; a first electrode disposed at the first recess and electrically connected to the first conductive semiconductor layer; a reflective layer disposed under the second conductive semiconductor layer; and a protrusion part disposed on the second recess and protruding higher than the upper surfaces of the semiconductor structures, wherein a surface, on which the first electrode contacts the first conductive semiconductor layer in the first recess, is 300 to 500 nm distant from the upper surfaces of the semiconductor structures.
US10784408B2
An optoelectronic semiconductor chip includes a semiconductor body including a first semiconductor region, a second semiconductor region and an active zone disposed between the first and second semiconductor regions, an electrically conductive contact layer arranged on a side of the first semiconductor region facing away from the second semiconductor region, and an electrically conductive mirror layer arranged between the first semiconductor region and the electrically conductive contact layer, and laterally protruding at the edge by the first semiconductor region and the electrically conductive contact layer so that between the first semiconductor region and the electrically conductive contact layer there is an interspace in which a protective layer is arranged for protecting the mirror layer, wherein the electrically conductive contact layer extends laterally to an edge of the first semiconductor region, and the electrically conductive contact layer consists of Ni.
US10784404B2
A light-emitting device, includes a substrate structure, including a base portion having a surface and a plurality of protrusions formed on the base portion; a buffer layer covering the plurality of protrusions and the surface; and III-V compound semiconductor layers formed on the buffer layer; wherein one of the plurality of protrusions has a height not greater than 1.5 μm; wherein the light-emitting device has a full width at half maximum (FWHM) of smaller than 250 arcsec in accordance with a (102) XRD rocking curve.
US10784394B2
An electromagnetic wave detector, which photoelectrically converts and detects an electromagnetic wave incident on a graphene layer, including: a substrate having a front surface and a back surface; a lower insulating layer provided on the front surface of the substrate; a ferroelectric layer and a pair of electrodes provided on the lower insulating layer, the pair of electrodes arranged to face each other with the ferroelectric layer sandwiched therebetween; an upper insulating layer provided on the ferroelectric layer; and a graphene layer arranged on the lower insulating layer and the upper insulating layer to connect the two electrodes. Alternatively, the electromagnetic wave detector includes: a graphene layer provided on the lower insulating layer; and a ferroelectric layer provided on the graphene layer with an upper insulating layer interposed therebetween and a pair of electrodes provided on the graphene layer to face each other with the ferroelectric layer sandwiched therebetween.
US10784391B2
A light guide includes a light guide layer having a transversely oriented side-end surface that forms a primary output aperture (exit) for light traveling in a forward propagation direction out of the end surface of the light guide (for, e.g., CPV applications) and, which forms a primary input aperture (entrance) for light traveling in a rearward propagation direction into the end surface of the light guide (for, e.g., illuminator applications). A light collection and concentration system includes a light guide apparatus, a light-transmitting medium layer disposed immediately adjacent the single light guide apparatus, and a light concentrator component of multiple optical array layers disposed adjacent the light transmitting medium layer, which is in optical registration with a light injection layer of the light guide apparatus.
US10784389B2
The invention relates a full-laser scribing method for a flexible stainless steel substrate solar cell module, comprising: preparing an insulating layer and a molybdenum layer on a stainless steel substrate in sequence; using a laser I to scribe the prepared insulating layer and molybdenum layer to form a first scribed line (P1); preparing the following film layers in sequence on the molybdenum layer in which P1 has been scribed: a CIGS layer, a cadmium sulfide layer and an intrinsic zinc oxide layer; using a laser II to make scribe and thus form a second scribed line (P2), wherein the second scribed line P2 is parallel with the first scribed line P1; and preparing an aluminum-doped zinc oxide layer on the intrinsic zinc oxide layer in which P2 has been scribed, and using a laser III to make scribe and thus form a third scribed line (P3), wherein the third scribed line P3 is parallel with the first scribed line P1. The invention may avoid disadvantages caused by the screen printing, such as large dead zone, expensive screen printing paste and frequent replacement of screens for screen printing, thereby improve efficiency and stability of the module and save cost and increase production efficiency.
US10784380B2
A semiconductor device including a gate-all-around based non-volatile memory device includes isolated channels including tunnel dielectric material disposed around gate-all-around field effect transistor (GAA FET) channels, at least one floating gate including a first gate material encapsulating the isolated channels, and at least one control gate including a second gate material encapsulating the isolated channels.
US10784378B2
Ultra-scaled fin pitch processes having dual gate dielectrics are described. For example, a semiconductor structure includes first and second semiconductor fins above a substrate. A first gate structure includes a first gate electrode over a top surface and laterally adjacent to sidewalls of the first semiconductor fin, a first gate dielectric layer between the first gate electrode and the first semiconductor fin and along sidewalls of the first gate structure, and a second gate dielectric layer between the first gate electrode and the first gate dielectric layer and along the first gate dielectric layer along the sidewalls of the first gate electrode. A second gate structure includes a second gate electrode over a top surface and laterally adjacent to sidewalls of the second semiconductor fin, and the second gate dielectric layer between the second gate electrode and the second semiconductor fin and along sidewalls of the second gate electrode.
US10784377B2
A method includes forming a fin over a substrate, forming a dummy gate structure over the fin, forming a first spacer over the dummy gate structure, implanting a first dopant in the fin to form a doped region of the fin adjacent the first spacer, removing the doped region of the fin to form a first recess, wherein the first recess is self-aligned to the doped region, and epitaxially growing a source/drain region in the first recess.
US10784376B2
A semiconductor device includes first and second active patterns protruding upward from a substrate, a gate electrode crossing the first and second active patterns and extending in a first direction, a first source/drain region on the first active pattern and on at least one side of the gate electrode, and a second source/drain region on the second active pattern and on at least one side of the gate electrode. The first and second source/drain regions have a conductivity type different from each other, and the second source/drain region has a bottom surface in contact with a top surface of the second active pattern and at a lower level than that of a bottom surface of the first source/drain region in contact with a top surface of the first active pattern. The first active pattern has a first width smaller than a second width of the second active pattern.
US10784355B2
A method for relieving a hole defect of a gate is disclosed, which includes: providing a substrate; forming a polysilicon layer over the substrate; forming a sacrificial oxide layer over a surface, that faces away from the substrate, of the polysilicon layer; forming a patterned photoresist layer over the sacrificial oxide layer; performing ion implantation by using the patterned photoresist layer as a mask; removing the patterned photoresist layer and the sacrificial oxide layer. In the method, before ion implantation, an oxide layer is formed over the surface of the gate, and is used to reduce affinity of the polysilicon and the photoresist layer. Afterwards, the floating gate is cleaned for many times, and hydrofluoric acid of an appropriate amount is added, so as to completely remove the photoresist layer and other residues while cleaning off the sacrificial oxide layer.
US10784349B2
A semiconductor device according to the present invention includes a semiconductor layer of SiC of a first conductivity type, a plurality of body regions of a second conductivity type formed in the surface portion of the semiconductor layer with each body region forming a unit cell, a source region of the first conductivity type formed in the inner portion of the body region, a gate electrode facing the body region across a gate insulating film, a drain region of the first conductivity type and a collector region of the second conductivity type formed in the rear surface portion of the semiconductor layer such that the drain region and the collector region adjoin each other, and a drift region between the body region and the drain region, wherein the collector region is formed such that the collector region covers a region including at least two unit cells in the x-axis direction along the surface of the semiconductor layer.
US10784341B2
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.
US10784330B2
An organic thin film transistor array substrate and manufacture method thereof, display device are provided. The method of manufacturing organic thin film transistor array substrate, comprising: providing substrate; depositing first metal layer, transparent electrode layer and photoresist layer on substrate by sequentially; using first half transparent photo mask for patterning treatment, and forming data line, source, drain and pixel electrode, wherein channel region is forming between source and drain; depositing semiconducting layer, insulating layer and second metal layer by sequentially; using second photo mask for patterning treatment, and forming active layer, grid insulating layer, grid on channel region, grid is connecting to scan line; depositing passivation layer; using third photo mask for patterning treatment and exposing pixel electrode; forming OLED material on pixel electrode. According to the method above could effectively reduce photo mask process and reduce cost.
US10784328B2
A display apparatus is provided by the present invention, the display apparatus includes a first thin film transistor (TFT) disposed in a first pixel region and including a first semiconductor layer and a first gate electrode, where the semiconductor layer includes first source and drain regions; a second TFT disposed in a second pixel region adjacent the first pixel region and including a second semiconductor layer and a second gate electrode, where the second semiconductor layer includes a second source and drain regions; a first pixel electrode disposed in the first pixel region and including a first region where a first light-emitting layer is disposed and a second region extending from the first region and disposed on a first via hole; and a second pixel electrode disposed in the second pixel region and including a third region where a second light-emitting layer is disposed and a fourth region extending from the third region and disposed on a second via hole.
US10784325B2
A thin film transistor (TFT) to control a light emitting diode (LED) or an organic light emitting diode (OLED) includes a channel region configured as a saddle channel extending between the drain region and the source region of the TFT. The saddle channel is formed by deposition of channel material on a fin structure, and the contour of the saddle channel is defined by the contour of the fin structure. Deposition of the channel material for the saddle channel may be performed by: (i) atomic layer deposition (ALD) of amorphous silicon; (ii) ALD of amorphous silicon followed by annealing to form polycrystalline silicon; or (iii) deposition of indium gallium zinc oxide (IGZO) material by one of ALD, plasma-enhanced atomic layer deposition (PEALD), chemical vapor deposition (CVD), or plasma-enhanced chemical vapor deposition (PECVD).
US10784321B2
The present disclosure relates to a method for manufacturing an OLED device, an OLED device and a display panel. The method for manufacturing the OLED device comprises: forming a first electrode layer on a substrate; forming at least one layer of inorganic film at a position on the first electrode layer corresponding to a pixel defining layer; breaking a first organic layer at an etching angle of the at least one layer of inorganic film when forming the first organic layer; forming the pixel defining layer on the inorganic film; forming the first organic layer on the first electrode layer, the inorganic film and the pixel defining layer; and forming a light emitting layer, a second organic layer and a second electrode layer in this order on the first organic layer.
US10784320B2
Disclosed are an organic light-emitting display device and a method of manufacturing the same, which prevent lateral current leakage by providing a bank with a metal pattern so as to realize electrical separation of a common layer formed thereon.
US10784318B2
A display device and a method for manufacturing the same are disclosed, which may prevent a crack from occurring on an inorganic film constituting an encapsulation film and prevent a residual film from occurring. The display device comprises a substrate including a display area on which pixels area arranged, and a non-display area surrounding the display area; an encapsulation film covering the display area and including an organic film; a first dam arranged to be in contact with the encapsulation film, having a second side which is an opposite side of a first side facing the organic film and has an inclination smaller than 90°; and a metal pattern pattern-formed on the first dam.
US10784311B2
A three-dimensional semiconductor memory device includes first to third cell array layers sequentially stacked on a substrate. Each of the first to third cell array layers includes memory cells arranged along first and second directions crossing each other and parallel to a top surface of the substrate. Each of the memory cells includes a variable resistance element and a tunnel field effect transistor connected in series. The device further includes bit lines extending along the first direction between the first and second cell array layers and at least one source line extending along either the first direction or the second direction between the second and third cell array layers. The memory cells of the first and second cell array layers share the bit lines, and the memory cells of the second and third cell array layers share the source line.
US10784308B2
A display device including pixels respectively containing a plurality of subpixels, the display device comprises: a light emitting diode (LED) array including a plurality of LED cells, the plurality of LED cells provided in the plurality of subpixels, the plurality of LED cells configured to emit light having substantially the same wavelength, each of the plurality of LED cells having a first surface and a second surface; thin-film transistor (TFT) circuitry including a plurality of TFT cells, each of the plurality of TFT cells disposed on the first surface of an LED cell of the plurality of LED cells and including source and drain regions and a gate electrode disposed between the source and drain regions; a wavelength conversion pattern disposed on the second surface of an LED cell of the plurality of LED cells, the wavelength conversion pattern including a composite of a quantum dot and/or a polymer, the quantum dot configured to emit different colors of light from colors of light emitted from other quantum dots of other wavelength conversion patterns; and a light blocking wall disposed between two of the plurality of subpixels including the plurality of LED cells and between wavelength conversion patterns to separate the plurality of subpixels.
US10784299B2
Provided is a photoelectric conversion apparatus including: an interlayer insulating film that covers a semiconductor layer and has a contact hole positioned above a gate electrode; a contact plug that is disposed in the contact hole and connected to the gate electrode; a light-shielding film that is positioned between the interlayer insulating film and the semiconductor layer and includes a first part covering a charge holding portion and a second part covering an upper surface of the gate electrode; and a dielectric layer that is positioned between the second part and the gate electrode, in which a relative dielectric constant of the dielectric layer is lower than a relative dielectric constant of the interlayer insulating film.
US10784284B2
To provide a highly reliable semiconductor device that is suitable for miniaturization and an increase in density. The semiconductor device includes a first insulator over a substrate, a transistor including an oxide semiconductor over the first insulator, a second insulator over the transistor, and a third insulator over the second insulator. The first insulator and the third insulator have a barrier property with respect to oxygen and hydrogen. The second insulator includes an excess-oxygen region. The transistor is enclosed with the first insulator and the third insulator that are in contact with each other in an edge of a region where the transistor is positioned.
US10784283B2
A semiconductor memory device includes a stacked body, a semiconductor member, a charge storage member, a first member, and second members. The stacked body includes electrode films arranged to be separated from each other along a first direction. A terrace is formed for each electrode film in an end portion of the stacked body in a second direction. The first member spreads along the first direction and the second direction. The first member is provided inside the cell portion. The second members are provided inside the end portion. The electrode film includes two portions separated from each other in a third direction. The two portions are separated in the third direction by the first member and the plurality of second members. An insulator between the electrode films is formed continuously between two sides of the plurality of second members in the third direction.
US10784280B2
According to one embodiment, a semiconductor memory device includes the following structure. First conductive layers are stacked in first direction and extends in second and third directions. The first conductive layers each includes a pair of first portions, and second and third portions. The first portions extend in second direction, is provided separately from each other in third direction and includes a metal. The second portion is provided between the first portions and includes silicon. The third portion is provided on at least one side of the second portion in second direction, extends in third direction, electrically connects the first portions and includes a metal. Memory pillars extend through the second portions in first direction. Contact plugs are respectively provided on the third portion of one of the first conductive layers.
US10784274B1
An integrated circuit memory cell includes a floating gate, a control gate, and a plurality of inter-poly dielectric (IPD) layers. The IPD layers include an IPD1 layer, an IPD2 layer, and an IPD3 layer, with the IPD2 layer interposed between the IPD1 and IPD3 layers. The IPD2 layer, which may be a nitride, does not flank the floating gate. Thus, no section of the floating gate is laterally between two sections of the IPD2 layer. Also, no section of the IPD2 layer of a first memory cell is between the floating gate of the first memory cell and a floating gate of an immediate adjacent memory cell of the same memory cell string. In some cases, an IPD4 layer is provided between the floating gate and the IPD3 layer. The IPD4 layer is relatively much thinner than layers IPD1-3 and may flank the floating gate, as may the IPD3 layer.
US10784273B2
A method used in forming a memory array comprises forming a substrate comprising a conductive tier, a first insulator tier above the conductive tier, a sacrificial material tier above the first insulator tier, and a second insulator tier above the sacrificial material tier. A stack comprising vertically-alternating insulative tiers and wordline tiers is formed above the second insulator tier. Channel material is formed through the insulative tiers and the wordline tier. Horizontally-elongated trenches are formed through the stack to the sacrificial material tier. Sacrificial material is etched through the horizontally-elongated trenches selectively relative to material of the first insulator tier and selectively relative to material of the second insulator tier. A laterally-outer sidewall of the channel material is exposed in the sacrificial material tier. A conductive structure is formed directly against the laterally-outer sidewall of the channel material in the sacrificial material tier. The conductive structure extends through the first insulator tier and directly electrically couples the channel material to the conductive tier. Structure embodiments are disclosed.
US10784259B2
Provided is a semiconductor device including a substrate, an isolation structure, a barrier structure, a first conductive layer, a second conductive layer, a first gate dielectric layer, and a second gate dielectric layer. The substrate has a first region and a second region. The barrier structure is located on the isolation structure. The first conductive layer is located on the first region. The second conductive layer is located on the second region. The first gate dielectric layer is located between the first conductive layer and the substrate in the first region. The second gate dielectric layer is located between the second conductive layer and the substrate in the second region. The first gate dielectric layer and the second gate dielectric layer are separated by the isolation structure. A method of manufacturing the semiconductor device is also provided.
US10784257B2
This specification discloses methods for integrating a SiGe-based HBT (heterojunction bipolar transistor) and a Si-based BJT (bipolar junction transistor) together in a single manufacturing process that does not add a lot of process complexity, and an integrated circuit that can be fabricated utilizing such a streamlined manufacturing process. In some embodiments, such an integrated circuit can enjoy both the benefits of a higher RF (radio frequency) performance for the SiGe HBT and a lower leakage current for the Si-based BJT. In some embodiments, such an integrated circuit can be applied to an ESD (electrostatic discharge) clamp circuit, in order to achieve a lower, or no, yield-loss.
US10784249B2
According to one embodiment, there is provided an integrated circuit including a circuit provided with terminals, a plurality of circuit blocks provided with terminals, and a plurality of wirings that run in parallel from the terminals of the circuit toward the circuit blocks and each turns in mid-course toward a position at which a terminal of a corresponding circuit block exists to connect to the terminal of the corresponding circuit block, any adjacent wirings at the terminals of the circuit being connected to different circuit blocks.
US10784245B2
An integrated circuit is provided including a first substrate with a first thermal conductivity. An active layer is deposited on the first substrate. At least one native device is fabricated on the active layer. A window is formed in the active layer, which exposes a portion of the first substrate. A non-native device is fabricated on a second substrate with a second thermal conductivity lower than the first thermal conductivity. The non-native device is flip-chip mounted in the widow on the first substrate and electrically connected to the at least one native device. The non-native device is also thermally connected to the first substrate such that heat generated by the non-native device is removed through the first substrate.
US10784243B2
The present disclosure relates to semiconductor structures and, more particularly, to uniplanar (e.g., single layer) passive circuitry and methods of manufacture. The structure includes: passive circuitry comprising plural components each of which are formed on a same wiring level; and interconnects on the same wiring level connecting the plural components of the passive circuitry.
US10784238B2
Disclosed are an epitaxial wafer and a display device that includes a display substrate, a first sub pixel unit and a second sub pixel unit. The first sub pixel unit has a first luminous area, and the second sub pixel unit has a second luminous area different from the first luminous area. The first sub pixel unit and the second sub pixel unit belong to the same color type and are located in different pixel units. The first sub pixel unit is a sub epitaxial structure emitting light within a first photoluminescent wavelength, the second sub pixel unit is a sub epitaxial structure emitting light within a second photoluminescent wavelength, and the first photoluminescent wavelength is different from the second photoluminescent wavelength. The difference between electroluminescent wavelengths of the first sub pixel unit and the second sub pixel unit is less than or equal to 2 nm.
US10784235B2
A power module includes a case, a first terminal, a second terminal, and a number of silicon carbide semiconductor die. The case has a footprint less than 30 cm2. The silicon carbide semiconductor die are inside the case and coupled between the first terminal and the second terminal. The power module and the silicon carbide semiconductor die are configured such that in a first operating state the silicon carbide semiconductor die are capable of continuously blocking voltages greater than 650V between the first terminal and the second terminal, and in a second operating state the silicon carbide semiconductor die are capable of continuously passing currents greater than 200 A between the first terminal and the second terminal.
US10784234B2
Structures and methods of fabricating semiconductor wafer assemblies that encapsulate one or die in a cavity etched into an oxide bonded semiconductor wafer stack. The methods generally include the steps of positioning the die in the cavity, mechanically and electrically mounting the die to the wafer stack, and encapsulating the die within the cavity by bonding a lid wafer to the wafer stack in one of multiple ways. Semiconductor processing steps are applied to construct the assemblies (e.g., deposition, annealing, chemical and mechanical polishing, etching, etc.) and connecting the die (e.g., bump bonding, wire interconnecting, ultrasonic bonding, oxide bonding, etc.) according to the embodiments described above.
US10784230B2
A semiconductor device package comprises a substrate, a first component, a second component, a package body and a conductive material. The substrate has a surface. The first component is on the surface of the substrate. The second component is on the surface of the substrate. The package body comprises a first portion, a second portion and a third portion. The first portion encapsulates the first component and has a side surface. The second portion encapsulates the second component and has a side surface. The third portion connects the first portion and the second portion and has a top surface. The side surface of the first portion, the side surface of the second portion and the top surface of the third portion define a space separating the side surface of the first portion from the side surface of the second portion. The conductive material is disposed in the space.
US10784229B2
Wafer level package structures and packaging methods are provided. An exemplary method includes providing a device wafer having a first front surface and a first back surface opposing the first front surface, wherein at least one first chip is integrated in the first front surface; forming a first oxide layer on the first front surface of the device wafer; providing at least one second chip having a to-be-bonded surface; forming a second oxide layer on the to-be-bonded surface of each second chip; providing a carrier wafer; temporally bonding a surface of the second chip opposing the second oxide layer to the carrier wafer; forming an encapsulation layer on the carrier wafer between adjacent second chips of the at least one second; and bonding the device wafer and the second chip by bonding the first oxide layer with the second oxide layer by a low-temperature fusion bonding process.
US10784228B2
Provided is a method of manufacturing a semiconductor package, the method including forming sawing grooves by sawing a wafer along individual chip boundaries in a downward direction from a top surface of the wafer by a thickness less than a wafer thickness, filling the sawing grooves with a molding material, forming a redistribution pattern, a passivation pattern, and an under bump metal (UBM) pattern on the wafer, bonding solder balls onto the UBM pattern, thinning the wafer based on a backgrinding process, and dividing the wafer into individual chips by sawing the molding material filled in the sawing grooves, in a downward direction.
US10784223B2
A package structure includes a chip attached to a substrate. The chip includes a bump structure including a conductive pillar having a length (L) measured along a long axis of the conductive pillar and a width (W) measured along a short axis of the conductive pillar. The substrate includes a pad region and a mask layer overlying the pad region, wherein the mask layer has an opening exposing a portion of the pad region. The chip is attached to the substrate to form an interconnection between the conductive pillar and the pad region. The opening has a first dimension (d1) measured along the long axis and a second dimension (d2) measured along the short axis. In an embodiment, L is greater than d1, and W is less than d2.
US10784215B2
According to an aspect of the present invention, an electronic system (499) operative on a millimeter signal comprises an integrated circuit (401) comprising a first solder ball (420A) and a second solder ball (420B) respectively coupled to a positive and a negative signal interface points (412 and 413) of a differential millimeter signal on a die (410) housed in the integrated circuit (401), wherein the first and the second solder balls (420A and 420B) are positioned one behind other from an edge of the integrated circuit (401) and a three-path coplanar waveguide (CPW) comprising a center path (495B) and a two adjacent paths (495A and 495C) formed on a printed circuit board (PCB) (490) such that the center path (495B) is coupled to the first solder ball that is in front and the two adjacent paths coupled to the second solder ball that is behind the first solder ball.
US10784206B2
A semiconductor package includes a first substrate, a first layer structure, a second layer structure and a first antenna layer. The first antenna layer is formed on at least one of the first layer structure and the second layer structure. The first layer structure is formed between the first substrate and the second layer structure.
US10784201B2
Methods and associated structures of forming a microelectronic device are described. Those methods may include forming a structure comprising a first contact metal disposed on a source/drain contact of a substrate, and a second contact metal disposed on a top surface of the first contact metal, wherein the second contact metal is disposed within an ILD disposed on a top surface of a metal gate disposed on the substrate.
US10784194B2
Embedded resistors which have tunable resistive values located between interconnect levels are provided. The embedded resistors have a pillar structure, i.e., they have a height that is greater than their width, thus they occupy less real estate as compared with conventional planar resistors that are typically employed in BEOL technology.
US10784192B2
Semiconductor devices having inductive structures, and associated systems and methods, are disclosed herein. In one embodiment, a semiconductor device includes a substrate and at least one circuit component coupled to the substrate. The semiconductor device can further include an inductive structure carried by the substrate and having a stack of alternating first and second layers. In some embodiments, the first layers comprise an oxide material and the second layers each include a coil of conductive material. The coils of conductive material can be electrically coupled (a) together to form an inductor and (b) to the at least one circuit component.
US10784186B2
A semiconductor module includes a die pad frame; a semiconductor chip disposed in a chip region on an upper surface of the die pad frame, the semiconductor chip having an upper surface on which a first electrode is disposed and a lower surface on which a second electrode is disposed; a conductive connection member for die pad disposed between the second electrode of the semiconductor chip and the upper surface of the die pad frame, the conductive connection member for die pad electrically connecting the second electrode of the semiconductor chip and the upper surface of the die pad frame; a first clip frame disposed on the upper surface of the semiconductor chip; a first clip conductive connection member disposed between the first electrode on the semiconductor chip and a lower surface of the first clip frame, the first clip conductive connection member electrically connecting the first electrode of the semiconductor chip and the lower surface of the first clip frame; and a sealing resin for sealing the semiconductor chip, the die pad frame, the first clip frame, the first clip conductive connection member, and the conductive connection member for die pad.
US10784183B2
A semiconductor package includes a semiconductor module, a first package extension frame, a second package extension frame, and a plurality of fasteners. The semiconductor module includes a first side surface, a second side surface, a first major surface, and a second major surface on an opposite side of the semiconductor module from the first major surface. The first package extension frame is configured to attach to the first side surface. The second package extension frame is configured to attach to the second side surface. The plurality of fasteners are configured to mechanically couple the first package extension frame and the second package extension frame to one or more of a circuit board arranged on the first major surface and/or a heat sink arranged on the second major surface.
US10784173B2
A method of evaluating localized degradation of a III-V compound semiconductor. The method includes preparing first and second III-V compound semiconductors. The second III-V compound semiconductor that is similar to the first III-V compound semiconductor and further comprises a shield layer that is configured to alter exposed portions of channels of the second III-V compound semiconductor. The first and second III-V compound semiconductors and irradiated and then electrically tested. Results of the electrical testing of the first and second III-V compound semiconductors are compared.
US10784172B2
In some examples, a method for manufacturing a solid state device comprises forming a first layer of the solid state device; forming a conductive layer of the solid state device above the first layer, the conductive layer having an access pad formed on an end of the conductive layer; applying a voltage to the conductive layer using the access pad, the voltage forming an electric field in an area of the first layer beneath the conductive layer; and completing manufacture of the solid state device after applying the voltage.
US10784158B2
A method for forming a cavity in a semiconductor structure and an intermediate structure is provided. The method includes: (a) providing a semiconductor structure comprising: (i) a semiconductor substrate; (ii) a set of line structures on the semiconductor substrate, each line structure having a top surface and sidewalls, the line structures being separated by trenches therebetween, and (iii) an oxygen-containing dielectric material at least partially filling the trenches in-between the line structures, wherein the top surface of at least one of the line structures is at least partially exposed, and wherein the exposed part of the top surface is composed of an oxygen-free dielectric material; (b) forming a layer of TaSix selectively onto the oxygen-free dielectric material with respect to the oxygen-containing dielectric material (c) forming the cavity by selectively removing at least a portion of the oxygen-containing dielectric material with respect to the TaSix.
US10784157B2
Described are doped TaN films, as well as methods for providing the doped TaN films. Doping TaN films with Ru, Cu, Co, Mn, Al, Mg, Cr, Nb, Ti and/or V allows for enhanced copper barrier properties of the TaN films. Also described are methods of providing films with a first layer comprising doped TaN and a second layer comprising one or more of Ru and Co, with optional doping of the second layer.
US10784147B2
In accordance with an embodiment, a method for producing a buried cavity structure includes providing a mono-crystalline semiconductor substrate, producing a doped volume region in the mono-crystalline semiconductor substrate, wherein the doped volume region has an increased etching rate for a first etchant by comparison with an adjoining, undoped or more lightly doped material of the monocrystalline semiconductor substrate, forming an access opening to the doped volume region, and removing the doped semiconductor material in the doped volume region using the first etchant through the access opening to obtain the buried cavity structure.
US10784146B2
A semiconductor on insulator multilayer structure is provided. The multilayer comprises a high resistivity single crystal semiconductor handle substrate, a textured oxide, nitride, or oxynitride layer, a polycrystalline silicon layer, a dielectric layer, and a single crystal semiconductor device layer. The multilayer structure is prepared in a manner that reduces wafer bow.
US10784145B2
A wafer composite is provided which includes an auxiliary substrate, a donor substrate and a sacrificial layer formed between the auxiliary substrate and the donor substrate. Functional elements of the semiconductor component are formed in a component layer, including at least one partial layer of the donor substrate. The auxiliary substrate is then separated from the component layer by heat input into the sacrificial layer.
US10784137B2
A package assembly for thin wafer shipping using a wafer container and a method of use are disclosed. The package assembly includes a shipping container and a wafer container having a bottom surface and a plurality of straps attached thereto placed within the shipping container. The package assembly further includes upper and lower force distribution plates provided within the shipping container positioned respectively on a top side and bottom side thereof.
US10784136B2
A load port for loading wafers to and unloading wafers from a front opening unified pod (FOUP) includes a shield member that covers and provides a seal over an opening of the FOUP. The shield member includes a narrow wafer slot that is sized to allow a single wafer to be loaded to or unloaded from the FOUP but otherwise minimize loss of the purge environment within the FOUP. The shield member is movable so that the wafer slot may be moved vertically to provide a wafer transfer robot access to any desired wafer position within the FOUP. The shield member, for example, may be a flexible sheet that is held taut and is rolled onto and off of at least one roller to vertically position the wafer slot. The shield member may alternatively be one or more rigid members that slide on rails to vertically position the wafer slot.
US10784133B2
A wafer clamp includes a platform with a top surface, a stopper disposed at a front end of the platform, a push rod disposed at a rear end of the platform, at least one actuator pivotally connected to the push rod, and a sensor disposed at the front end of the platform, the sensor measuring a distance between the sensor and a wafer over the sensor.
US10784124B2
A substrate processing apparatus includes a substrate holding unit that holds a substrate horizontally while rotating the substrate around a vertical rotational axis running through its center portion, an opposed member having an opposed surface that is opposed to an upper surface of the substrate, and a processing liquid discharge unit that includes a center portion discharge port on the opposed surface, that opens being opposed to the upper surface center portion of the substrate, and a peripheral portion discharge port on the opposed surface, that opens being opposed to the upper surface peripheral portion of the substrate, that discharges a processing liquid from the center portion discharge port to supply the processing liquid between the substrate and the opposed surface, and discharges the processing liquid from the peripheral portion discharge port to replenish the processing liquid between the substrate and the opposed surface.
US10784121B2
Methods and apparatus are described for adding one or more features (e.g., high bandwidth memory (HBM)) to an existing qualified stacked silicon interconnect (SSI) technology programmable IC die (e.g., a super logic region (SLR)) without changing the programmable IC die (e.g., adding or removing blocks). One example integrated circuit (IC) package generally includes a package substrate; at least one interposer disposed above the package substrate and comprising a plurality of interconnection lines; a programmable IC die disposed above the interposer; a fixed feature die disposed above the interposer; and an interface die disposed above the interposer and configured to couple the programmable IC die to the fixed feature die using a first set of interconnection lines routed through the interposer between the programmable IC die and the interface die and a second set of interconnection lines routed through the interposer between the interface die and the fixed feature die.
US10784119B2
Methods of self-aligned multiple patterning. First and second mandrels are formed over a hardmask, and a conformal spacer layer is deposited over the first mandrel, the second mandrel, and the hardmask between the first mandrel and the second mandrel. A planarizing layer is patterned to form first and second trenches that expose first and second lengthwise portions of the conformal spacer layer respectively between the first and second mandrels. After patterning the planarizing layer, the first and second lengthwise portions of the conformal spacer layer are removed with an etching process to expose respective portions of the hardmask along a non-mandrel line. A third lengthwise portion of the conformal spacer layer is masked during the etching process by a portion of the planarizing layer and defines a non-mandrel etch mask.
US10784106B2
A method includes etching a portion of a semiconductor material between isolation regions to form a trench, forming a semiconductor seed layer extending on a bottom surface and sidewalls of the trench, etching-back the first semiconductor seed layer until a top surface of the semiconductor seed layer is lower than top surfaces of the isolation regions, performing a selective epitaxy to grow a semiconductor region from the semiconductor seed layer, and forming an additional semiconductor region over the semiconductor region to fill the trench.
US10784100B2
A processing chamber system includes a substrate mounting module configured to secure a substrate within a first processing chamber. The system also includes a first deposition module configured to apply a light-sensitive film to a front side surface of the substrate, and a second deposition module configured to apply a film layer to a backside surface of the substrate. The front side surface is opposite to the backside surface of the substrate. A substrate has a bare backside surface with a first coefficient of friction. A film layer is formed onto the backside surface of the substrate. The film layer formed on the backside surface of the substrate has a second coefficient of friction. The second coefficient of friction is lower than the first coefficient of friction.
US10784099B2
To aim at a prevention of an occurrence of failure in and an extension of the life span of an incandescent light bulb by reducing the impact of an external force, which is applied to an outer lead wire positioned outside a bulb, on the connections between the lead wire and another element when manufacturing the incandescent light bulb, especially in a socket mounting process. In an incandescent light bulb wherein a filament assembly having filaments and lead wires which support the filaments is sealed in a bulb, a shape which, being easy to bend, enables a reduction in the impact of an applied external force on another element is imparted to a region of a predetermined length which includes the boundary of the lead wires between inside and outside the bulb. For example, a region in which the cross-sectional shape of the lead wires is changed by crushing is provided.
US10784095B2
A mass spectrometer is described that includes a multipole configured to pass an ion stream, the ion stream comprising an abundance of one or more ion species within stability boundaries defined by (a, q) values. A detector formed by a plurality of dynodes is configured to detect the spatial and temporal properties of the abundance of ions, where each dynode arranged such that it is struck by ions in a known spatial relationship with the ion stream. The detector also includes a plurality of charged particle detectors, each associated with one or more of the plurality of dynodes. A processing system is configured to record and store a pattern of detection of ions in the abundance of ions by the dynodes in the detector.
US10784093B1
A system and method for processing long scan data from a mass spectrometer is described. The long scan data is broken into multiple discrete subsets and each of the multiple subsets are padded by adding additional strings of data on either end of the subset. Each of the multiple subsets is deconvolved and overhang errors are corrected for on each deconvolved subset. A deconvolved full data set is then assembled from the deconvolved subsets.
US10784088B2
A plasma processing method capable of reducing an amount of deposit adhering to an upper electrode or removing the deposit from the upper electrode is provided. In the plasma processing method, the upper electrode of a capacitively coupled plasma processing apparatus is cooled. A supporting table including a lower electrode is provided within a chamber of the plasma processing apparatus. The upper electrode is provided above the supporting table. During the cooling of the upper electrode, a film of a substrate is etched by plasma generated within the chamber. The substrate is placed on the supporting table during the etching of the film. A negative bias voltage is applied to the upper electrode while the etching is being performed.
US10784082B2
Disclosed is an inductively-coupled plasma-generating device including: a first power supply for supplying high frequency power; a second power supply for supplying low frequency power; a single coil-based plasma source including at least two antennas which comprise a first antenna having one end as a grounded end and the other end, wherein the first power supply is connected to the first antenna at a point thereof adjacent to the grounded end to receive the high frequency power; and a second antenna surrounded by the first antenna, wherein the second antenna has one end connected to the first antenna and the other end as a low frequency power receiving end connected to the second power supply; and a gas supply for supplying a gas, wherein the gas is excited into plasma by the single coil-based plasma source.
US10784075B2
An apparatus provided with a wafer processing chamber that houses a wafer supporting mechanism supporting a wafer and is used to irradiate the wafer supported by the wafer supporting mechanism with an ion beam and a transport mechanism housing chamber that houses a transport mechanism provided underneath the wafer processing chamber and used for moving the wafer supporting mechanism in a substantially horizontal direction, wherein an aperture used for moving the wafer supporting mechanism along with a coupling member coupling the wafer supporting mechanism to the transport mechanism is formed in the direction of movement of the transport mechanism in a partition wall separating the wafer processing chamber from the transport mechanism housing chamber.
US10784061B2
A dynamically coordinatable electrical distribution system includes a plurality of intelligently-controlled protection devices (PDs), a communication and control bus (comm/control) bus, and a central computer. The plurality of intelligently-controlled PDs is configured to protect a plurality of associated electrical loads from faults, developing faults, and other undesired electrical anomalies. Each of the PDs further has electrically adjustable time-current characteristics. The intelligently-controlled PDs are communicatively coupled to the comm/control bus and configured to report current data representative of real-time currents flowing through their respective loads to the central computer, via the comm/control bus. The central computer is configured to communicate with the plurality of PDs over the comm/control bus and dynamically coordinate the time-current characteristics of the plurality of PDs based on the current data it receives from the PDs.
US10784051B2
The dye-sensitized photoelectric conversion element of the present invention has an electrolyte layer in which an ammonium ion, an inorganic salt and an iodide ion are dissolved in an organic solvent and in which the ratio of the molar amount of triiodide ions to the molar amount of iodide ions is less than 1%. High photoelectric conversion efficiency is obtained regardless of the kind of the sensitizing dye, and the design is also excellent.
US10784050B2
A capacitor includes a capacitor element group, a first bus bar, a second bus bar, a case, a filling resin, and a temperature detection element. The capacitor element group includes a plurality of capacitor elements. The first and second bus bars are connected to electrodes of the plurality of capacitor elements. The case accommodates a capacitor unit in which the capacitor element group is connected to the first and second bus bars. The case is filled with the filling resin, and the filling resin is cured in the case. The first bus bar includes a contact region that is in contact with at least one capacitor element in the plurality of capacitor elements at a side close to an aperture of the case, the at least one capacitor element being positioned at a center of the capacitor element group. The temperature detection element is disposed on the contact region.
US10784047B2
A multilayer ceramic electronic component includes a ceramic body including a dielectric layer, and a first internal electrode and a second internal electrode facing each other with the dielectric layer interposed therebetween, and a first external electrode electrically connected to the first internal electrode, and a second external electrode electrically connected to the second internal electrode, disposed in an outer portion of the ceramic body, the first and second external electrodes comprise a first electrode layer including a conductive metal, a first plating layer disposed on the first electrode layer and including nickel (Ni), and a second plating layer disposed on the first plating layer and including tin (Sn), and a ratio (t1/t2) is within a range from 1.0 to 9.0, where t1 is a thickness of the first plating layer including nickel (Ni), and t2 is a thickness of the second plating layer including tin (Sn).
US10784043B2
The present invention relates to a wireless power transmission device formed so as to wirelessly transmit power to a wireless power reception device, wherein the wireless power transmission device comprises: a first coil formed so as to transform a current into a magnetic field; and a first metal member formed so as to cover at least a portion of the first coil, and, in the present invention, the first metal member changes an emission direction of a magnetic field formed in the first coil so as to allow the power to reach the wireless power reception device which is positioned on a side surface of the wireless power transmission device.
US10784029B2
An object of the present invention is to provide an R-T-B based permanent magnet having a low coercive force and a low magnetizing field, and having a high residual magnetic flux density and a high minor curve flatness even in the low magnetizing field. Provided is an R-T-B based permanent magnet including a main phase including a compound having an R2T14B type tetragonal structure and a grain boundary phase existing between the main phases, in which R is at least one rare earth element including scandium and yttrium, T is at least one transition metal element including iron, or at least two transition metal elements including iron and cobalt, the grain boundary includes an R-T-B—C based compound having a higher R concentration, B concentration and C concentration than that of the main phase and having a lower T concentration than that of the main phase.
US10784027B2
A voltage dependent resistor includes a ceramic body and an electrically conductive structure for external connection. The ceramic body has two opposite surfaces and a side surface connecting the two opposite surfaces, and at least one of the two opposite surfaces is formed with at least one protrusion at a position adjacent to the side surface. As the protrusion makes the opposite surfaces of the ceramic body non-planar, the voltage dependent resistor is capable of suppressing the occurrence of flashover firelight during surge impact, so that its capability of withstanding surge impact is enhanced and its lifespan is prolonged. In addition, such structural arrangement is capable of preventing ceramic plates from adhering with each other when they are stacked with each other during the sintering stage of a green compact, thereby simplifying the post-processing procedures and minimizing the defect rate.
US10784006B2
Provided is an apparatus for generating electricity, mechanical energy, and/or process and district heat using a gas propellant chamber fueled with fissile material and enclosed in a sealed containment vessel which also contains an operating gas. The system allows for the operating gas to be compressed as it enters the nuclear fuel chamber where it is heated. As the operating gas exits the nuclear fuel chamber, the kinetic energy of the gas is converted to rotational energy by a variety of methods. The rotational energy is further converted to electricity, mechanical energy, and/or process and district heat. The operating gas circulates in the containment vessel and is cooled prior to re-entering the gas propellant chamber. The apparatus thereby provides a simpler and safer design that is both scalable and adaptable. The apparatus is easily and safely transportable and can be designed to be highly nuclear-proliferation-resistant.
US10784005B2
A device for removing foreign objects from nuclear reactor vessel includes a suction pipe; a suction opening structure disposed at a lower end of the suction pipe, an electric valve disposed at a connection of the suction pipe and the suction opening structure, a filter mesh and a suction pump sequentially located in the suction pipe and above the electric valve. The suction opening structure has a suction opening thereon, a water inlet of the suction pump is communicated with the suction opening, and a water outlet of the suction pump is communicated with the outside space of the suction pipe though a drainage pipe. The device further includes a touch switch disposed on the filter mesh which is in operative connection with the electric valve. A foreign object impact force to the filter mesh triggers the touch switch to close which causes the electric valve to close.
US10783999B2
Systems, methods, and computer program products are provided for the administration of ablation profiles during refractive surgery treatments. Basis data framework techniques enable the implementation of ablation profiles having various shapes, resulting in increased ablation accuracy when treating certain vision conditions. Exemplary basis data architecture approaches are configured to efficiently operate with annular, elliptical, and slit laser beam shapes.
US10783991B1
A system includes a plurality of RFID chips affixed to a catheter, a data collection engine device, and a server device. The data collection engine wirelessly transmits power to a first one of the RFID chips and receives first medical data from the first RFID chip while the first RFID chip is activated by the power receiver. The data collection engine generates a first message indicative of the first medical data to be sent to the server device. The server device can determine aspects of the catheter such as position and risk states based upon the first medical data.
US10783990B2
A clinical trial re-evaluation system is operable to perform at least one assessment function on a set of medical scans for each of a first subset of a set of patients of a failed clinical trial to generate automated assessment data for each of the first subset of the set of patients. The first subset of the set of patients corresponds to a subset of human assessment data determined to have failed to meet criteria of the clinical trial. Patient re-evaluation data is generated for each of the first subset of the set of patients by comparing the automated assessment data to the criteria. The patient re-evaluation data for a second subset of the first subset of the set of patients indicates the automated assessment data passes the criteria. Trial re-evaluation data is generated based on the patient re-evaluation data for transmission to a computing device for display.
US10783985B2
Methods of calculating a free energy of solubility for a compound in a solvent by computer operations include the following steps: (i) establishing, using a computer model, an initial state for a system including an aggregate of multiple molecules of the compound in a solvent; (ii) establishing, using the computer model, a final state of the system including a single molecule from the aggregate fully solvated in the solvent and separate from a transformed aggregate; (iii) transforming, using the computer model, the system from the initial state to the final state, via removing a first molecule of the compound from the aggregate to form the transformed aggregate and replacing the first molecule with solvent at the site of the first molecule; and (iv) calculating the free energy of the transformation between the initial and the final states, which determines the free energy of solubility for the compound.
US10783982B2
A data storage system can receive a data write request to write data to a physical address of a non-volatile semiconductor memory prior to detecting an error while storing the write data to the physical address. The detected error is corrected with a monitor module connected to the non-volatile semiconductor memory and a counter associated with the physical address is incremented with the monitor module in response to the corrected error. The write data can be subsequently read to a host in response to a data read request.
US10783978B1
A system includes memory dice, each having a register to store multiple read voltage levels. A processing device is to test each memory die by verification, via access to the multiple read voltage levels, whether each read voltage level falls within a corresponding relative voltage range. The processing device selects an initial read voltage level that achieves bit error rates not satisfying a threshold criterion at one of a first or a second shortest write-to-read (W2R) delay for the memory die and determines a bit error rate, using the initial read voltage level, of storage units of the memory die. The processing device reports the memory die as defective in response to one of: (i) a read voltage level, of the multiple read voltage levels, failing to verify; or (ii) the bit error rate of one or more storage units of the memory die satisfying the threshold criterion.
US10783975B2
A semiconductor memory device includes first and second memory transistors and first and second word lines connected to gate electrodes of the memory transistors. The semiconductor memory device is configured such that a first write operation to the first memory transistor, a second write operation to the second memory transistor, a third write operation to the first memory transistor, and a fourth write operation to the second memory transistor are executed in this order. In the first and second write operations, data write is performed using only a program operation. In the third and fourth write operations, data write is performed using the program operation and the verify operation.
US10783968B2
A semiconductor device may include a plurality of memory banks, a plurality of mode registers that may control an operational mode associated with each of the plurality of memory banks, and a set of global wiring lines coupled to each of the plurality of mode registers. The set of global wiring lines may include a first global wiring line to transmit data to each of the plurality of mode registers, a second global wiring line to transmit an address signal to each of the plurality of mode registers, a third global wiring line to transmit a read command signal to each of the plurality of mode registers, and a fourth global wiring line to transmit a write command signal to each of the plurality of mode registers.
US10783960B2
A non-volatile memory cell includes a first select transistor, a first floating gate transistor, a second select transistor and a second floating gate transistor. The first select transistor is connected with a source line and a first program word line. The first floating gate transistor has a first floating gate. The first floating gate transistor is connected with the first select transistor and a first program bit line. The second select transistor is connected with the source line and a first read word line. The second floating gate transistor has a second floating gate. The second floating gate transistor is connected with the second select transistor and a first read bit line. The first floating gate and the second floating gate are connected with each other.
US10783958B2
An apparatus and method are provided for implementing write assist with boost attenuation for static random access memory (SRAM) arrays. The apparatus includes a memory array comprising a plurality of SRAM cells. The apparatus further includes a write driver connected to each of a differential pair of bit lines in each of the plurality of SRAM cells of the memory array. The apparatus further includes a write assist attenuation circuit connected to the write driver, the write assist attenuation circuit comprising a clamping device configured to modify a control signal as a function of supply voltage and process to attenuate an amount of boost applied to pull one of the bit lines below ground in an active phase of a write cycle.
US10783951B2
Apparatuses and methods are disclosed that include two transistor-one capacitor memory and for accessing such memory. An example apparatus includes a capacitor coupled to first and second selection components. The apparatus further includes a first digit line and the first selection component configured to couple a first plate of the capacitor to the first digit line, and also includes a second digit line and the second selection component configured to couple the second plate to the second digit line. A sense amplifier is coupled to the second digit line and is configured to amplify a voltage difference between a voltage coupled to the second digit line and the reference voltage.
US10783949B2
Methods, systems, and devices for operating a ferroelectric memory cell or cells are described. A memory array may be operated in a half density mode, in which a subset of the memory cells is designated as reference memory cells. Each reference memory cell may be paired to an active memory cell and may act as a reference signal when sensing the active memory cell. Each pair of active and reference memory cells may be connected to a single access line. Sense components (e.g., sense amplifiers) associated with reference memory cells may be deactivated in half density mode. The entire memory array may be operated in half density mode, or a portion of the array may operate in half density mode and the remainder of the array may operate in full density mode.
US10783938B2
A memory device Input/Output includes a memory cell having a local bit line. A first IO circuit is coupled to the local bit line and is configured to output a local IO signal to a global bit line. A second IO circuit is coupled to the global bit line and is configured to output a global IO signal. A latch circuit is configured to latch the local IO signal in response to a data signal on the local bit line.
US10783932B2
To provide a magnetic memory for storing multi-level information capable of reading while sufficiently securing a read margin. Provided is a magnetic memory including: first and second magnetic storage elements that are provided between a first wiring and a second wiring crossing each other, and are electrically connected in series; a third wiring electrically connected between the first and second magnetic storage elements; a first determination unit that determines a magnetization state of the first magnetic storage element on the basis of a current flowing to the first magnetic storage element through the third wiring; and a second determination unit that determines a magnetization state of the second magnetic storage element on the basis of a current flowing to the first and second magnetic storage elements through the first wiring, in which the determination state of the second determination unit is changed on the basis of the determination result of the first determination unit.
US10783929B2
In some implementations, a system can be configured to manage groups of playback devices. For example, playback devices can be dynamically grouped in a variety of ways. Each playback device can store attributes that define the group to which the playback device belongs. Each playback device can send its group attributes to remote control devices and the remote control devices can determine groups of playback devices based on the group attributes. The remote control devices can then configure and present graphical user interfaces that represent the various groups of playback devices. In some implementations, a group of playback devices can be configured as a persistent group. For example, a pair of playback devices (e.g., wireless speakers) can store and send attribute data indicating that the pair of playback devices is a persistent group so that remote control devices can present and control the persistent group as a single device.
US10783928B2
Production of a financial market trading data video streams in a plurality of languages by receiving a financial market analysis result having an analysis type. Producing a sentence text-string corresponding to each of several languages by inserting characteristic information values from the financial market analysis result into a sentence template and translations of the sentence-template. The each said text string is converted into an audio segment and an image segment such that the audio segment and corresponding image segment have equal duration. A video segment is created by combining said audio segment and image segment. For each language of said plurality of languages, the video segments are stitched together thereby producing a financial market trading data video stream for said financial market analysis result.
US10783923B2
A data coding device includes an error correction coder that converts user data into ECC data by error correction coding, a modulation coder that converts the ECC data into a series of modulated code data, a detector that detects a local concentration of modulation marks/modulation spaces that are shorter than or equal to a prescribed minimum run-length plus N from the series of modulated code data, a conversion determiner that judges whether to convert the series of modulated code data into another series of modulated code data, according to a concentration, detected by the detector, of the modulation marks/modulation spaces, and a modulation data converter that converts the series of modulated code data into the another series of modulated code data.
US10783920B2
A method of operating a magnetic tape within a tape drive. The tape drive comprises a tape head, which shows a tape-bearing surface meant to face a front side of a magnetic tape, in operation. The tape-bearing surface comprises a transducer area. This area includes at least one transducer, which is a read or write element configured to read or write to the magnetic tape, respectively. The method may include driving the tape (along a longitudinal direction of circulation thereof above the tape-bearing surface) and concomitantly ejecting a gas flow toward the transducer area. The gas flow ejected impinges on the back side of the driven tape (e.g., opposite to the front side of the tape), so as to locally urge the front side of the tape against the transducer area and thereby read or write to the tape via said at least one transducer.
US10783913B1
A data storage device is disclosed comprising a head actuated over a disk surface, wherein the head comprises a plurality of elements including a write assist element. A bias signal applied to the write assist element is controlled such that the write assist element is substantially unprotruded, and while the write element is substantially unprotruded, an air bearing resonant frequency (ABRF) of the head and disk surface is measured. The bias signal applied to the write assist element is controlled such that the write assist element protrudes toward the disk surface, and while the write assist element protrudes toward the disk surface, the head is excited at the measured ABRF and the head touching down onto the disk surface is detected.
US10783909B1
A data storage device can employ a microactuator system that efficiently translates longitudinal microactuator strain into movement in-plane with a mid-plane of a gimbal tongue. A gimbal tongue may be suspended from a load beam with a transducing head mounted to the gimbal tongue and the transducing head separated from a magnetic recording medium by an air bearing. A microactuator attached to the gimbal tongue can be positioned so that a mid-plane of the microactuator is congruent with a mid-plane of the gimbal tongue.
US10783900B2
Methods, systems, and apparatus, including computer programs encoded on computer storage media, for identifying the language of a spoken utterance. One of the methods includes receiving input features of an utterance; and processing the input features using an acoustic model that comprises one or more convolutional neural network (CNN) layers, one or more long short-term memory network (LSTM) layers, and one or more fully connected neural network layers to generate a transcription for the utterance.
US10783893B2
An encoder and an encoding method for a multi-channel signal, and a decoder and a decoding method for a multi-channel signal are disclosed. A multi-channel signal may be efficiently processed by consecutive downmixing or upmixing.
US10783891B2
A system is provided that includes a first network interface for a first network type and a second network interface for a second network type that is different from the first network type. The system also includes at least one processor configured to cause the system to perform operations. The operations may include obtaining, from the first network interface, audio from a communication session with a remote device established over the first network and obtaining an indication of a communication device available to participate in the communication session and direct audio obtained from the communication session to a remote transcription system. The operations may also include directing the audio to the second network interface for transmission to the communication device, obtaining transcript data from the remote transcription system based on the audio, and directing the transcript data to the second network interface for transmission to the communication device.
US10783887B2
An application processor is provided. The application processor includes a system bus, a host processor, a voice trigger system, and an interrupt pad. The host processor is electrically connected to the system bus. The voice trigger system is electrically connected to the system bus and performs a voice trigger operation and issues a trigger event based on a trigger input signal that is provided through a trigger interface. The interrupt pad receives a first interrupt signal in response to an operating environment changing from a low noise environment to a noisy environment, and a part of the voice trigger system is changed from an idle state to a normal state to perform the voice trigger operation in response to the first interrupt signal being received.
US10783883B2
A method at a first electronic device of a local group of connected electronic devices includes: receiving a first voice command including a request for a first operation; determining a first target device for the first operation from among the local group; establishing a focus session with respect to the first target device; causing the first operation to be performed by the first target device; receiving a second voice command including a request for a second operation; determining that the second voice command does not include an explicit designation of a second target device; determining that the second operation can be performed by the first target device; determining whether the second voice command satisfies one or more focus session maintenance criteria; and if the second voice command satisfies the focus session maintenance criteria, causing the second operation to be performed by the first target device.
US10783880B2
A speech processing system includes an input for receiving an input utterance spoken by a user and a word alignment unit configured to align different sequences of acoustic speech models with the input utterance spoken by the user. Each different sequence of acoustic speech models corresponds to a different possible utterance that a user might make. The system identifies any parts of a read prompt text that the user skipped; any parts of the read prompt text that the user repeated; and any speech sounds that the user inserted between words of the read prompt text. The information from the word alignment unit can be used to assess the proficiency and/or fluency of the user's speech.
US10783874B2
A method for providing a voice feedback information to a user in a call is provided, including: acquiring a text information obtained by conducting a voice recognition on a voice information of the user; identifying a menu item to be jumped to according to the text information and multiple menu items of other party in the call, where the menu item to be jumped to is away from a present menu item by at least two levels; jumping to the identified menu item; where identifying the menu item to be jumped to includes: selecting a portion of menu items having a higher matching degree with the text information from the multiple menu items according to a predetermined information; identifying a menu item to be jumped to from the selected portion of menu items or a remaining portion of menu items.
US10783873B1
Systems and methods for identifying a person's native language, are presented. A native language identification system, comprising a plurality of artificial neural networks, such as time delay deep neural networks, is provided. Respective artificial neural networks of the plurality of artificial neural networks are trained as universal background models, using separate native language and non-native language corpora. The artificial neural networks may be used to perform voice activity detection and to extract sufficient statistics from the respective language corpora. The artificial neural networks may use the sufficient statistics to estimate respective T-matrices, which may in turn be used to extract respective i-vectors. The artificial neural networks may use i-vectors to generate a multilayer perceptron model, which may be used to identify a person's native language, based on an utterance by the person in his or her non-native language.
US10783872B2
A speech-enabled dialog system responds to a plurality of wake-up phrases. Based on which wake-up phrase is detected, the system's configuration is modified accordingly. Various configurable aspects of the system include selection and morphine of a text-to-speech voice; configuration of acoustic model, language model, vocabulary, and grammar; configuration of a graphic animation; configuration of virtual assistant personality parameters; invocation of a particular user profile; invocation of an authentication function; and configuration of an open sound. Configuration depends on a target market segment. Configuration also depends on the state of the dialog system, such as whether a previous utterance was an information query.
US10783865B2
An ergonomic, portable, electronic, string-like instrument that utilizes a string-like interface. The string-like interface is tactile for sightless playability and capable of advanced input such as force and pressure sensitivity. The string-like interface functions to select a note, trigger a selected note, select and play a note on the instrument or an external peripheral. The instrument is played using the techniques of multiple stringed instruments and the ergonomics allow the user to hold and handle the device consistent with playing techniques familiar to musicians of multiple instruments. It is internally or externally powered and connects directly to industry-standard musical hardware such as MIDI devices, amplifiers and multi-track recorders.
US10783861B2
A versatile cajón having a compact footprint that incorporates actuators for an internal bass-beater and an external hi-hat. The cajón may further serve as a base for supporting additional percussive instruments, such as snare drums, tom drums, cymbals, and Latin percussion. In an embodiment, a bass drum pedal may be secured inside the cajón and having a rotating shaft protruding through a side wall of the cajón. The shaft protrusion may be coupled to a foot pedal in an actuating manner. As such, when a percussionist presses down on the foot pedal (e.g., with a foot action), the shaft rotates the beater head to strike an internal wall of the cajón, thereby producing a bass-like percussive sound. Similarly, the system may include a hi-hat pedal and shaft combination that is also attached directly to one or more external side walls of the cajón.
US10783859B2
A method for forming a dye sublimation image in a vibrating membrane employed in a musical instrument comprising the steps of: providing an image, digitally prepared or otherwise, consisting of a simulated animal skin or another form of graphic; printing the image on a substrate employing a heat transfer ink dye; joining the substrate with the printed image with a sheet of a gas permeable membrane comprised of bi-axially oriented non-woven polyester fibers having a plurality of surface pores and vibrating and musical note producing capability; applying a combination of heat and pressure to the joined substrate with the printed image and the membrane to cause the individual surface pores to expand to enable the dye to gasify and permeate the surface pores to transfer the image; and, cooling the membrane to enable the surface pores to seal closed and encase the image within the surface of the membrane to protect against delamination and wear when the membrane vibrates which results from the intense and constant pounding of a drumstick, a mallet, a person's hand or some other rigid-like object.
US10783858B2
A four-string guitar that is easily usable for backpacking excursions without adding significant weight or taking significant space within the backpack, with a bridge that is placed near the bottom of the main body. The pear-shaped main body allows for additional tone production in a limited acoustical environment. The tone hole placed on the side enables the sound of the guitar to travel upward rather than projecting outward.
US10783846B2
Provided are a display device and a driving method for the display device. The driving method may include: dividing a frame of to-be-displayed image into m frames of display pictures; in any one of the m frames of display pictures, a difference between a drive voltage and a corresponding preset gray-scale voltage of at least one pixel unit among n pixel units on the display panel is different from a difference between a drive voltage and a corresponding preset gray-scale voltage for each of other ones of the n pixel units in positive and negative signs; for a pixel unit, a difference between at least one of m drive voltages in the m frames of display pictures and a preset gray-scale voltage of the pixel unit is different from a difference between each of other ones of them drive voltages and the preset gray-scale voltage of the pixel unit in positive and negative signs, and an average luminance value of the pixel unit in the m frames of display pictures equals the preset luminance; and arithmetic products of a backlight luminance and a sum of drive voltages of all pixel units on the display panel for the m frames of pictures are equal to each other.
US10783844B2
This display device comprises a display panel whereon a plurality of pixels are disposed, and a drive unit for driving the display panel. The display device includes: a conversion unit that convers an original signal representing the luminance of the pixel into a brightened signal and/or a darkened signal; a calculation unit that calculates the difference in luminance of the original signal between one pixel unit and another pixel unit located next to the one pixel unit; a determination unit that determines whether or not the difference in luminance exceeds a threshold; a selection unit that selects the original signal when determined that the difference in luminance exceeds the threshold, and selects the brightened signal or the darkened signal when determined that the difference in luminance does not exceed the threshold; and an input unit that inputs an input signal based on the signal selected by the selection unit into the drive unit.
US10783843B2
A display panel includes a plurality of sub-pixels each corresponding one color. Each sub-pixel includes a plurality of display units and a plurality of driving sub-circuits that are in one-to-one correspondence with the plurality of display units. Each driving sub-circuit is configured to drive a corresponding one of the plurality of display units to be in a bright state or a dark state. The plurality of driving sub-circuits are configured to drive at least two of the plurality of display units to display different display brightness in the bright state.
US10783841B2
A liquid crystal display device comprises a first and second display panels that display a first image and a second image, respectively based on input image data of m bits, and are both driven by n bits, where n
US10783831B2
A pixel circuit comprising an organic light emitting diode; a driving transistor including a gate, a source connected to a first node, a drain connected to a second power supply terminal; and a photosensitive circuit connected between a second node and a third node, the second node configured to receive a reference voltage. The driving transistor is configured to, responsive to a gate voltage and a source voltage, control a magnitude of a driving current flowing through the organic light emitting diode. The photosensitive circuit is configured to sense an intensity of light emission of the organic light emitting diode and to set a potential at the third node according to the reference voltage and the intensity that was sensed, the potential that was set being detectable by an external circuit via a sense line.
US10783822B2
A transfer circuit includes an input circuit, a reset circuit, an output circuit, and an output stabilizer circuit, and obtains an input signal at an input terminal, holds the input signal, and outputs the input signal from an output terminal as an output signal in synchronization with a clock signal. The output stabilizer circuit includes an inverter circuit and a transistor. The inverter circuit outputs from an output terminal an inverted signal having an inverted polarity of at least one of the input signal and the output signal. The transistor has a control signal end connected to the output terminal of the inverter circuit, a first main signal end connected to a power supply line of the output stabilizer circuit, and a second main signal end connected to the output terminal of the transfer circuit.
US10783818B2
A dual gate transistor circuit, a pixel circuit, and a gate drive circuit are provided. The dual gate transistor circuit includes a dual gate transistor, a first diode, and a second diode. The dual gate transistor has a first gate and a second gate, and the first gate receives a drive signal. The first diode is connected in series between the first gate and the second gate according to a first-polarity direction. The second diode is connected in series between the first gate and the second gate according to a second-polarity direction. The first-polarity direction is opposite to the second-polarity direction.
US10783811B2
A clip bracket assembly includes a clip bracket including a base portion and a clip portion, the base portion defining a clearance hole, the base portion and the clip portion together defining an insertion slot, the clip portion configured to hold a display panel inside the insertion slot; and a clip fastener including a head and a shank, the shank extending through the clearance hole defined in the clip bracket.
US10783810B1
An illumination display platform is provided. The platform includes an illumination source, like an LED strip, that provides lighting effects in connection with an art element and a panel system when the art element and panel system are in electrical and magnetic communication with one another. The illumination display platform permits tool-free assembly and disassembly.
US10783807B2
An adhesive patch is provided. The adhesive patch includes an adhesive region with adhesive and a void region devoid of any adhesive.
US10783806B2
According to one aspect, a display article having a first article end and a second article end includes a first portion having a first portion end proximal the first article end and first and second spaced tabs disposed at a second portion end opposite the first portion end. A second portion is adjacent the first portion wherein the second portion includes a third portion end adjacent the second portion end and disposed between the first and second spaced tabs and a fourth portion end proximal the second article end. The first portion is adapted to be secured to a support apparatus and the second portion is adapted to be deflected to a display position transverse to the first portion.
US10783803B2
The presently disclosed subject provides a biomimetic eye model, and methods of its production and use. In one exemplary embodiment, the biomimetic eye model can include a scaffold having a convex curvature, a fluidic device coupled to the scaffold, a fabricated eyelid coupled to the fluidic device and a motor coupled to the fabricated eyelid. In certain embodiments, the scaffold can be impregnated with one or more keratocytes and a surface of the convex curvature of the scaffold can be covered with one or more layers of epithelial cells.
US10783798B2
Embodiments include method, systems and computer program products for coaching an individual during an interaction with a client to produce a desired outcome. Aspects include receiving a user profile for the client, one or more needs of the client, and a goal of the interaction and receiving a modeling profile for the client and relevant environmental information for the client. Aspects also include monitoring the interaction between the individual and the client and analyzing a feedback of the client to actions of the individual and providing guidance to the individual to assist the individual in producing the desired outcome, wherein the guidance is based on the feedback.
US10783796B2
Embodiments include devices and methods operating a robotic vehicle. A robotic vehicle processor may detect an object posing an imminent risk of collision with the robotic vehicle. The robotic vehicle processor may determine a classification of the detected object. The robotic vehicle processor may manage a rotation of a rotor of the robotic vehicle prior to a collision based on the classification of the object.
US10783789B2
A lane change estimation device includes a detection unit that detects a surrounding situation of an own-vehicle, a first index value deriving unit that derives a first index value according to a traveling-direction-related relationship between each of a plurality of pairs of vehicles, each pair including two vehicles among the own-vehicle, a first vehicle traveling in front of the own-vehicle in a first lane in which the own-vehicle travels, a second vehicle traveling in front of the own-vehicle in a second lane adjacent to the first lane, and a third vehicle traveling behind the second vehicle in the second lane on the basis of the surrounding situation of the own-vehicle, and an estimation unit that estimates a probability of lane change of the third vehicle on the basis of the first index value derived and a lateral position of the third vehicle.
US10783785B2
A train presence detection apparatus includes an information acquisition unit to acquire position information on a first end point and a second end point located in a first line section formed in a loop and virtual block presence/absence information indicating whether a virtual block indicating a specific position in the first line section is included in a designated section that is any of a first section and a second section in which the first end point and the second end point are located at both ends; a designated section determination unit to determine which of the first section and the second section is the designated section based on the position information on the first end point and the second end point and the virtual block presence/absence information; and a presence determination unit to determine whether a train is present in the designated section.
US10783782B1
A computer-implemented method, a device and a computer program product for managing a vehicle are proposed. The computer-implemented method comprises: a determining, by a device operatively coupled to one or more processing units, a potential road section associated with a current road section on which a first vehicle is moving, the potential road section being a road section to which the first vehicle potentially moves from the current road section; obtaining, by the device, a road condition of the potential road section, the road condition being generated at least based on monitoring records of a second vehicle moving on the potential road section; and in response to the road condition indicating that the potential road section is unsuitable for moving on, transmitting, by the device, an alert about the potential road section to the first vehicle.
US10783774B2
A method for estimating road travel time based on the built environment and low-frequency floating car data belongs to the technical field of urban traffic management and traffic system evaluation. The method takes built environment as an explanatory variable of the road travel time. The interpretability of this variable is proved by a numerical example. In addition, the method determines distribution parameters of road travel time using the number distribution of vehicles instead of distance. The benefits of the method are that: (1) it explains the positive effect of built environment on road travel time; and (2) it reflects the speed difference among different road sections, which can improve the precision of estimating road travel time.
US10783754B2
Systems, apparatuses and methods for increasing potential payout opportunities using multiple card indicia representing multiple cards. One embodiment involves determining whether any one or more of a plurality of cards of a poker game having multiple poker hands are to be randomly provided with multiple card indicia representing multiple cards, presenting the plurality of cards of the poker hands, including the one or more of the plurality of cards determined to be randomly provided with multiple card indicia, and identifying a plurality of resulting hands for each of the multiple poker hands that include a multiple card indicia, where each of the plurality of resulting hands includes a different subset of a total of the indicia of the other cards in the respective poker hand and any cards provided with multiple card indicia.
US10783752B2
Devices, systems and methods are provided to enable casino operators to provide printed tangible items for patron uses, such as lottery tickets. Such embodiments accept tangible indicators of financial consideration from patrons, such as currency or tickets associated with certain verifiable values, such as valid and winning lottery tickets and other forms of consideration which a patron can provide to a casino in exchange for one or more points.
US10783746B2
A fraud detection system which detects fraud in a game of performing collection and redemption of chips in accordance with a win or lose result includes a camera which captures an image of chips contained in a chip tray of a dealer, an image analyzing apparatus which analyses the image captured by the camera to detect an amount of the chips contained in the chip tray, a card distribution device which determines a win or lose result of a game, and a control device which compares the win or lose result of the game and the amount of the chips contained in the chip tray before and after collection and redemption of the chips to detect fraud.
US10783745B2
A fraud detection system which detects fraud in a game of performing collection and redemption of chips in accordance with a win or lose result includes a camera which captures an image of chips contained in a chip tray of a dealer, an image analyzing apparatus which analyses the image captured by the camera to detect an amount of the chips contained in the chip tray, a card distribution device which determines a win or lose result of a game, and a control device which compares the win or lose result of the game and the amount of the chips contained in the chip tray before and after collection and redemption of the chips to detect fraud.
US10783743B2
An interleaved wagering system including an interactive controller constructed to communicate application telemetry associated with an interactive application provided by the interactive controller. The system also includes a wager controller constructed to communicate a wager result associated with a received wager request. The system also includes the application controller operatively connected to the interactive controller and the wager controller, and constructed to: receive application telemetry; upon receiving application telemetry, determine whether to trigger a supplementary mode based on a threshold value; and communicate a notification to provide a supplementary mode session. The interactive controller is further constructed to: provide the supplementary mode session upon receiving the supplementary mode notification; communicate results of the supplementary mode session. The application controller is further constructed to: receive the results of the supplementary mode session; and when the received results are successful, communicate a request for benefits.
US10783741B2
Systems, apparatuses and methods for enhancing or otherwise modifying gaming indicia sources, such as slot game reels sourcing slot games, poker decks sourcing poker hands, etc. Slot game embodiments involve replacing or modifying symbols with new or transformed symbols on a slot game event basis, such as on a spin-by-spin basis. Multiple sets of different symbol replacement instructions may be provided, such that selection of one of the sets will cause different modifications to the slot reels than had another set been selected. Embodiments enable such selection and reel variation on a spin-by-spin basis in slot games.
US10783731B2
A wireless electronic lockset includes a processing unit, a locking bolt, a motor, a wireless communication tag, and a wireless interface. The lockset is capable of connecting to a mobile device via a first communication protocol and/or a second communication protocol. The lockset sends a value to the mobile device via the first communication protocol and receives an actuation command via the second communication protocol if the mobile device has been verified by a server. The actuation command causes the lockset to lock or unlock the door.
US10783728B1
The disclosed computer-implemented method for controlling access may include (i) installing on a personal mobile device a mobile device application that enforces an authorization security policy for protected premises, (ii) checking, by the mobile device application and in response to installing the mobile device application, whether the personal mobile device satisfies a condition of the authorization security policy, (iii) granting authorization for the personal mobile device to function as an access card based on a result of checking whether the personal mobile device satisfies the condition of the authorization security policy, and (iv) enforcing an additional access security policy on the personal mobile device after granting authorization for the personal mobile device to function as the access card. Various other methods, systems, and computer-readable media are also disclosed.
US10783726B1
The present invention is a secure document compartment that can hold important vehicle documents, and is conveniently placed proximate to a user, so that the user may retrieve the documents in a fast and secure fashion. According to the present invention, the user may actuate opening of the secure document compartment manually with the help of an access panel or by voice activation. Further, the present invention may be visible and attached to an upper dashboard of the vehicle, right behind the steering wheel for easy retrieval of documents, or, may be installed inside, as an invisible compartment inside the dashboard. Furthermore, the present invention may comprise a camera, a microphone, and necessary circuitry that enables the secure document compartment to have multiple smart functionalities, such as audio/video recording and play back, remote wireless operations etc.
US10783724B2
A method of data collection for a vehicle includes defining a vehicle build configuration based on individual build configurations of one or more vehicle systems, and defining a data acquisition definition file at a data collection and reporting hub based on the vehicle build configuration. The data acquisition definition file includes parameters and measurements to be performed by a data acquisition system located at the vehicle. The data acquisition definition file is requested by the data acquisition system and the data acquisition definition file is communicated to the data acquisition system via a two way electronic communication link between the data collection and reporting hub following the request from the data acquisition system. Vehicle data is collected at the data acquisition system based on the data acquisition definition file.
US10783721B2
A monitoring and diagnostics system for a machine having a plurality of rotating components includes a powertrain with a plurality of rotating components and a vibration sensor. The vibration sensor include a vibration sensor element and a sensor controller. The vibration sensor is disposed adjacent one of the plurality of rotating components. The vibration sensor element is configured to generate raw vibration data indicative of vibrations of the vibration sensor element. The sensor controller is configured to access a vibration threshold, access a time threshold, receive the raw vibration data from the vibration sensor element, generate condition indicators based upon the raw vibration data; compare the condition indicators to the vibration threshold, and if the condition indicators exceed the vibration threshold for a time exceeding the time threshold, transmit a predetermined amount of raw vibration data to a remote system remote from the machine.
US10783720B2
An illustrative example method of monitoring value added activity includes positioning a detector near a selected portion of a machine using a clip for situating the detector in a position where the detector can detect at least one electrical characteristic associated with operation of a machine; communicating an indication of the detected electrical characteristic between the detector and a user interface; and displaying a visual representation of value added activity information based the indication.
US10783716B2
A digital medium environment is described to generate a three dimensional facial expression from a blend shape and a facial expression source. A semantic type is detected that defines a facial expression of the blend shape. Transfer intensities are assigned based on the detected semantic type to the blend shape and the facial expression source, respectively, for individual portions of the three dimensional facial expression, the transfer intensities specifying weights given to the blend shape and the facial expression source, respectively, for the individual portions of the three dimensional facial expression. The three dimensional facial expression is generated from the blend shape and the facial expression source based on the assigned transfer intensities.
US10783715B2
Method and system for displaying augmented reality reflective of environmental features affecting visibility. Characteristics of a virtual object to be displayed on view of scene is determined. Environmental features affecting visibility along a line-of-sight from scene origin to virtual object are detected. When detected feature is at least one non-obstructing feature, its effect on visibility is determined, and virtual object is displayed superimposed onto view of scene such that appearance of virtual object is consistent with determined effect on visibility. When detected feature includes an amorphous obstructing feature, its range and contour is determined, and obstructed portions of virtual object is determined based on difference between range of virtual object and range of amorphous obstructing feature, and virtual object is displayed superimposed onto view of scene such that determined obstructed portions of virtual object appear obstructed in displayed view.
US10783697B2
One aspect of the invention provides a method for drift correction to correct a 3D point collection dataset to compensate for drift over time. The method includes: (a) separating the 3D dataset into n segments, wherein n>1; (b) for each of the n segments, reconstructing a volume image as a 3D histogram in which a count for each voxel in the histogram equals a number of localization estimates falling within the voxel; (c) performing 3D cross-correlation between pairs of the n segments; (d) identifying a correlation peak in a result of the 3D cross-correlation to determine a shift distance between pairs of the n segments; (e) solving an overdetermined system of shift distances to determine independent shifts; and (f) offsetting positions from a plurality of segments in the 3D point collection dataset with the independent shifts calculated in step (e) to correct for drift.
US10783695B2
In one embodiment, a computing system may determine a pixel area in a two-dimensional coordinate system associated with a display. The system may project the pixel area into a three-dimensional coordinate system to determine a projected area in the three-dimensional coordinate system. Based on the projected area, the system may access a portion of an analytical definition of a glyph, the portion of the analytical definition defining one or more areas of the glyph. The system may compute a coverage proportion of the pixel area that overlaps with the one or more areas of the glyph. The system may then determine a color for the pixel area based on the coverage proportion.
US10783691B2
Certain embodiments involve generating one or more of appearance guide and a positional guide and using one or more of the guides to synthesize a stylized image or animation. For example, a system obtains data indicating a target image and a style exemplar image. The system generates an appearance guide, a positional guide, or both from the target image and the style exemplar image. The system uses one or more of the guides to transfer a texture or style from the style exemplar image to the target image.
US10783689B2
A user interface may be presented to a user that may provide an intuitive interface configured for generating animations. The user interface may be users of varying levels of expertise, while retaining the freedom of authoring complex narratives in an animation. A given narrative may be constrained by user input related to one or more of events to occur in an animation, individual animation components that may be included in the events, and/or other input. The system may be configured to “fill in” missing gaps in a narrative to generate a consistent animation while still meeting one or more narrative constraints specified by user input. By way of non-limiting example, gaps may be “filled in” by effectuating non-user selections of one or more of events, animation components, and/or other information used to generate an animation.
US10783679B2
According to one implementation, a system for visualizing media content includes a computing platform including a hardware processor and a system memory, storing a content visualization software code. The hardware processor is configured to execute the content visualization software code to receive a media file, parse the media file to identify a primary content and metadata describing the primary content, and analyze the metadata to determine representative features of the primary content. The hardware processor further executes the content visualization software code to generate a circular visual representation of the primary content based on the metadata and the representative features, the circular visual representation having a non-linear correspondence to at least one of the representative features. The circular visual representation includes a central circle having a central radius, and multiple, at least semicircular segments, each having a respective radius greater than the central radius.
US10783669B2
An encoder may perform a method of compressing texture coordinates using texture atlas. In one example implementation, the method may include predicting texture coordinates of a corner of a triangle, the triangle being one of a plurality of triangles of a geometric mesh, the predicting based on a corresponding texture atlas and local information associated with the corner. The method further includes determining a residual vector based on the predicted texture coordinates, performing entropy encoding of the residual vector along with residual vectors of other corners of the geometric mesh, and generating compressed data based on the entropy encoding.
US10783668B2
A decoder, an encoder and a method for decoding 3D point cloud data. The decoder includes a communication interface configured to receive an encoded bit stream comprising the 3D point cloud data and a processor. The processor is configured to decode the bit stream to identify a plurality of 2D frames; identify corresponding pixels in two or more geometry frames in the plurality of 2D frames based on locations of the corresponding pixels in the two or more geometry frames; identify depth values of the corresponding pixels in the two or more geometry frames; identify duplicate points in at least one of the two or more geometry frames based on the identified depth values of the corresponding pixels in the two or more geometry frames; and remove or ignore the identified duplicate points while reconstructing the 3D point cloud data.
US10783662B2
A method for estimating a sub-pixel position of an extreme point in an image uses a parametric function. The parametric function is fitted locally to a group of neighboring pixels in the image, and a spatial position of an extreme point of the parametric function is identified. If the extreme point of the parametric function is of a different type than the extreme point in the image, or the position of the extreme point of the parametric function is located outside an area defined by the pixel positions in the group of neighboring pixels, a pixel is removed from the group of neighboring pixels and the fitting of the parametric function is repeated. In the end, the sub-pixel position is estimated as the position of the extreme point of the parametric function. A level of uncertainty of the estimated sub-pixel position is estimated as the number of repetitions needed before arriving at the estimate of the sub-pixel position.
US10783657B2
A method and an apparatus for vehicle position detection are provided. An image collecting device installed on a target vehicle is used to capture a region in front of the target vehicle at a current moment under a fixed viewing angle, to acquire a real image. Then, a virtual image under a preset viewing angle is generated based on the real image. The virtual image includes effective features of a side vehicle, and the side vehicle is accurately recognized based on the effective features, thereby determining position information of the side vehicle, so as to prevent accidents such as a collision between the target vehicle and the side vehicle.
US10783651B2
A three-dimensional reconstruction method and device based on a monocular three-dimensional scanning system is provided. The method includes: a depth map of a measured object is collected by using the invisible structured light scanning component, and the depth map is converted into a three-dimensional data point set, and the three-dimensional data point set includes a plurality of three-dimensional points; a target light plane equation corresponding to a target three-dimensional point is determined in the plurality of three-dimensional points; the target three-dimensional point is projected onto a modulated multi-line stripe image, and a target stripe corresponding to the target light plane equation is determined in the modulated multi-line stripe image; and a three-dimensional point reconstructed by the target stripe, in a camera coordinate system is obtained according to the target light plane equation and center coordinates of the target stripe.
US10783650B2
Disclosed is a method for registering at least two different 3D models, whereby the models image the same object at least in places, including: detecting and describing features in the 3D models; assigning features of the first 3D model to the features of the second based on descriptions that are as similar, for each feature of the first 3D model, a feature of the second is determined, and notating the first assignments as vectors, then performing the opposite assignment; comparing the vectors of the first and second assignments and determining common, bijective vectors of both, and randomly selecting at least three bijective vectors; applying the selected vectors to the first 3D model and checking whether the vectors essentially image common points of the 3D models; if successful, using the selected vectors to generate a transformation, and if not, discarding all vectors and rerunning of the method with other data.
US10783646B2
A method for detecting motion in a video sequence comprising distorted image frames is provided. The method comprises determining (101) a spatial resolution distribution for the distorted image frames; determining (102) a motion detection sensitivity map for the distorted image frames, the motion detection sensitivity map comprising areas having different motion detection sensitivity levels, wherein the motion detection sensitivity map is determined based on the spatial resolution distribution; and detecting (103) motion in the video sequence based on the motion detection sensitivity map. A motion detecting component and a camera including such a component is also disclosed.
US10783634B2
Apparatus, systems, and methods to improve imaging quality control, image processing, identification of findings, and generation of notification at or near a point of care are disclosed and described. An example imaging apparatus includes a processor to at least: evaluate first image data with respect to an image quality measure; when the first image data satisfies the image quality measure, process the first image data using a trained learning network to generate a first analysis of the first image data; identify a clinical finding in the first image data based on the first analysis; compare the first analysis to a second analysis, the second analysis generated from second image data obtained in a second image acquisition; and, when comparing identifies a change between the first analysis and the second analysis, trigger a notification at the imaging apparatus regarding the clinical finding to prompt a responsive action.
US10783632B2
Machine learning systems and methods are disclosed for prediction of wound healing, such as for diabetic foot ulcers or other wounds, and for assessment implementations such as segmentation of images into wound regions and non-wound regions. Systems for assessing or predicting wound healing can include a light detection element configured to collect light of at least a first wavelength reflected from a tissue region including a wound, and one or more processors configured to generate an image based on a signal from the light detection element having pixels depicting the tissue region, determine reflectance intensity values for at least a subset of the pixels, determine one or more quantitative features of the subset of the plurality of pixels based on the reflectance intensity values, and generate a predicted or assessed healing parameter associated with the wound over a predetermined time interval.
US10783620B2
A method is provided. The method includes receiving image data representing an image. The image data includes first image data representing a first version of the image. The image data includes second image data representing a second version of the image. The method includes generating gain-related data based on the first image data and the second image data. The method includes generating effective gain-related data at least based on the gain-related data and a gain-related control parameter. The method includes applying the effective gain-related data to the image data to generate output image data representing an output version of the image. A computing device is also provided.
US10783616B2
Embodiments of the present invention provide a method for sharing and downloading a light field image. The method includes: receiving a request for sharing a light field image with a first object; analyzing the light field image to obtain a refocusing focal point of the light field image; generating an ordinary image by using the light field image and by using the refocusing focal point as a focal point; and sharing the ordinary image with the first object. According to the method provided in the embodiments of the present invention, a refocusing focal point is automatically selected, so that a problem of selecting a refocusing focal point when a light field image is converted into an ordinary image is resolved, and the light field image is converted by using the refocusing focal point and shared with the first object.
US10783615B2
A method of detecting an object depicted in a digital image includes: detecting a plurality of identifying features of the object, wherein the plurality of identifying features are located internally with respect to the object; projecting a location of region(s) of interest of the object based on the plurality of identifying features, where each region of interest depicts content; building and/or selecting an extraction model configured to extract the content based at least in part on: the location of the region(s) of interest, the of identifying feature(s), or both; and extracting the some or all of the content from the digital image using the extraction model. Corresponding system and computer program product embodiments are disclosed. The inventive concepts enable reliable extraction of data from digital images where portions of an object are obscured/missing, and/or depicted on a complex background.
US10783614B2
Methods, devices and a machine-readable storage medium for denoising a Computed Tomography (CT) image are provided. In one aspect, a method of denoising a CT image includes: generating an original CT image according to raw data which is obtained by scanning a subject, where a pixel count of the original CT image is greater than a preset target pixel count; obtaining a denoised image by denoising the original CT image; and obtaining a target image as a CT image of the subject by compressing the denoised image to the preset target pixel count based on an interpolation algorithm.
US10783598B2
A system and method provide dosage information from past trials of potential subjects to clinics performing drug research so the clinics can determine if the potential subjects qualify (i.e. have waited sufficient time) to qualify for second trial. The system provides a clearinghouse that does not divulge the prior trials proprietary information to the requestor. Likewise, the system does not divulge to prior trial holders who is requesting subject information for subsequent trials. Biographical information including biometric identification can be used to identify subjects in the database. A further method allows a subject to confirm the data in the database.
US10783596B1
This invention is a system and method for managing restaurant customer data elements.
US10783595B2
A system and method for managing requests for integrating a handheld customer interface with a point of sale (POS) system are disclosed. In one aspect, an integrated customer interface module is configured to communicate with a wireless mobile computing device of a customer and a POS system associated with a restaurant chain. The integrated customer interface module is configured to receive a request from the customer to check in to one of the chain's restaurants, automatically generate an order in the POS system, receive information regarding the customer from the remote database, and send at least a portion of the information regarding the customer to the POS system so as to be used as identification in the ordering and purchasing at the restaurant.
US10783594B2
Attributes associated with a farming area and production data may be received. A user's expertise level may be identified. At least one crop model may be executed to generate a plurality of scenarios specifying specific actions to perform associated with a farming topic. A production goal associated with the farming area may be received. Based on the production goal and the user expertise level, the plurality of farming scenarios may be filtered to generate at least one candidate scenario. A candidate scenario may be presented for execution. An app such as a chat bot may perform a dialog with the user in executing steps of the candidate scenario.
US10783593B2
A computer-implemented method, system, and computer program product for communicating among participants in a conference at a location, the computer-implemented method comprising: configuring a number of badges, each badge having a processor connected to a memory, a storage, a Bluetooth communications device, and a badge display; and storing a number of programs in the storage; wherein a first program of the number of programs is configured to broadcast one or more keywords; wherein a second program of the number of programs is configured to detect particular keywords in a received broadcast; and wherein the number of badges are configured to be wearable and visible to others when worn.
US10783587B1
Systems and methods are disclosed for generating vehicle insurance rates based on driver-independent variables and/or driver-dependent variables. Vehicle insurance rates may additionally or alternatively be based on changes in the level of autonomy of vehicles. In some embodiments, a density of vehicles near a target vehicle may be tracked. Vehicle insurance rates may be determined based on the vehicle density. Furthermore, systems and methods are disclosed for analyzing a driver's use of autonomous vehicle features and/or the driver's maintenance of the autonomous vehicle. The driver may also be taught certain driving skills by enabling vehicle teaching features. The driver's response to these teaching features may be monitored, and a reward or recommendation may be generated and provided to the driver based on the driver's response.
US10783581B2
A wireless end-user device is disclosed. One or more user inputs indicate that a user of the wireless end-user device authorizes the device to send a first file to a server over a network of a first network type, and that the user does not authorize the device to send a second file to the server over the network of the first type. Based on the one or more user inputs and a determination that the device is connected to the network of the first type, the device sends the first file, but not the second file, to the server over the network of the first network type. Upon detecting that the device is connected to a network of the second network type, the device sends the second file to the server over the network of the second network type.
US10783580B2
Systems and methods for processing an image using machine learning are provided. The system includes a processor in communication with a client device, and a storage medium storing instructions that, when executed, cause the processor to perform operations including: receiving an image of a vehicle from the client device; extracting one or more features from the image; determining a make and a model of the vehicle based on the extracted features and using a machine learning algorithm. The operations also include: obtaining user information relating to a financing request for the vehicle; determining and transmitting to the client device a real-time quote for the vehicle based on the make, the model, and the user information.
US10783567B2
According to one implementation, a system for automating customer assistance includes a computing platform having a hardware processor and a memory storing a venue inventory and activity guide software code. The hardware processor is configured to execute the venue inventory and activity guide software code to receive a query from a customer of the retail venue, and determine if the query corresponds to either a retail product or an experience available at the retail venue. If the retail product or the experience is not available at the retail venue, the hardware processor executes the venue inventory and activity guide software code to generate a negative response. If the retail product or the experience is available at the retail venue, the hardware processor executes the venue inventory and activity guide software code to identify a location of the retail product or the experience, and guide the customer to the location.
US10783562B2
Access requests to a database are monitored for average time taken to fulfill the requests and whether a queue of unfulfilled requests is building up beyond an acceptable threshold. When the queue has built up beyond the acceptable threshold and/or when the average time taken to fulfill the requests has exceeded a delay threshold value, database access requests may be rejected. In one advantageous aspect, a graceful degradation in performance may be achieved by selectively rejecting access requests of a lower priority and favoring access requests of a higher priority for execution.
US10783550B2
A system and method includes configuring a computer system to provide output of one or more advertisements of products to a user device of a consumer, receiving, by the computer system, one or more inputs of impressions, clicks, orders and other KPIs, estimating, by the computer system, for a click through rate (CTR) of advertisements of the products based on the inputs received, optimizing, by the computer system with an optimization module, an estimated revenue and estimated advertisement spending (Adspend) based on the CTR of advertisements, and providing, by the computer system, output of one or more advertisements of the products to the user device of the consumer for display.
US10783547B2
Unique user impressions of advertisements on a social networking system may be tracked and approximated by the social networking system. After an advertisement is delivered to a user, identifying information about the advertisement is associated with the user if the advertisement was not previously presented to the user. An impression count records the number of unique impressions of the advertisement by users of the social networking system up to a predetermined threshold. After the predetermined threshold is reached, the social networking system records a sampling of the unique impressions. Upon request for the number of unique impressions for an advertisement, the social networking system may extrapolate the recorded unique impressions based on the predetermined threshold. In one embodiment, a time degradation factor may be applied to the sampling rate so that recent impressions are sampled more than older impressions.
US10783545B2
A system and method for the redemption of reward points for cryptocurrency is disclosed. The system may allow transaction account holders to redeem earned reward points for a selected cryptocurrency. The transaction account holders may establish a blockchain wallet to maintain and track the cryptocurrency. The system may interact with an exchange API of a cryptocurrency exchange platform to purchase the cryptocurrency for a blockchain wallet address associated with the blockchain wallet, or to initiate a transfer of pre-purchased cryptocurrency to the blockchain wallet. The system may provide additional authentication measures to ensure that the transaction is initiated by the transaction account holder and that the transaction account holder understands the potential risks of investing in cryptocurrencies.
US10783544B1
In one implementation, a system with a decentralized architecture to provide secure loyalty program includes a plurality of separate database systems to disperse storage of data for the secure loyalty program across a plurality of separate file systems with different authentication and encryption schemes, a loyalty program computer system to securely allocate loyalty rewards in real-time, a first intermediary computer system to securely manage and provide access to the first intermediary database system, and a second intermediary computer system to securely manage and provide access to the second intermediary database system.
US10783543B1
A method, system and computer program product for administering a discount rewards program to customers of merchant establishment is disclosed. A customer is assigned a discount level as part of enrollment into the discount rewards program and a bill amount is discounted based on the assigned discount level. For a next purchase transaction at the merchant establishment, it is determined whether the next purchase transaction is within a predefined time interval from the purchase transaction associated with the customer enrollment. A current discount level is determined by incrementing or decrementing the discount level based on the determination of whether the next purchase transaction is within the predefined time interval or not. A bill amount is discounted based on the current discount level and the discounted bill amount is provided to the customer to reward the customer.
US10783542B2
In a computer-implemented method for providing biometric security for mobile loyalty services via a native mobile application a physical location of a mobile device are accessed by a single native mobile application executing on the mobile device, wherein the physical location is accessed in response to a user initiating access to the mobile loyalty services. A time corresponding to a determination of the physical location of the mobile device is accessed. A date corresponding to a determination of the physical location of the mobile device is accessed. Biometrics of the user of the mobile device is accessed. Biometric security of the single native mobile application is provided based on the physical location, the time corresponding to a determination of the physical location of said mobile device, the date corresponding to a determination of the physical location of the mobile device, and the biometrics of the user.
US10783540B2
A server including a first storage module for storing possessed objects of a first user and a second user, a communication module for receiving from a device of the first user a request for transfer of an object from the first user to the second user, a second storage module for storing an object transfer relationship between the first user and the second user in response to the request for transfer, and a benefit granting module for granting a predetermined benefit to the second user if a condition for granting a benefit in relation to an object transfer relationship of the second user with other users is satisfied when an object is transferred in response to the request for transfer.
US10783528B2
A system and method are provided for targeting marketing content to a user. A user's photographic likeness, in some embodiments as a still image, live moving image, or animated moving image, are altered to simulate the application of selected marketing content onto the photographic likeness. The marketing content is selected from a set of marketing content comprising input color, marketing content associated with an advertisement, or marketing content associated with a set of search results. The marketing content is selected based on a comparison of a user profile to target profiles of the set of marketing content.
US10783523B2
A system and method are described for n alternate mobile payment service. The system includes a server computer for enrolling and storing user account information. The server computer is also capable of generating a unique one-time-use identifier for use during a transaction. The one-time-use identifier is returned to user as an electronic coupon which may be in the form of a two-dimensional barcode. The coupon may be used at a merchant location to complete a transaction. When the barcode is scanned it may processed similar to a credit/debit/prepaid card payment.
US10783515B2
A method and system for providing electronic wireless credit card transactions to small businesses in conditions where the wireless telecommunications network is old and/or underdeveloped. The system allows a merchant to accept payment cards firstly via TCP/IP and secondly via SMS and/or USSD wherever only the most basic GSM network is available. The merchant does not need dedicated wireless terminals to do that. With the smartphone app and the peripheral card reader using the novel method, a merchant in the middle of a remote African village or Siberia can accept a payment cards on the spot, right there and then, if basic GSM network is available, but can also use the same devices in e.g. central London with 4G networks. A corresponding software product is also described.
US10783511B2
A method of payment terminal operation, including: receiving a payment collection request for a payment from an application, generating a payment initiation request for the payment, sending the payment initiation request to a secure processing system, switching the secure processing system from operation in an unsecured mode to operation in a secured mode in response to receipt of the payment initiation request, facilitating payment information entry, and receiving a payment response notification, generated based on the payment information, at the main processor.
US10783510B2
A method for processing a transaction with installment checks include: receiving a first transaction message from an acquiring institution, the first transaction message including a primary account number, an installment indicator, and transaction data; determining eligibility for payment via installment based on a comparison of the transaction data to eligibility rules associated with the primary account number; transmitting the first transaction message to a financial institution associated with the primary account number; receiving a second transaction message from the financial institution, the second transaction message including a response code indicative of approval and an eligibility indicator indicating eligibility for payment via installment; and transmitting the second transaction message to the acquiring institution for display to a consumer involved in the related payment transaction on a point of sale system.
US10783508B1
A point-of-sale system for concurrently processing multiple point of sale transactions, each point of sale transaction including an item input portion and a payment portion of the transaction, each portion performed in series. The point-of-sale system comprises a customer facing terminal and a merchant facing terminal. The system can comprise a plurality of customer facing terminals and can be portable. The customer facing terminal is configured to receive an input of payment information for a first point of sale transaction during a payment portion of the first point of sale transaction. The merchant facing terminal is configured to receive an input of an item selection for a second point of sale transaction during an item input portion of the second point of sale transaction and during the payment portion of the first point of sale transaction.
US10783506B2
A method for controlling access to a facility including: sending a first signal from a handset to a plurality of beacon modules using a low energy wireless technology, the signal comprising an identification of the handset or a user; determining received signal strength indication from each of the plurality of beacon modules and determining a time averaged received signal strength indication from each of the plurality of beacon modules. The method also includes determining the location of the handset based on the pattern of the received time-averaged signal strength indications from the plurality of beacon modules, sending a second signal from the beacon modules to an authentication server, the second signal comprising (i) the identification of the handset or a user and (ii) the time-averages received signal strength indication or individual received signal strength indication from each of the plurality of beacon modules and determining at the authentication server the nearest user or handset to an access controlled gate of the facility if a signal from more than one handset is received. The method also includes determining if the handset or user is authorized to enter the facility and opening a gate to allow access to the facility if the handset or user is authorized.
US10783499B1
A non-transitory storage medium having stored thereon instructions, the instructions being executable by one or more processors to perform operations comprising responsive to a trigger, generating a model based on extracted features from a first selection of data from a dataset, testing the predictive appointment model based on a second selection of data from the dataset. Applying the predictive appointment model to the dataset to generate customer preference probabilities. Aggregating a list of available appointments. Predicting and proactively contacting customers most likely to accept one or more available appointments based on the customer preference probabilities.
US10783496B2
A method, computer system, and computer program product for analyzing skills. The method identifies the skills for a group of people and displays the skills identified on a radar chart in a graphical user interface in a display system. The radar chart has axes extending from a common origin in which a skill in the skills for a person in the group of people is displayed on an axis in the axes corresponding to the skill. A balance of skills is identified for the group of people. The balance of skills has desired values for the skills needed for the group of people. The balance of skills for the group of people is displayed in the radar chart.
US10783493B2
A method may comprise: receiving, by a front-end transaction central server, a browse request for browsing detailed information of a combined merchandise object, and acquiring stock information of each sub-merchandise object, respectively; if a target physical warehouse has a physical stock of at least one first sub-merchandise object and no physical stock of at least one second sub-merchandise object, and if a target virtual negative sale warehouse corresponding to the target physical warehouse has a virtual negative sale stock of the at least one second sub-merchandise object, providing salable information of the combined merchandise object; and when a request for buying the merchandise object is received, generating a transaction order, and determining the target physical warehouse as a prerouting warehouse of the first sub-merchandise object, and determining the target virtual negative sale warehouse as a prerouting warehouse of the second sub-merchandise object.
US10783492B2
A fitments validation system and method for automotive parts are provided in which the fitments vehicles to the parts in a PIM are validated.
US10783490B2
This invention has disclosed an intelligent warehousing management method, apparatus, system, an unmanned intelligent warehousing device management method and an unmanned intelligent warehousing device. Wherein the intelligent warehousing management method manages the materials required by products production based on an unmanned intelligent warehousing device with function of connecting to Internet of Things and comprises: an obtaining step, to obtain production plan data of the products and safety factor of the materials; a prediction step, to predict the usage of the materials based on the production plan data and the safety factor; a sending step, to send production data based on the production plan data and the predicted usage to the unmanned intelligent warehousing device; an updating step, to update the production data in real time based on usage of the materials stored in the unmanned intelligent warehousing device; an adjusting step, to adjust usage of the materials utilizing the unmanned intelligent warehousing device based on the updated production data; a calculating step, to calculate the materials needed to be replenished in the unmanned intelligent warehousing device based on the updated production data.
US10783484B1
Techniques for tracking deliveries of items and verifying route adherence by a delivery person may be described herein. For example, first information may be maintained that identifies an association of a virtual asset with a machine-readable identifier. Further, second information may be generated and maintained that identifies an association of the machine-readable identifier with an item. Upon receiving an order for an item, delivery instructions may be generated and provided to an entity for delivering the item to a location. The delivery to the location may be verified based at least in part on geo-location information provided by a user device interacting with the machine-readable identifier of the item. In embodiments, the virtual asset associated with the machine-readable identifier may be associated with a user profile corresponding to the delivery location instead of with the machine-readable identifier.
US10783480B1
In some examples, a service provider may receive an indicated delivery location from a buyer device. The service provider may determine, e.g., based in part on traffic information, respective predicted courier travel times to the delivery location from one or more different merchant locations. The service provider may compare the respective predicted courier travel times with respective spoilage times for items offered by the corresponding one or more merchants, and may identify one or more items having respective spoilage times greater than the respective predicted courier travel time from that merchant location. The service provider may send, to the buyer device, information about items available for delivery from particular merchants having respective spoilage times greater than the predicted courier travel time from respective the merchant location. The buyer device may present the information about the items on a display to enable buyer selection of an item for delivery.
US10783475B2
A system manages physical interactions between users. The system analyzes wireless signals transmitted by a plurality of user devices within a physical area to identify one or more first users within proximity of a second user in the physical area. Actions of the second user are monitored to determine a level of concentration of the second user in performing a task. A probability of a physical interaction of the one or more first users with the second user causing loss of focus by the second user is determined, and physical interactions of the one or more first users with the second user are managed based on the determined probability to maintain focus of the second user on the task. Embodiments of the present invention further include a method and computer program product for managing physical interactions between users in substantially the same manner described above.
US10783472B2
Some examples include a service to receive a job request that includes a job, a priority of the job, and a callback that identifies an application to execute the job. The application may be hosted by a particular virtual machine of a plurality of virtual machines being executed in a cloud hosting facility. The service may add the job request to a queue and determine, using a machine learning algorithm, a risk score associated with the job. Based at least in part on the risk score, the service may send a provisioning request to the cloud hosting facility to provision one or more additional virtual machines. After determining that the application has completed executing the job, the service may send a de-provisioning request to the cloud hosting facility to de-provision at least one virtual machine of the one or more additional virtual machines.
US10783466B2
Various embodiments of systems and methods for optimizing vehicle utilization are described herein. The method includes determining demand, supply, and availability of vehicles. A graph with nodes (representing source and destination stations of orders) and arcs connecting nodes is generated based on validity conditions, e.g., there is network connectivity from source to destination node, etc. The arc is assigned for repositioning, waiting, and loaded move based upon input such as tolerable delay for orders, waiting cost at stations, repositioning cost, long stand cost, revenue generated from orders, order priority, etc. A network flow solver is successively executed to solve the graph to maximize profit, optimized utilization of vehicles, fulfill order on time, and balance demand and supply. Output tables including key performance indicators (KPIs) and information of fulfilled and unfulfilled orders are generated. Vehicle allocation, repositioning, waiting, and loaded move may in turn are optimized based on the output tables.
US10783464B2
A method and device for temporally sequenced recommendations of activities delivers to users temporally sequenced objects comprising user activities, wherein the delivered objects are selected based, at least in part, on inferences of preferences from usage behaviors. The delivered objects may include activities associated with processor-based devices in addition to human activities. Variations of the system and method include delivering the temporally sequenced objects in accordance with the contents of the objects and user feedback with regard to the objects. Information as to why objects were delivered to users may be provided to the users.
US10783461B2
A conveyor belt management system is capable of determining a suitable replacement period of the conveyor belt. Data of an amount of wear of an upper cover rubber of the conveyor belt installed at a use site is input into a server via an input unit. A calculation unit is configured to calculate a remaining service life of the conveyor belt based on the input data and, stored in a storage unit, a belt specification database and a tolerance range database in which a tolerance range is input in advance for the amount of wear per belt specification; and calculate an expected service life of the conveyor belt before use of the conveyor belt based on a correlation between a use condition and belt specifications of the conveyor belt used up until present, the use condition of the conveyor belt, and the specifications of the conveyor belt.
US10783448B2
Methods, systems, and apparatus, including computer programs encoded on computer storage media, to present a video. One of the methods includes obtaining one or more unstructured documents. The method includes obtaining, by a computer system, a data model, the data model identifying a type of fact that can be determined from the one or more unstructured documents. The method includes determining, by the computer system, a channel to extract facts from the document based on the type of fact. The method includes distributing, by the computer system, the one or more unstructured documents to the channel. The method includes extracting, by the channel, facts from the one or more unstructured documents. The method also includes storing the facts in a data model.
US10783442B1
Techniques described herein include a method and system for item demand forecasting that utilizes machine learning techniques to generate a set of quantiles. In some embodiments, several item features may be identified as being relevant to an item forecast and may be provided as inputs to a regression module, which may calculate a set of quantiles for each item. A set of quantiles may comprise a number of confidence levels or probabilities associated with calculated demand values for an item. In some embodiments, costs associated with the item may be used to select an appropriate quantile associated (e.g., based on a corresponding confidence level). In some embodiments, an item demand forecast may be generated based on the calculated demand value associated with the selected quantile. In some embodiments, one or more of the item may be automatically ordered based on that item demand forecast.
US10783437B2
A processing unit topology of a neural network including a plurality of processing units is determined. The neural network includes at least one machine in which each machine includes a plurality of nodes, and wherein each node includes at least one of the plurality of processing units. One or more of the processing units are grouped into a first group according to a first affinity. The first group is configured, using a processor and a memory, to use a first aggregation procedure for exchanging model parameters of a model of the neural network between the processing units of the first group. One or more of the processing units are grouped into a second group according to a second affinity. The second group is configured to use a second aggregation procedure for exchanging the model parameters between the processing units of the second group.
US10783435B2
Methods, systems, and apparatus, including computer programs encoded on computer storage media, for modifying a computational graph to include send and receive nodes. Communication between unique devices performing operations of different subgraphs of the computational graph can be handled efficiently by inserting send and receive nodes into each subgraph. When executed, the operations that these send and receive nodes represent may enable pairs of unique devices to conduct communication with each other in a self-sufficient manner. This shifts the burden of coordinating communication away from the backend, which affords the system that processes this computational graph representation the opportunity to perform one or more other processes while devices are executing subgraphs.
US10783433B1
Method of training a neural network, including receiving sets of digital attributes representing multidimensional regression at inputs; expanding the network by adding neurons and defining their activation functions and interconnections; any neuron of the neural network is capable of being directly connected to any other neuron; (i) when a training speed falls below predefined threshold, and accuracy does not improve, identifying a neuron with highest error value; (ii) adding a neuron directly between the identified neuron and a corresponding output; (iii) setting only a connection coefficient between the added neuron and the identified neuron to zero before it is modified by the training, while other coefficients of the added neuron are set the same as coefficients of the identified neuron, before they are modified. After at least one iteration, either (iv) finishing the training of the neural network or (v) continuing to train the network to reach a predefined depth.
US10783432B2
A computer-implemented method and computer processing system are provided for update management for a neural network. The method includes performing an isotropic update process on the neural network using a Resistive Processing Unit. The isotropic update process uses a multiplicand and a multiplier from a multiplication operation. The performing step includes scaling the multiplicand and the multiplier to have a same order of magnitude.
US10783431B2
Image search techniques and systems involving emotions are described. In one or more implementations, a digital medium environment of a content sharing service is described for image search result configuration and control based on a search request that indicates an emotion. The search request is received that includes one or more keywords and specifies an emotion. Images are located that are available for licensing by matching one or more tags associated with the image with the one or more keywords and as corresponding to the emotion. The emotion of the images is identified using one or more models that are trained using machine learning based at least in part on training images having tagged emotions. Output is controlled of a search result having one or more representations of the images that are selectable to license respective images from the content sharing service.
US10783428B2
Implementations are directed to methods for providing an enhanced encounter via a holographic virtual assistant, including detecting, by one or more processors, an encounter request from a user, selecting a first encounter including a first holographic representation and a first dialog output, providing the first encounter for presentation to the user on the holographic virtual assistant, receiving, from the user, a first user reaction, the first user reaction including a first user dialog input and a first user engagement input, and training, using the first user reaction, a conversational goal model.
US10783413B2
An information processing apparatus to communicate with an external apparatus includes a reception unit, an execution unit, a setting unit, and a determination unit. The reception unit receives data described in Postscript® from the external apparatus. The execution unit executes processing based on a command described in the data received by the reception unit. The setting unit performs a predetermined setting regarding execution of the processing. The determination unit determines, in a case where the reception unit receives data in which a command associated with a superexec operator is described, whether the execution unit executes the processing based on the command using the predetermined setting.
US10783411B2
Computing devices and methods for associating a semantic identifier with an object are disclosed. In one example, a three-dimensional model of an environment comprising the object is generated. Image data of the environment is sent to a user computing device for display by the user computing device. User input comprising position data of the object and the semantic identifier is received. The position data is mapped to a three-dimensional location in the three-dimensional model at which the object is located. Based at least on mapping the position data to the three-dimensional location of the object, the semantic identifier is associated with the object.
US10783410B1
A system and method for managing large numbers of computing devices in a data center are disclosed. The computing devices are configured to flash their indicator lights in a pattern that encodes a device ID, and an image capture device such as a mobile phone or tablet captures the flashes in a series of images/video of the data center. The images/video are processed to create a three-dimensional (3D) model of the data center with computing device IDs positioned therein. The 3D model, including correctly positioned device ID indicators, can be rendered for the user of the mobile device to enable the user to more easily identify computing device locations.
US10783409B2
Font replacement based on visual similarity is described. In one or more embodiments, a font descriptor includes multiple font features derived from a visual appearance of a font by a font visual similarity model. The font visual similarity model can be trained using a machine learning system that recognizes similarity between visual appearances of two different fonts. A source computing device embeds a font descriptor in a document, which is transmitted to a destination computing device. The destination compares the embedded font descriptor to font descriptors corresponding to local fonts. Based on distances between the embedded and the local font descriptors, at least one matching font descriptor is determined. The local font corresponding to the matching font descriptor is deemed similar to the original font. The destination computing device controls presentations of the document using the similar local font. Computation of font descriptors can be outsourced to a remote location.
US10783406B1
A method for detecting structural surface cracks based on image features, support vector machines and Bayesian data fusion, including: 1) acquisition of a video of a structural surface and establishment of an image library; 2) calculation of texture features of the image frames by local binary patterns; 3) scanning and grouping for image patches of cracks on the image frames using two-stage support vector machine; 4) Bayesian data fusion and decision. The video image detection acquires images of many areas where human beings are difficult to reach; computers are adopted to identify cracks on surfaces of the structural elements, which can greatly reduce the identification workload and labor cost, and increase the crack detection rate. The invention has a better adaptability to the light strength on the structural surface, thus providing better identification for cracks.
US10783403B2
A method is used in evaluating a test subject in computing environments. A first machine learning system generates test subject features. A second machine learning system analyzes the test subject to detect distinguishing features of the test subject. A third machine learning system performs natural language processing on the test subject features to create evaluation information associated with the test subject. A test subject evaluation system provides an evaluation of the test subject based on the distinguishing features and the evaluation information.
US10783398B1
A method for receiving an image query from a user via a client device is provided. The method includes determining a user personalized data based on a prior user history, generating a synthetic image with a generative tool, based on the image query and the user personalized data, and evaluating a similarity between the synthetic image and a real image in an image database with a discriminative tool. The method also includes providing the synthetic image to the user for selection and storing a user response to the synthetic image in the prior user history. A system and a non-transitory, computer readable medium storing instructions to cause the system to perform the above method are also disclosed.
US10783395B2
Disclosed herein are a method and an apparatus for detecting abnormal traffic based on a convolutional autoencoder (CAE). The method of detecting abnormal traffic based on the CAE may include converting a character string of normal traffic into an image, learning the converted image using the CAE, and detecting abnormal traffic by inputting target traffic to the learned CAE.
US10783394B2
A method, computer readable medium, and system are disclosed to generate coordinates of landmarks within images. The landmark locations may be identified on an image of a human face and used for emotion recognition, face identity verification, eye gaze tracking, pose estimation, etc. A transform is applied to input image data to produce transformed input image data. The transform is also applied to predicted coordinates for landmarks of the input image data to produce transformed predicted coordinates. A neural network model processes the transformed input image data to generate additional landmarks of the transformed input image data and additional predicted coordinates for each one of the additional landmarks. Parameters of the neural network model are updated to reduce differences between the transformed predicted coordinates and the additional predicted coordinates.
US10783387B2
A biometric information sensor includes a first substrate and a first sensor electrode disposed on the first substrate. A second sensor electrode is disposed on the first substrate at a same distance from the first substrate as the first sensor electrode. The second sensor electrode is spaced apart from the first sensor electrode. A piezoelectric layer is disposed between the first sensor electrode and the second sensor electrode. A second substrate is disposed on the first sensor electrode, the second sensor electrode, and the piezoelectric layer.
US10783378B2
Video information defining video content may be accessed. Highlight moments within the video content may be identified. Flexible video segments may be determined based on the highlight moments. Individual flexible video segments may include one or more of the highlight moments and a flexible portion of the video content. The flexible portion of the video content may be characterized by a minimum segment duration, a target segment duration, and a maximum segment duration. A duration allocated to the video content may be determined. One or more of the flexible video segments may be selected based on the duration and one or more of the minimum segment duration, the target segment duration, and/or the maximum segment duration of the selected flexible video segments. A video summary including the selected flexible video segments may be generated.
US10783377B2
Aspects of the present disclosure therefore involve systems and methods for identifying a set of visually similar scenes to a target scene selected or otherwise identified by a match analyst. A scene retrieval platform performs operations for: receiving an input that comprises an identification of a scene; retrieving a set of coordinates based on the scene identified by the input, where the set of coordinates identify positions of the entities depicted within the frames; generating a set of vector values based on the coordinates of the entities depicted within each of the frames; concatenating the set of vector values to generate a concatenated vector value that represents the scene; generating a visual representation of the concatenated vector value; and identifying one or more similar scenes to the scene identified by the input based on the visual representation of the concatenated vector value.
US10783371B2
The present invention provides a Gabor cube feature selection-based classification method for hyperspectral remote sensing images, comprising the following steps: generating three-dimensional Gabor filters according to set frequency and direction parameter values; convoluting hyperspectral remote sensing images with the three-dimensional Gabor filters to obtain three-dimensional Gabor features; selecting three-dimensional Gabor features, classification contribution degrees to various classes of which meet preset requirements, from the three-dimensional Gabor features; and classifying the hyperspectral remote sensing images by a multi-task joint sparse representation-based classification means by using the selected three-dimensional Gabor features. The present invention is based on the three-dimensional Gabor features, and the used three-dimensional Gabor features contain rich local change information of a signal and are competent in feature characterizing. Using a Fisher discriminant criterion not only makes full use of high-level semantics hidden among the features, but also eliminates redundant information and reduces the classification time complexity.