US10349282B2
A spectrum management system includes circuitry that determines available spectrum for a secondary communication system. The available spectrum is determined based on a disturbance tolerance of a primary communication system that is managed by the spectrum management system and a disturbance tolerance of another primary communication system that is managed by another spectrum management system. The circuitry then causes the setting of a spectrum for the secondary communication system based on the available spectrum and whether or not a spectrum request is received from the secondary communication system.
US10349280B2
This disclosure relates to techniques for securely performing connection release and network redirection in a wireless communication system. A wireless device may establish a radio resource control (RRC) connection with a first cell. The wireless device may receive a RRC connection release message from the first cell. The RRC connection release message may include an indication to redirect the wireless device to a second cell. The RRC connection with the first cell may be released. It may be determined whether security has been established with the first cell when the indication to redirect the wireless device to the second cell is received. A new serving cell may be selected based at least in part on whether security has been established with the first cell when the indication to redirect the wireless device to the second cell is received.
US10349279B2
A system is described for controlling an actuating unit that restricts physical access such as a motorized garage door actuator unit. The system comprises a mobile wireless communication device, an electro-mechanical access control security device, and a receiving unit controlling the electro-mechanical access control security device, the receiving unit paired with the mobile wireless communication device for receiving user input for activating the electro-mechanical access control security device via a peer-to-peer communication directly with the mobile wireless communication device, and a pre-authorization of communication of the receiving unit with the mobile wireless communication device, the mobile wireless communication device receiving the pre-authorization from a central security server.
US10349278B2
Provided in the embodiments of the present invention are a method for accessing a long-term evolution LTE network, said method being used in an electronic device, said electronic device being in communication with a mobile telephone and LTE network; the method comprises: acquire identity information and authentication information of a mobile telephone; on the basis of the identity information and the authentication information, perform verification of authentication, integrity protection, and ciphering of the mobile telephone; and control the mobile telephone having undergone successful authentication, integrity protection, and ciphering in accessing the LTE network by means of support of an evolved packet system EPS established by the LTE network; the present invention also discloses an electronic device and a computing storage medium.
US10349272B2
A method of obtaining a virtual SIM for a mobile device comprises sending, to a TTA for authentication, a request for a virtual SIM for a mobile device associated with the TTA. The authenticated request is sent from the mobile device to an NRS application (or to a combined NRS/PCSS application). The mobile device subsequently receives information identifying a PCSS application (or a combined NRS/PCSS application) in a computing environment that provides a virtual SIM for the mobile device.
US10349263B2
Embodiments of a mobile device and methods automatically connecting to a Wi-Fi Hotspot 2.0 are generally described herein. In some embodiments, subscription information for one or more service providers (SP) that operate Wi-Fi networks is stored in a subscription data object of the mobile device. The subscription information includes home service provider information, policy information and pre-provisioned credentials. The mobile device may be configured to determine, without user interaction, if the subscription information is applicable to an available Wi-Fi network and perform without user interaction, an extensible authentication protocol (EAP) based authentication using the pre-provisioned credentials with the available Wi-Fi network to establish a Wi-Fi connection with the available Wi-Fi network. This automatic connectivity may allow a mobile device to roam across Wi-Fi hotspots of Wi-Fi networks and offload traffic to Wi-Fi networks.
US10349260B2
The present disclosure provides a system and method for interacting with low-powered devices. The system includes a server and a gateway device that connect and communicate with low-powered devices. The system and method connects a user through a gateway device to a low-powered device by temporarily loading a profile for the low-powered device onto the gateway device. The profile of the low-powered device contains the necessary connection information to facilitate a connection. The profile of the low-powered device is only temporarily stored on the gateway device and is deleted from the memory of the gateway device after a connection is established.
US10349254B2
An information processing system includes a mobile terminal including an electric wave receiving unit configured to receive an electric wave that includes belonging information of an electronic apparatus sent by a short range wireless communication, and an electronic apparatus display unit configured to receive a selection of the belonging information from a user, and request the information processing apparatus to perform a use start of the at least one electronic apparatus, the information processing apparatus including an information administration unit configured to read the information from a memory unit, which stores the belonging information and the at least one electronic apparatus, in response to the request from the mobile terminal to send the information, and return the read information to the mobile terminal, and an apparatus connection administration unit configured to request the at least one electronic apparatus to start a preparation of the use start.
US10349243B1
Various systems are provided comprising: a building including one or more facilities each including at least one broadcast short-range communications unit having a fixed location, an application/computer code configured for execution by at least one of a plurality of mobile devices, and at least one server, that, together, are configured to cooperate to trigger one or more mobile device actions including causing to be output visual information, based on particular location-relevant information that is, in turn, based on at least one value.
US10349242B2
Provided are devices, computer-program products, and methods for calibration of a signal strength map for purposes of providing wireless positioning services through fingerprinting. Fingerprinting involves generating a map of the signal strengths in an area covered by a Wi-Fi network. In some implementations, a wireless probe request may be received. In these implementations, the wireless probe request may be associated with location information. In some implementations, the signal strength of the wireless probe request may be detected. In these implementations, the signal strength may indicate a signal characteristic between an origination and a destination for the wireless probe request. In some implementations, the wireless probe request may be responded to with a response message. In these implementations, the response message may include the signal strength of the wireless probe request. In these implementations, the response message and the location information may further facilitate generating an entry in a fingerprinting database.
US10349240B2
A method and system for responding to demand-based charging in a communication network, such as a 5G wireless communication network. Service providers and/or infrastructure providers adjust network usage pricing dynamically based on demand. Customers such as Virtual Network operators respond to pricing adjustments by adjusting their network usage, service requirements, and/or by re-negotiating the pricing structure. Network usage can be adjusted by controlling network traffic generated in response to activity of end-user devices of the Virtual Network.
US10349235B2
An apparatus and method are provided for receiving information related to an instant message (IM) transmitted from another electronic device through a Short Message Service (SMS) network and transmitting information related to message reception through the SMS network. An electronic device includes a reception unit for receiving a first message through a first network, a generation unit for generating a second message including information related to reception of the first message, and a transmission unit for transmitting the second message through the first network. The first message includes information associated with an IM transmitted from the another electronic device through a second network.
US10349234B1
A communications system is provided employing two-way integration approach providing access to notifications and actions occurring on unmanaged communication devices through the use of TV. The system includes installation of an application on unmanaged devices providing the ability to access all notifications and actions occurring on the unmanaged devices using TV. The unmanaged device obtains an input directly from TV from an application server which in turn obtains its input primarily from a TV. The input is not limited to the TV only, and can come from other sources.
US10349226B2
A system and method for the delivery and display of information, including an information inventory containing information to be delivered, an information serving engine, a targeting engine, a subscriber database and a subscriber-information matching arrangement, the system and method configured for the delivery of information based on various factors.
US10349221B1
A method and system of localizing a mobile device having a processor and a memory. The method comprises localizing the mobile device along a sequence of positions describing a route being traversed in an indoor facility based on a set of data fusion inputs, monitoring a processing time associated with the localizing and when the processing time exceeds a time threshold, localizing the mobile device based on a subset of the set of data fusion inputs.
US10349220B2
An in-vehicle device includes: an in-vehicle storage unit which stores an in-vehicle device ID as an identifier; a first communication unit which sends the in-vehicle device ID to a portable terminal; a vehicle position acquisition unit; and a second communication unit which sends the in-vehicle device ID and the vehicle position to the server, the portable terminal includes: a portable storage unit which stores a portable terminal ID as an identifier for identifying the portable terminal; a portable terminal position acquisition unit; and an authentication information sending unit which sends, to the server, authentication information, and the server associates the portable terminal ID and the in-vehicle device ID based on a difference between the portable terminal position included in the received authentication information and the received vehicle position.
US10349219B2
According to some embodiments of the invention, movement measurements may be obtained from a movement sensor (e.g., an accelerometer) of a mobile device in a vehicle. In addition, location measurements may be obtained from a location sensor (e.g., a GPS) of the mobile device in the vehicle. The movement measurements and the location measurements may be cross-referenced to each other to remove erroneous measurements, such as physically impossible measurements. The remaining measurements may be used to draw conclusions about the movements or locations, such as to identify a movement event (e.g., a braking event, an acceleration event, or the like).
US10349208B1
A system coupled to a packet-based network is configured to predict the locations of one or more mobile devices communicating with the packet-based network. The system comprises a request processor configured to detect location events associated with mobile devices communicating with the packet-based network, each location event corresponding to a time stamp and identifying a geo-place in a geo database. The system further comprises an off-line prediction subsystem configured to train a plurality of off-line prediction models and an on-line prediction model using various historical location events. The off-line prediction subsystem is further configured to generate off-line prediction results corresponding to the off-line prediction models. The system further comprises an on-line prediction subsystem configured to construct a feature vector using the off-line prediction results and recently detected location events in response to a request received in real-time, and to generate on-line prediction results by applying the on-line prediction model to the feature vector.
US10349205B2
A server computing system including a storage device and a processing device. The storage device storing application records including application attributes and location data indicating a geographic area associated with an application. The processing device configured to receive a search query comprising a search term, identify application records stored by comparing the search term with the application attributes, and determine a search location. The processing device also configured to: for each of the identified application records, compute a distance scoring feature based on a distance between the search location and the geographic area indicated in the application record and determine a relevance score for the application record based on the distance scoring feature; select download addresses from the application records based on the relevance scores; and transmit the download addresses to the client computing device.
US10349202B1
Systems and methods according to aspects of the invention verify requests for information over a network. Computing devices communicating over a network transmit numerous signals with various types of information including spatial information, temporal information, device-specific information, and transmission specific information. This information may be used to generate statistical records of valid request for information. Various combinations of these signals may be used to determine whether a request for information is a valid request based on the statistical records associated with the signals. Where a request for information has been verified, the system and method may provide the information. Where the request for information has not been verified, the system and method may deny the request for information. Thus the system and method may be used to prevent and block scraping and spamming attacks.
US10349198B2
A method for compensating for acoustic influence of a listening room on an acoustic output from an audio system including at least a left and a right loudspeaker, the method comprising determining a left frequency response and a right frequency response, designing left and right compensation filters, and during playback applying the left and right filters to left and right input signals. The method further includes determining mono and side responses and designing mono and side compensation filters, and, during playback, applying the mono compensation filter to a mono signal based on the left and right input signals, and applying the side compensation filter to a side signal based on the left and right input signals. The filters are thus combined to provide left and right output signals which have been left/right filtered and mono/side filtered.
US10349197B2
According to an aspect of an embodiment, an audio generation method includes: receiving an audio signal through at least one microphone; generating an input channel signal corresponding to each of the at least one microphone based on the received audio signal; generating a virtual input channel signal based on the input channel signal; generating additional information including reproduction locations of the input channel signal and the virtual input channel signal; and transmitting a multi-channel audio signal and the additional information, the multi-channel audio signal including the input channel signal and the virtual input channel signal.
US10349193B2
An interface device (12) is provided, adapted to wirelessly couple at least one hearing device to a cellular phone (10), wherein the interface device (12) is adapted to be mechanically coupled to the cellular phone (10) by means a cellular phone protection shell (14).
US10349192B2
A hearing assistance device such as a hearing aid includes an antenna for wireless communication with another device. The antenna includes two antenna elements and a cross-feed that provides for electrical connection between the two antenna elements. The cross-feed having a flared structure configured to reduce an effect of head loading on the performance of the wireless communication by approximately minimizing capacitive coupling between the cross-feed and a wearer when the hearing assistance device is worn by the wearer.
US10349187B2
An acoustic sensor integrated MEMS microphone structure and a fabrication method thereof. A diaphragm (3e) and back-pole (7) which forms a condenser structure are formed on a substrate (1) having at least one recessed slot (1a) on the top. A sensitive electrode is formed on the substrate (1), the sensitive electrode comprising a fixed portion (3b) fixed on the substrate (1) via a sacrificial layer (2), and a bending portion (3a) inserted into the recessed slot (1a), wherein the bending portion and the side wall of the recessed slot form the condenser structure. The integrated structure integrates the condenser structure of the microphone and condenser structure of the acoustic sensor on a substrate (1), thereby increasing the integration level thereof and reducing the overall size of the package. Meanwhile, the microphone diaphragm (3e) and the sensitive electrode of the acoustic sensor can be fabricated on a same substrate (1) at the same time, from the same material, and using the same fabricating process to increase production efficiency.
US10349185B2
An MEMS microphone comprises a substrate (100), a support portion (200), a superimposed layer (600), an upper plate (300) and a lower plate (400). The substrate (100) is provided with an opening (120) penetrating the middle thereof; the lower plate (400) is arranged above and spanning the substrate (100); the support portion (200) is fixed on the lower plate (400); the upper plate (300) is attached on the support portion (200); an accommodation cavity (500) is formed from the support portion (200), the upper plate (300) and the lower plate (400); the superimposed layer (600) is attached on an central region of the upper plate (300) or the lower plate (400), and insulation is achieved between the upper plate (300) and a lower plate (400).
US10349181B2
Provided are an actuator fixing device and a panel vibration type sound-generating display device including the same. A display device includes: a display panel configured to display an image, a cover bottom configured to cover the display panel, and a plurality of sound-generating actuators supported by the cover bottom, the sound-generating actuators being configured to vibrate the display panel to generate sound, at least two of the sound-generating actuators being adjacent to each other.
US10349180B2
A shallow speaker and a method of manufacture for the shallow speaker. The method of assembly uses two different alignment jigs at two different stages of the assembly to ensure alignment of the speaker components. During manufacture, a subassembly of components is created in the speaker frame, and then removed along with the first alignment jig. A second alignment jig is then placed in the speaker, and the bobbin and voice coil added. The subassembly is then connected to the frame, and the voice coil connected to the external connection terminal. Finally, the cone and dust cap are installed.
US10349179B2
An apparatus includes a surface arranged to be mechanically displaced, a first permanent magnet coupled with the surface, at least one supporting member for supporting the surface, a base, a second permanent magnet, a coil coupled with the second magnet, and a signal port electrically coupled with the coil. An electrical signal is configured to travel between the signal port and the coil. The electrical signal in the coil is proportional to mechanic displacement of the surface when a force equilibrium state of the surface is broken by the electrical signal in the coil or the mechanic displacement of the surface from a position of the force equilibrium state The coil is arranged at least partially between the first magnet and the second magnet or around one of the first magnet, the second magnet. Either the same or different polarities of the first and second magnets are arranged to directly face each other at a distance.
US10349177B2
A wireless stereo sleep mask is an apparatus that is used to block light from entering a user's eyes, while simultaneously providing the user a way to wirelessly interact with a smartphone or other similar devices. The apparatus includes an eye cover, an elastic strap, a first speaker, a second speaker, a control unit, and a wireless transceiver. The eye cover prevents light from disturbing the user. The first speaker and the second speaker are positioned in proximity to the user's ears. The control unit allows the user to adjust the volume of the first speaker and the second speaker. The elastic strap ensures the user is comfortable while wearing the eye cover. A microphone integrated into the control unit provides the user the ability to speak during phone calls, and to control the present invention using voice commands.
US10349176B1
A method for processing signals, a terminal device, and a non-transitory computer-readable storage medium are provided. The method includes the following. When a user talks through the headphone, a first sound signal of external environment and a second sound signal of a talking party are alternately recorded with a headphone. A third sound signal of external environment is obtained, by eliminating voices in the first sound signal according to the second sound signal. Feature audio in the third sound signal of external environment is identified and reminding information corresponding to the feature audio is acquired. Inquire of the user whether the third sound signal is critical according to the reminding information, when the talk ends. An input operation of the user is detected and the third sound signal is processed according to the input operation of the user.
US10349175B2
An example method is performed by a media playback system comprising a plurality of audio drivers configured to output audio content according to a first radiation pattern that produces an inherent directional effect. Based on data indicating characteristics of a listening area in which the media playback system operates, the system determines first and second transfer functions corresponding to the first and second audio drivers, respectively. One or both of the transfer functions configure the first and second audio drivers to output audio content according to a second radiation pattern that produces a modified directional effect relative to the first radiation pattern. The system applies the transfer function to audio content thereby causing the first and second audio drivers to play back audio content according to the second radiation pattern.
US10349173B2
A nonlinear control system and a loudspeaker protection system. In particular, a nonlinear control system including a controller, an audio system, and a model is disclosed. The controller is configured to accept one or more input signals, and one or more estimated states produced by the model to produce one or more control signals. The audio system includes one or more transducers configured to accept the control signals to produce a rendered audio stream therefrom. An active loudspeaker with an integrated amplifier is disclosed. A loudspeaker protection system and a quality control system are disclosed. More particularly, a system for clamping the input to a loudspeaker dependent upon a bank of representative models is disclosed.
US10349171B2
An electronic device is disclosed. The electronic device may include a first speaker configured to output a first audio signal, a second speaker configured to output a second audio signal, a communicator configured to communicate with a peripheral device, and a processor configured to receive information related to a time at which the first audio signal is received and a time at which the second audio signal is received from the peripheral device which receives the first audio signal and the second audio signal and to determine a distance to and a direction of the peripheral device with reference to the electronic device based on the received information.
US10349164B2
An assemblage of substantially round particles with a mean diameter between 0.1 and 4 mm, more preferable between 0.3 to 2 mm and most preferable between 0.8 to 1.2 mm, wherein the density of the assemblage determined by ISO 697 is between 250 kg/m3 and 400 kg/m3 is disclosed. The substantially round particles comprise at least one microporous material and optionally at least one binder, wherein the assemblage comprises a pore volume, wherein the pore volume comprises pores resulting from void space between different ones of the substantially round particles and pores within the substantially round particles.
US10349160B2
A headset controller takes a first touch sensor, a second touch sensor, a first pressure sensor, and a second pressure sensor as a control medium for users. The headset controller can generate four different output instructions by the users touching or pressing the operating interface. The headset controller integrates various sensing methods to generate the needed output instructions.
US10349155B2
Optical switches include a first hybrid coupler configured to accept an input and to provide two branches. A phase tuner on a first branch includes a phase shifter. A first heater is positioned on the first branch and a second heater is positioned on the second branch, each configured to compensate for phase error. A second hybrid coupler configured to recombine the two branches. A first photodetector and a second photodetector are positioned at outputs of the second hybrid coupler and are configured to measure crosstalk between the outputs of the second hybrid coupler. A controller is configured to activate the first heater or the second heater to reduce the measured crosstalk.
US10349154B2
Methods and systems for intra data center optical switching of optical signals use an intra data center optical switch to optically transmit N optical wavelengths as an optical signal transmitting a data stream generated by a data center system included within N data center systems. The data center system may selectively receive one of N−1 optical wavelengths as another optical signal corresponding to one of N−1 other data center systems excluding the data center system from the intra data center optical switch. In this manner, intra data center optical switching may be performed without utilizing Ethernet and optical switches, which may result in reduced power consumption for data center communication.
US10349147B2
A method that incorporates teachings of the subject disclosure may include, for example, receiving a product placement event that is triggered by a placement stamp in a media program. The placement stamp may identify an occurrence of a product in the media program, where the occurrence is not an explicit advertisement. The method further may include searching a product description database according to a product identifier of the product placement event and receiving product advertising information matching the product identifier in an entry of the product description database. The product description database may have been updated, and the product advertising information may differ from what the product advertising information would have been if the product description database had not been updated. The method may further include presenting a product advertisement according to the product advertising information. Other embodiments are disclosed.
US10349145B2
Systems and methods are disclosed for delivering programming content to vehicles (e.g., seagoing vessels) in a cost-effective manner. In some embodiments, programming content may be delivered to vehicles over previously deployed networks (e.g., satellite networks), using excess network capacity which may not otherwise be used to deliver data. By opportunistically employing excess network capacity (e.g., as the capacity becomes available), data constituting programming content may be delivered to vehicles over a period of time, such as via multicast transmission. A vehicle may store received data on one or more onboard servers. After an item of programming content has been received, the item may be made accessible to the vehicle's crew and/or passengers, such as by streaming the item to one or more suitably configured playback devices. Content may be served to playback devices “on demand” and/or according to a programming schedule.
US10349140B2
Systems and methods for incorporating social content items into a produced video are provided. The system presents a producer interface to a user that allows the user to query for social content items. The user may then select and arrange social content items in an on-air queue. In an on-air mode, the system generates a broadcast-ready on-air format of the social content items and provides a video stream including the broadcast-ready social content items in the on-air queue to a video production system. The broadcast-ready social content items are incorporated into a produced video by the video production system. The user may navigate through the social content items in the on-air queue while on camera as part of the produced video.
US10349138B2
Various embodiment(s) for a service system, a digital device, and a method of processing a service therefor are disclosed in the present specification. In this case, according to one embodiment of the present invention, a method of processing a service in the digital device includes the steps of downloading and installing one or more STB applications configured to process the service, outputting an icon configured to approach the installed STB applications on a first service board supporting an RF mode, receiving a selection of an STB application icon among the STB applications, and outputting content processed by the selected STB application according to a result of a service authentication and a second service board for the selected STB application.
US10349115B2
A multimedia content management system includes a mobile computing device and a backend server. The mobile computing device includes a memory programmed with a mobile application, a processor module, a wireless communication module configured to communicate over a wireless communication link, and a first multimedia device configured to capture a first video and a second video. The mobile application is configured to transmit the first video and the second video over the wireless communication link via the wireless communication module. The backend server is communicably coupled to the mobile computing device via the wireless communications link and configured to execute a persistent internet accessible request protocol for receiving, updating, and storing transmitted videos. The multimedia content management system is useful for hosting and remotely managing multimedia content.
US10349110B2
A commercial television-interfacing dongle and system and method for use of the same are disclosed. In one embodiment, a wireless transceiver is located within a housing, which also interconnectively includes a television input, television output, a processor, memory, a control interface, and a universal serial bus (USB) interface. The control interface and the USB interface connect to the commercial television. The commercial television interfacing dongle may establish a pairing with a proximate wireless-enabled interactive programmable device having a display and receive and process virtual remote control functionality input instructions from the proximate wireless-enabled interactive programmable device. Following receipt and processing of the virtual remote control functionality input instructions, the commercial television-interfacing dongle sends a command to the commercial television via a commercial television control protocol.
US10349107B2
A method for displaying multimedia content is described. The method includes causing playing of multimedia content on a first device; responsive to a first user input, on a second device, comprising one of: playing, fast forwarding, rewinding, or pausing the playing of the multimedia content: causing an action comprising one of: playing, fast forwarding, rewinding, or pausing of the multimedia content on the second device at a start position that is based on the user input and a current position of the playing of the multimedia content on the first device.
US10349098B2
A method is provided for multiplexing video services with data services in a constrained delivery pipeline. A soft upper bound for the video data bandwidth for a current schedule window BWvideosoft(i) is generated, wherein the soft upper bound for the video data bandwidth such that an average video data bandwidth over a time period T is no greater than a hard upper bound for the video data bandwidth BVvideo. The video data is then multiplexed with the other data according to the soft upper bound for the video data bandwidth BWvideosoft(i).
US10349085B2
A device determines a Compact Multi-Pass Transform (CMPT) from a plurality of CMPTs. Additionally, the device decompresses CMPT parameters for the CMPT. In instances where the device decodes video data, the device applies the CMPT to a coefficient block to reconstruct a residual block and decodes, based on a predictive block and the residual block, a current block of a picture of the video data. In instances where the device encodes video data, the device applies the CMPT to a residual block to construct a coefficient block and generates for output information indicating coefficient values for the coefficient block.
US10349062B2
Decoding method for a moving picture included in a coded stream, including: determining whether a prediction mode (PM) of a target block (TB) is a PM in which motion vector (MV) is not transmitted from an encoding to decoding side, based on coded stream included information; and executing a decoding process when the PM of the TB is determined as the PM in which MV is not transmitted from an encoding to decoding side, wherein a calculation method of a MV used in the second step is selected among plural calculation methods including at least: a first method to select one MV among MVs used in plural adjacent blocks adjacent to the TB; and a second method to calculate a MV based on a MV used in a block that is located at the same position as the TB in another frame positioned backward of a frame including the TB.
US10349057B2
Certain embodiments herein relate to optimizing the efficiency of video coding. Such optimization may be based on characteristics of video content, such as the size and type of video frames. The size of video frames may be compared to a threshold size to determine whether an intracoded frame should be inserted into a Group of Pictures (GOP) instead of a predetermined type of video frame. As an example, an intracoded video frame may be inserted into the GOP when an abrupt or gradual size change in the sequence of video frames is determined. As another example, unipredicted frames may also be inserted into the GOP instead of bipredicted frames using a similar comparison.
US10349048B2
There are provided a plurality of methods for detecting a scene change in a streamed video, the streamed video comprising a series of pictures. An example method comprises calculating, for a plurality of positions, a difference between the costs of coding macro-blocks at the same position in successive pictures. The method further comprises identifying a new scene when the sum of the differences for a plurality of positions meets a threshold criterion. There is further provided a method of determining the perceptual impact of a packet loss on a streamed video the method comprising: identifying a packet loss; and determining if the lost packet contained information relating to a picture at the start of a new scene, wherein a new scene is detected using one of the methods disclosed herein.
US10349045B2
Provided is a three-dimensional (3D) viewing device, comprising a body adapted to connect to a head-worn device, having a space therein, and a base side and opposite lateral sides neighboring thereto, the body comprising two openings symmetrically formed on the opposite lateral sides respectively; two displays disposed in the space; two light sources disposed in the space at the base side, and oriented toward the two displays respectively; and two sets of projection lenses disposed in the space at the two openings respectively, adapted to project the images of the two displays out of the two openings toward the two eyes of the head-worn device user, respectively. A 3D viewing and interacting system thereof is also provided.
US10349043B2
A three-dimensional display device is disclosed. The three-dimensional display device includes a two-dimensional display panel and a slit grating; the two-dimensional display panel includes a plurality of first display units for displaying a left eye image and a plurality of second display units for displaying a right eye image, and the first and second display units are alternately arranged in a row direction and a column direction of the two-dimensional display panel; the slit grating includes a plurality of grating units arranged in a form of an array, a slit is formed between every adjacent grating units in each row of grating units arranged in the row direction of the two-dimensional display panel, slits and grating units are alternately arranged in the column direction of the two-dimensional display panel.
US10349042B1
A scanner includes a camera, a light source for generating a probe light incorporating a spatial pattern, an optical system for transmitting the probe light towards the object and for transmitting at least a part of the light returned from the object to the camera, a focus element within the optical system for varying a position of a focus plane of the spatial pattern on the object, unit for obtaining at least one image from said array of sensor elements, unit for evaluating a correlation measure at each focus plane position between at least one image pixel and a weight function, a processor for determining the in-focus position(s) of each of a plurality of image pixels for a range of focus plane positions, or each of a plurality of groups of image pixels for a range of focus plane positions, and transforming in-focus data into 3D real world coordinates.
US10349031B2
A display system renders a motion parallax view of object images based upon multiple observers. Also, a headset renders stereoscopic images that augment either physical objects viewed through the headset, or virtual objects projected by a stereoscopic display separate from the headset, or both. The headset includes a system for locating both physical objects and object images within a stereographic projection. Also, a proprioceptive user interface defines interface locations relative to body parts of an observer, the body parts include the head and the shoulders of the observer. The observer may enable a process associated with the interface location by indicating an intersection with the interface location with a physical object, such as a wand or a finger of the observer.
US10349027B2
An imaging device includes: an imaging unit configured to output an imaging signal; an illumination unit configured to emit respective beams of light of a plurality of colors; a color separation unit configured to separate the imaging signal into a plurality of signals corresponding to the plurality of colors; an interest color setting unit configured to set a color corresponding to a wavelength band of interest as an interest color; a comparison unit configured to compute a ratio between a detection value of a signal corresponding to an interest color set by the interest color setting unit and a detection value of a signal of another color corresponding to a wavelength band different from the wavelength band corresponding to the interest color; and a changing unit configured to change a light emission ratio between light corresponding to the interest color and light of the other color.
US10349019B2
A projection system includes an invisible light projector, a background member, an imaging unit, an image generator, and a visible light projector. The invisible light projector projects a predetermined invisible light image onto the object via invisible light. The background member is disposed behind the object in a direction of the invisible light emitted from the invisible light projector. The imaging unit captures an image of the invisible light projected from the invisible light projector. The image generator measures a shape of the object based on the image captured by the imaging unit to generate image data showing image content for projection onto the object in accordance with the measured shape. The visible light projector projects the image content shown by the image data onto the object via visible light. The background member has a light shielding surface that does not diffusely reflect the invisible light incident thereon.
US10349015B2
Some embodiments provide an image sensor color filter array pattern that mitigates and/or minimizes the impact of optical and carrier crosstalk on color reproduction accuracy and/or signal-to-noise, the color filter array comprising a plurality of kernels, wherein each kernel has an identical configuration of color filter elements comprising primary color filter elements corresponding to at least three respective different primary colors, and a plurality of secondary color filter elements. A respective one of the secondary color filter elements is disposed as a nearest neighbor to and between every pair of primary color filter elements of different colors in the kernel, with the respective secondary color filter element representing a secondary color that is a combination of the different colors of the primary color filter elements that are nearest neighbors to the respective secondary color filter element.
US10349008B2
Disclosed are a tool installed on a mobile terminal and an intelligent real-time audio-video integration server. The tool installed on the mobile terminal comprises: a transmitter unit configured to respond to a first trigger and to transmit a request for a video integrating real-time videos captured by multiple communication terminals; and, a receiver unit configured to receive the video integrating the real-time videos captured by the multiple communication terminals. The transmitter unit transmits, on the basis of a first communication terminal set in the multiple communication terminals and corresponding to a video displayed on a monitor of a mobile terminal, a request for an audio integrating real-time audios captured by the communication terminals in the first communication terminal set; the receiver unit receives the audio integrating the real-time audios captured by the communication terminals in the first communication terminal set. The present invention, in cases that a monitored scene goes beyond the field of view of one camera, allows a monitoring person to view the entire monitored scene instead of a part of the monitored scene.
US10349007B1
A video display hub is mounted in a common household area such as a kitchen or family room. During times that have been designated as being available for communications, devices in first and second households exchange and display blurred video, allowing users in each household to see vague shapes and movements of the other household. Upon noticing activity, a user in the first household may initiate a video conversation, causing the video from the first household to be unblurred and causing unobscured voice to be transmitted to the second household. A user in the second household may respond by allowing the video conversation to be fully enabled, allowing the video from the second household to be unblurred and unobscured voice to be transmitted back to the first household.
US10349005B2
Various embodiments are generally directed to techniques for determining whether to use an interpolated frame or repeat a base frame in up-converting the frame rate of a base video stream to generate an up-converted video stream. A device to up-convert a frame rate includes an analysis component to analyze a pair of temporally adjacent base frames and a motion vector associated with movement of an object between the pair of base frames to determine a degree of visual artifacts involving an edge of the object in an interpolated frame, and a selection component to compare the degree of visual artifacts to a threshold and select the interpolated frame for insertion between the preceding base frame and the following base frame in up-converting a frame rate of the base video stream to generate an up-converted video stream based on the comparison. Other embodiments are described and claimed.
US10349004B2
A method of saving image data of a camera in an accident data recorder of a vehicle involves: a) performing object recognition to determine object data regarding objects detected from the camera image data; b) compressing the camera image data by a lossy compression method to form compressed image data; c) storing the object data and the compressed image data in a storage unit; d) overwriting the data in the storage unit after a predefined volume of data has been stored; and e) statically saving the object data and the compressed image data in response to a trigger signal.
US10349000B2
Systems which allow for the insertion of targeted advertisements or other messages into programming content, e.g., using Digital Video Recording (DVR) technology are disclosed. Systems use storage to pre-load advertisements, record content with commercials breaks, and merge the advertisements into the recorded content in the background, so that they are available when the content is viewed in time-shifted mode.
US10348989B2
The present technology relates to an image processing device, an image processing method, and an image processing system capable of improving detection accuracy of a defective pixel. Provided is an image processing device including a defective pixel estimation unit that estimates a defect of a pixel of interest in an image captured by a solid-state imaging device that contains a two-dimensional array of color pixels, and high-sensitivity pixels having higher sensitivity than sensitivities of the color pixels. The defect of the pixel of interest is estimated on the basis of a correlation between pixel values of the high-sensitivity pixels, and pixel values of the color pixels. The image processing device further includes a defective pixel correction unit that corrects the pixel of interest when it is estimated that the pixel of interest is a defective pixel. The present technology is applicable to an image processing device which corrects a defective pixel by signal processing, for example.
US10348973B2
An imaging device (pan/tilt camera) includes an imaging unit including an imaging lens and an imaging element, a pan/tilt mechanism that rotates the imaging unit in the horizontal direction and the vertical direction with respect to a camera body, an object detection unit that detects an object, which is a tracking target, from a moving image captured by the imaging unit, a pan/tilt control unit that controls the pan/tilt mechanism such that the object detected by the object detection unit is tracked, a motion sensor that detects a physical amount related to the movement of the camera body, and an operation control unit that stops the pan/tilt mechanism in a case in which the physical amount detected by the motion sensor is equal to or greater than a first threshold value.
US10348961B2
A camera modeling system. The camera modeling system includes: a vanishing point detecting module configured to detect, from at least one reference detection object existing in a detection region, a first vanishing point and a second vanishing point; a view mode determining module configured to determine a camera view mode on the basis of a distance from a first position in the detection region to the first vanishing point and a distance from the first position to the second vanishing point; and a camera modeling module configured to select a camera modeling mode corresponding to the determined camera view mode and perform camera modeling through the selected camera modeling mode.
US10348956B2
An integrated image sensor and lens assembly comprises an image sensor substrate comprising an image sensor, a lens mount coupled to the image sensor substrate, a tube adapter extending into a channel of the lens mount, and a lens barrel housing a set of lenses for directing light to the image sensor. The lens barrel has a threaded portion that extends into the tube adapter. An upper subsection of the lens mount and a lower subsection of the lens barrel are unthreaded.
US10348953B2
A communication device has a first communication interface, a second communication interface, and a third communication interface. The communication device gives priority to communication by the third communication interface in a first period that does not include a period for a process for switching communication by the first communication interface to communication by the second communication interface, even if communication by the first communication interface is underway. The communication device also gives priority to communication by the first communication interface over communication by the third communication interface in a second period that includes the period for the process for switching.
US10348948B2
A system for capturing an image of a user includes a mobile device for requesting capture of the image of the user and a camera. The mobile device further includes a communications device configured to broadcast a request, a user input device, and a processing circuit structured to instruct the communications device to broadcast the request in response to an input received via the user input device. The camera is configured to receive the broadcasted request, determine the location of the user, and capture an image of the user.
US10348947B2
A plenoptic imaging device is described including a micro-lens array placed between a main lens and a photosensor. The micro-lens array has a plurality of micro-lenses each configured to project a micro-image onto the photosensor, the main lens covering a central field-of-view of the scene according to capture axis. The plenoptic imaging device includes multi-faceted optical means structure having at least two facets and placed in a plane adjacent to the aperture diaphragm plane and centered on the main optical axis, each facet being configured to angularly rotated the capture axis with respect to the main optical axis so as to capture a rotated field-of-view from the central field-of-view, and so that the captured rotated field-of-views form an expanded field-of-view covering the central field-of-view.
US10348934B2
A method for generating a color system conversion table includes generating a third color system conversion table in which a color specification value of a CMY color system including three primary colors of pigment is an input and a color specification value of the device independent color space is an output, wherein the number of input lattice points of the third color system conversion table is determined such that the number of input lattice points of the third color system conversion table decreases as the gamut size of the printer decreases.
US10348926B2
An information processing system includes a storage storing a first program for providing a function and a second program for executing a process for implementing the function; a storage storing, for each application for executing a sequence of processes, identification information identifying the application and information relating to the sequence of processes, the sequence-related information defining the second program for executing the process included in the sequence of processes; a unit for accepting a request from a device coupled to the system, the request including the identification information and electronic data-related information; and a process executer configured to execute the sequence of processes using electronic data based on the information included in the request, as the first program, which corresponds to the second program defined in the sequence-related information associated with the identification information included in the request, requests the second program to execute the predetermined process.
US10348920B2
An image processing device includes: a fold unit that folds an adjustment sheet, in which an adjustment pattern is formed, over the adjustment pattern based on a predetermined reference fold position; an image reader that reads an image of the adjustment pattern of the adjustment sheet with the adjustment sheet folded by the fold unit unfolded; a position identifying unit that, based on a fold line which appears in the image of the adjustment pattern read by the image reader, identifies a position of the fold line; and a fold position adjusting unit that adjusts a fold position of the fold unit based on a difference between the position of the fold line identified by the position identifying unit and the reference fold position.
US10348916B2
A display input device includes a display panel to display a screen thereon, the screen including a plurality of display areas, and a memory to store specification information, GUI information, and layout information. The GUI information includes information on a plurality of GUIs to be displayed on the screen, the plurality of GUIs being classified into a plurality of groups of GUIs. The layout information associates each one of the plurality of display areas with one group of the plurality of GUIs to be displayed on each display area. The display input device further includes circuitry to scale each display area in accordance with a change in the size or the resolution of the screen, and change one of a size of at least one GUI to be displayed in the scaled display area and a number of GUIs to be displayed in the scaled display area.
US10348910B2
Disclosed is a method and a user device for real time processing of rating associated to one or more telecommunication services. The user device comprises a personalized product catalogue module for receiving a personalized product catalogue comprising one or more telecommunication services. The personalized product catalogue further comprises a plurality of rules associated with rating of each of the one or more telecommunication services. The user device further may comprise a monitoring module for monitoring an event triggered for establishing a communication. The user device may further capture service consumption data pertaining to the appropriate telecommunication service being consumed for the processing of the event. The user device may further rate the event based on the service consumption data and at least one rule, of the plurality of rules, stored in the personalized product catalogue corresponding to the appropriate service.
US10348904B1
Various embodiments of the invention provide methods, systems, and computer program products for routing a communication in a contact center. Specifically, a treatment is selected for a communication from a plurality of treatments. Here, each treatment includes a plurality of agents to handle communications placed in the treatment and a set of queues in which each queue includes a value range. A determination is made as to whether the communication is using a chaining or non-chaining channel. If the communication is using a chaining channel, then a target agent designated to handle communications placed in the treatment using the chaining channel and corresponding queue are identified based on a value of the communication. If the communication is using a non-chaining channel, then a queue is selected from the set of queues for the treatment based on the value of the communication falling within the value range for the queue.
US10348902B1
Certain aspects of the disclosure are directed to template-based management of telecommunications services. According to a specific example, a VoIP server is provided comprising one or more computer processor circuits configured to interface with a remotely-situated client entity using a first programming language. The VoIP server includes a call control engine that is configured to provide a private branch exchange (PBX) for the client entity, and identify at least one call control template written in a second programming language. The call control engine is further configured to control call routing by the PBX and for the VoIP telephone call by executing the call control template to identify at least one data source that corresponds to a call property for the VoIP telephone call, retrieve data from the data source, and implement one or more call processing functions specified by the call control template as being conditional upon the retrieved data.
US10348897B2
Storing a message in a conversation involving a contact of a contact center and an agent of the contact center includes receiving, by a computer of the contact center, the message, wherein the conversation comprises a plurality of messages and then a) identifying redundant information in the received message that is redundant based on one or more of the plurality of messages; and b) identifying derivable information that is derivable from a data source external to the received message. Next, a modified message is generated by eliminating the redundant information and the derivable information from the received message; and the modified message is stored. The modified message can include a number of separate parts, each selectively compressed by a respective compression algorithm.
US10348896B2
A facility and method for analyzing and classifying calls without transcription. The facility analyzes individual frames of an audio to identify speech and measure the amount of time spent in speech for each channel (e.g., caller channel, agent channel). Additional telephony metrics such as R-factor or MOS score and other metadata may be factored in as audio analysis inputs. The facility then analyzes the frames together as a whole and formulates a clustered-frame representation of a conversation to further identify dialog patterns and characterize call classification. Based on the data in the clustered-frame representation, the facility is able to make estimations of call classification. The correlation of dialog patterns to call classification may be utilized to develop targeted solutions for call classification issues, target certain advertising channels over others, evaluate advertising placements at scale, score callers, and to identify spammers.
US10348895B2
In order to provide better service with self-service applications, metrics for a communication session between a user and a self-service application are identified. Based on the metrics, a pattern is determined that will likely predict an initial outcome of the communication session with the self-service application. In response to determining that the pattern will likely predict the initial outcome of the communication session with the self-service application, the way the user is managed in the communication session is changed. For example, if a particular pattern of IVR responses is detected that will likely lead to a caller abandoning a voice call, the voice call can be automatically transferred from the IVR system to a contact center agent. This provides for increased customer satisfaction and better utilization of contact center resources.
US10348881B2
A method for accessing offline voicemail messages within a mobile messaging application may be provided. First, a voice mail message may be received and the voicemail message may be transcribed to text. Next, the voicemail message and the text transcription may be stored. The recipient may then be presented with a list of voicemail messages and the voicemail message may be retrieved in response to the recipient. The recipient may read or listen to the voicemail message or both. The recipient may also annotate the voicemail message.
US10348862B2
A lost and found server includes a processor that executes a lost and found server application that bidirectionally communicates item retrieval data with a plurality of client devices to generate lost item alert data automatically in response to receiving lost item selection data from a first client device for transmission to a proximity-based proper subset of client devices. These client devices automatically display a lost item alert on corresponding display devices. A found item notification data is received from a second client device associated with a user that found the lost item based on user input to a second client device. Found item alert data is generated automatically in response to receiving the found item notification data for transmission to the first client device. The first client device automatically displays a found item alert on the first display device indicating that the first lost item was found.
US10348859B1
A network where FC and Ethernet storage traffic share the underlying network. The network extends FC SAN storage specific attributes to Ethernet storage devices. The network is preferably formed of FC switches, so each edge switch acts as an FCoE FCF, with internal communications done using FC. IP packets are encapsulated in FC packets for transport. Preferably, either each outward facing switch port can be configured as an Ethernet or FC port, so devices can be connected as desired. FCoE devices connected to the network are in particular virtual LANs (VLANs). The name server database is extended to include VLAN information for the device and the zoning database has automatic FCOE_VLAN zones added to provide a mechanism for enhanced soft and hard zoning. Zoning is performed with the conventional zoning restrictions enhanced by including the factor that any FCoE devices must be in the same VLAN.
US10348858B2
A cloud based identity management system that handles a plurality of published events that are published and consumed by microservices provides a dynamic queue that includes one or more active queues and one or more inactive queues. Embodiments create selectors for all of the active queues and the inactive queues and binds subscribers to each active queue. Embodiments dynamically cause at least one of the inactive queues to become one of the active queues when a number of published events increases.
US10348854B2
A system configured to perform operations that receive an indication of a power event occurring at a first device for an online identity. The power event causes the first device to switch from an external power source to an internal battery. The first device represents that the online identity is online while the first device receives power from the internal battery. The operations can further evaluate a priority value of an online contact for the online identity against a threshold value and hold, at a second device, at least one status update for the online contact while the first device receives power from the internal battery in response to evaluation of the priority value against the threshold value. The operations can further release, for transmission to the first device, the at least one status update in response to determination that the first device switches back to the external power source.
US10348846B2
The present invention relates to data transmission over HTTP communication networks, for instance data streaming. A method of transmitting data between a server and a client, comprises, at the server: receiving, from the client, an HTTP request to obtain first data, wherein the HTTP request includes first data identifying information allowing identification of the first data on the server and includes one or more additional header fields containing an indication relating to pushing second data; retrieving and sending the first data to the client; and sending acknowledgment data to the client device, the acknowledgment data being representative of the indication relating to pushing second data.
US10348845B2
An approach is defined to establish consumption analytics of network nodes of a social network. Content is tagged and the content consumption analytics are derived from the content consumption. The content analytics and related heuristic is applied to new content shared in the social network. The content is compared to policies for content push operations and cellular network constraints to determine whether the content is proactively pushed to a mobile device.
US10348837B2
The embodiments are directed to methods and systems for determining whether a server should be placed in maintenance mode. The methods and systems can create a user group comprising one or more client devices connected to one or more permanently installed applications or one or more virtual desktops hosted on the server. The methods and systems can create a temporary directory containing duplicates of the one or more applications or one or more virtual desktops that the one or more client devices are connected to. The methods and systems can disconnect the one or more client devices from the one or more permanent applications or virtual desktops, and connect the one or more user devices to the one or more duplicate applications or virtual desktops.
US10348835B2
Disclosed herein are embodiments of a method for controlling a slave device in a system including a master device and a plurality of groups of slave devices. In one embodiment, the method includes generating, by the master device, a control message containing group data items each corresponding to the respective groups to transmit the control message to a particular group; transmitting, by a slave device included in the particular group, the control message to a next group; extracting, by the slave device, a group data item from the control message after the transmitting the control message; extracting/writing, by the slave device, data from/onto the group data; and transmitting, by the slave device, the group data to the master device after completing the extracting/writing.
US10348834B2
A smart environmental sensing probe includes a communication path, a controller connected to the communication path, and one or more smart sensors, each with at least one common electrical interface for exchanging sensor information with the controller over the communication path using a common communication protocol.
US10348833B2
Provided are a multiplex communication system and a work machine that can appropriately perform transmission and reception of data between a processing circuit used in an industrial network and a multiplex processing section that multiplexes and transmits control data transmitted in the industrial network. A slave processes control data in the industrial network. The control data processed by the slave is transmitted and received by the multiplex communication by a multiplex processing section. A DUMMY-PHY, which is connected between the multiplex processing section and the slave, generates, in a pseudo manner, a signal compliant with an MII communication standard using a pseudo signal generation section, and transmits the generated signal to the slave, thereby performing establishment of communication. The DUMMY-PHY performs data transmission between the multiplex processing section and the slave after establishing communication with the slave.
US10348831B2
A method and system for containerized Internet of Things (IoT) devices. The method includes receiving by a computing platform IoT device sensor data. The method also includes receiving by the computing platform at least one container image script. The method also includes loading into the computing platform at least one container, which is based on the at least one container image script received by the computing platform. The method also includes processing at least a portion of the IoT device sensor data within the at least one container to generate processed IoT device data. The method also includes transmitting from the computing platform at least a portion of the processed IoT device data. The method also includes removing the at least one container from the computing platform in response to at least a portion of the processed IoT device data being transmitted from the computing platform.
US10348828B2
In one embodiment, a method includes receiving at a network device comprising a data transfer optimization module, input identifying a source directory comprising data and a target directory at a storage device, splitting the data into a plurality of data groups for transfer to the storage device, transmitting the data groups concurrently to the storage device on data paths wherein transfer times of the data groups are monitored, receiving at the data transfer optimization module, identification of a data group with a longest transfer time, splitting the data group with the longest transfer time, and placing the data from the data group into at least two of the data groups for transfer to the storage device. An apparatus and logic are also disclosed herein.
US10348826B2
Systems and methods for pattern-based object serving. An example method may comprise: receiving, by a processing device, an object access pattern and an identifier of an object container to be associated with object access requests by a client; receiving an object access request from the client; selecting an object in view of the object container and the object access pattern; and providing an identifier of the object to the client.
US10348815B2
A command process load balancing system performs load balancing of received commands among a number of server processes to resolve access contention for virtual software resources. These contentions are resolved through a history recording unit that records a history including contents of a processed command and a response time of a process for the command into a history database. A prediction unit predicts, in a case where a set of commands to be processed is assigned to a server process, whether or not a load that is equal to or higher than a reference value is applied, on the basis of the history recorded in the history database. An assigning unit assigns at least one command included in the set of commands to be processed to a different server process, in accordance with prediction that a load that is equal to or higher than the reference.
US10348802B2
Systems and methods are provided for delaying publicizing, at a second source, upload of a content item to a first source, until confirmation of availability of the content item at the first source. In one or more aspects, a system includes an upload component configured to upload content to a content server, a share component configured to receive selection of a sharing source to post a notification that informs users regarding availability of the content at the content server, a confirmation component configured to receive confirmation from the content server in response to the content becoming available at the content server following the upload of the content, and a notification component configured to post the notification at the sharing source in response to receipt of the confirmation.
US10348797B1
Systems, methods, and computer-readable media related to configuration of multiple browser applications to control the functionality of the browser application as at least some content is accessed are provided. The configuration of a server-based browser application and a client-based browser application can be controlled programmatically such that browser configuration can be validated and controlled by at least some content providers. Additionally, the configuration and subsequent processing of content provided by an authenticating content provider can be implemented in a manner to limit content access functionality.
US10348793B2
A method, device and medium for determining a coding format are provided. The method includes: receiving one or more data packets forwarded by a call center during a VoLTE communication, in which the one or more data packets carry a first coding format; detecting whether the first coding format is same with a negotiated second coding format; and modifying the coding format used during the VoLTE communication from the second coding format to the first coding format, if the first coding format is not same with the negotiated second coding format.
US10348783B2
A meeting server receives shared content from a presenter device in an online conference session with one or more attendee devices. The meeting server generates one or more digital watermarks corresponding to the one or more attendee devices. Each respective digital watermark includes an indication of the presenter device and an indication of a respective attendee device. The meeting server transmits the shared content with the respective digital watermark to the respective attendee device as part of the online conference session. The respective digital watermark is visible in the shared content displayed on the respective attendee device.
US10348781B2
A method and apparatus for enabling registration of an Aggregate End Point (AEP) device that is incapable of supporting a Session Initiation Protocol (SIP) based Internet Protocol Multimedia Subsystem (IMS) registration are disclosed. The method performs a static registration of the AEP device in a plurality of network elements associated with an Internet Protocol Multimedia Subsystem (IMS) network by provisioning. The method then processes an originating call request or a terminating call request associated with the AEP device using the static registration.
US10348774B2
A policy management system includes a policy management device that is configured to manage a policy input and/or a template and/or a functional model, a policy enforced device that is directly or indirectly connected to the policy management device via a network and that is configured such that at least a part of the functional model managed by the policy management device reflects the functional features/behaviors of the policy enforced device, a policy enforcement device that is configured to execute policy enforcement on the policy enforced device, and a policy decision device that is configured to receive machine-enforceable rule and/or configuration from the policy management device. The policy enforcement device, when a policy relevant event occurs, instructs the policy decision device to determine the result of the condition of the transmitted machine-enforceable rule and/or configuration for implementing the policy input for the policy enforced device, thereby modifying an operation of the policy enforced device or the policy enforcement device to execute the action.
US10348772B2
An approach is described for provisioning and enforcing realtime granular access controls for endpoints. The approach involves enforcing realtime access controls, via a privileged access management appliance, of a plurality of accessors, endpoints, and approvers, to provide for securing, controlling, auditing, and reporting of access to endpoints.
US10348768B2
Training a random forest model to relate settings of a network security device to undesirable behavior of the network security device is provided. A determination of a corresponding set of settings associated with each region of lowest incident probability is made using a random forest. The plurality of identified desired settings are presented as options for changing the network security device from the as-is settings to the identified desired settings. A choice is received from the plurality of options. The choice informs the random forest model. The random forest model ranks for a new problematic network security device the plurality of options for changing the new problematic network security device from as-is settings to desired settings by aggregating an identified cost of individual configuration changes, thereby identifying a most cost-effective setting for the network security device to achieve a desired output of the network security device.
US10348763B2
Provided are methods, network devices, and computer-program products for dynamically configuring a deception mechanism in response to network traffic from a possible network threat. In various implementations, a network deception system can receive a packet from a network. The network deception system can determine an intent associated with the packet by examining the contents of the packet. The network deception system can further configure a deception mechanism to respond to the intent, for example with the appropriate network communications, software or hardware configuration, and/or data.
US10348753B2
A method, computer program product and computer system maintain a list that includes identifiers of vehicles determined by the processor of a detective vehicle to have an innocent status. The processor selects, for each sub-period of a predefined time period, a target vehicle from a plurality of vehicles, where the detective vehicle communicates either directly or indirectly with each vehicle of the plurality and accepts communications from the plurality, where a portion of the plurality of vehicles and the detective vehicle are within a vehicle-to-vehicle communication range, and where vehicle-to-vehicle communication does not utilize infrastructure network connectivity. The processor obtains, over a vehicle-to-vehicle communication or a network connection, messages regarding a status of the target vehicle. The processor determines the status of the target vehicle, where the status is one of: malicious or innocent. The processor notifies the vehicles associated with the identifiers on the list of the determination.
US10348747B2
A non-transitory computer readable recording medium storing a computer executable program that, when executed, causes a computer to perform a cyber attack analysis support process, the cyber attack analysis support process includes: when information of a first cyber attack event including information of malware is registered as a result of a detection of the malware within an information processing system to be monitored, searching for a second cyber attack event having a similarity relationship with the first cyber attack event by referring to a storage storing information on past cyber attack events; and displaying information of the searched second cyber attack event and the registered information of the first cyber attack event on a display circuit.
US10348743B2
A method includes executing a determination process that determines that a setting value is a search key, the setting value being for an item from among a plurality of items in a record identified in a plurality of records, the plurality of records relating to a plurality of pieces of log information that are collected from a plurality of computers; executing a first identification process that identifies, as the record, another record including the search key from among the plurality of records; executing a second identification process that identifies, as the item, a new item from among the plurality of items, the new item being different from an item used to identify the another record in the executing of the first identification process; repeating executing of the processes; and outputting information on at least one computer that is suspected of a cyber-attack, based on the identified records.
US10348737B2
An embodiment of the invention may include a method, computer program product and system for receiving a request from a user to access a system. The user requesting access has an associated job function. The embodiment of the invention may include determining an access window for the job function of the user. The access window for the job function is a range of time where historical usage of the system by one or more users having the job function is above a threshold amount. The embodiment of the invention may include determining whether a time of access of the request is within the access window. The embodiment of the invention may include granting access to the system based on determining that the time of access of the request is within the access window.
US10348735B2
A method for accessing cloud resources via a local application development environment on a computing device. The method includes invoking an access management client at the computing device; obtaining an account identifier associated with a user account and communicating the account identifier to an identity platform; receiving an authentication message from the identity platform in response to the identity platform validating the account identifier, the authentication message comprising a role identifier; communicating the authentication message to the cloud platform; receiving security credentials associated with the role identifier from the cloud platform in response to the cloud platform validating the authentication message and the associated role identifier; setting a variable in the local development environment based on the received security credentials for use by the local development environment to request access to one or more resources maintained by the cloud platform.
US10348729B2
A system and method for authorizing a client device to access a host device based on timestamps including preferably at least two time units. Both devices contain multiple sequence tables that relate an order of time units to the value of one of the time units. Both devices also contain multiple string tables that relate strings to values of the time units within the timestamps. When the client device wants to access the host, it generates a first timestamp and sends the host device the first timestamp and the character strings from host tables related to the value of time units of the first timestamp. The host tables are known to all authorized client devices within the network. The strings are ordered according to a sequence table in the client device and the host device. When received, the host device compares the received characters strings to the character strings within its host string table based on an order determined by its host sequence table. If the character strings and order match, the host sends the client a second timestamp and the process is repeated using the second timestamp and sequence and string tables associated with, and known only to, the client device and the host device. In addition, the client, which may be monitored or controlled by the host, is able to request ongoing re-verification of the hosts authorization to detect and prevent unauthorized access from a third party. The rapidly changing timestamps and network keys eliminate recursive efforts to access these protected devices from an unauthorized third party.
US10348726B2
An online identity verification application may be provided. According to an exemplary embodiment, an online identity verification application may utilize photographic, biometric, and documentation identification protocols. The verification application may use a multi-tier verification process based on identification protocols to verify the owner of a verification account and subsequently verify any linked accounts.
US10348721B2
In one implementation, instructions stored on a non-transitory computer-readable medium are executable by a processing resource to cause a computing device to fetch a token code from a home subscriber server (HSS) for a user and log in to a Virtual Private Network (VPN) server using the token code.
US10348720B2
A cloud authentication system is disclosed. A request for an authentication setup for a first user of a first service provider is received. Additional information, such as authentication criteria, can further be received, such as from the first service provider. A set of stimuli to associate with a first user profile of the first user of the first service provider is stored.
US10348717B2
Techniques for invite enforcement. In one embodiment, for example, a method comprises: receiving an acceptance of an invitation to join a team of one or more team user accounts held with the online service; based on receiving the acceptance and based on determining that an owned domain name service domain of an owned electronic mail address is associated with the team, offering a personal user account an option between at least: (a) converting the personal user account to a team user account that is a member of the team, and (b) changing an electronic mail address associated with the personal user account from the owned electronic mail address to one that has a different domain name service domain than the owned domain name service domain associated with the team.
US10348716B2
Various embodiments concern mechanisms for facilitating communication between network-accessible platforms for developing, hosting, or running hybrid applications that utilize resources hosted across multiple platforms. Hybrid applications cause messages or “calls” to be passed between the platforms that must be authenticated. For example, when a call is placed by a Heroku platform to a Force.com platform, the call must be authenticated for security purposes. If Heroku has not already been authenticated when the call is submitted, an authentication process is invoked. An event listener can be used to register details regarding the initial callout task, and then register or “fire” an event when the authentication process is successfully completed. Registration of the initial callout task completely separates the authentication process from the resource being invoked. Requests can be completed without requiring further user input using at least some of the details registered by the event listener.
US10348714B1
A collaborative communication system comprises a highly flexible architecture that facilitates connecting communication devices and networks to establish multimedia collaboration sessions in a manner that allows distribution of various services and features throughout the collaborative communication system to provide scalability and selectable combination of cost, resource usage, and performance.
US10348712B2
An apparatus is configured for coupling through a network to an external authentication system that allows use of an external service and to a service providing system that provides a given service through authentication performed by the external authentication system. The apparatus includes a web browser and a storing unit. The web browser is configured to transmit to the external authentication system authentication credentials to be used for the authentication performed by the external authentication system to request the authentication to be performed by the external authentication system. The web browser is configured to cause the storing unit to store a first cookie indicating that the authentication credentials have been authenticated. After the storing unit stores a second cookie indicating that the use of the given service has been allowed, the web browser is configured to cause the storing unit to delete the first cookie.
US10348709B2
Techniques are disclosed for providing an authentication service that performs authentication of users on behalf of a relying party. The authentication service receives authentication requirements from the relying party and compares those requirements with authentication capabilities of the user and user equipment. If the authentication requirements are met, the authentication service may perform authentication using the corresponding authentication factors. If the available authentication factors are insufficient or the user fails authentication using the authentication factors used by the authentication service, the relying party may be notified that authentication failed. Upon successful authentication, the authentication service notifies the requiring party that the user has been authenticated.
US10348703B2
In the communications system, a user equipment UE accesses a core network via a first network-side device by using a first air interface and connects to the first network-side device via a second network-side device by using a second air interface to access the core network. The method includes: acquiring, by the network-side device, an input parameter; calculating, by the network-side device, an access stratum root key KeNB* according to the input parameter and an access stratum root key KeNB on the first air interface, or using, by the network-side device, the KeNB as the KeNB*; and generating, by the second network-side device, an access stratum key on the second air interface according to the KeNB*, or sending, by the first network-side device, the KeNB* to the second network-side device.
US10348699B2
A computer-implemented method for managing a personal data store is described for binding one or more identities of different types associated with a user. The computer-implemented method is implemented in a trust system including one or more processing devices communicatively coupled to a network. The computer-implemented method includes receiving one or more self-asserted first attributes by the user and second attributes asserted by an Attribute Provider; utilizing one or more of the first attributes and the second attributes as inputs to obtain and/or produce one or more cryptographically signed attributes signed by an associated Attribute Provider; storing the first attributes, the second attributes, and the one or more cryptographically signed attributes in a personal data store associated with the user; and utilizing one or more of the first attributes, the second attributes, and the one or more cryptographically signed attributes to respond to a request from a Relying Party.
US10348690B2
A message directed to a recipient of a messaging client is intercepted and prevented from reaching the messaging client in a native sent message format as sent from a sender of the message. One or more portions of the message are rendered to a format that is incapable of execution by a device and the message in the format that is incapable of execution is delivered to the messaging client for viewing and/or printing by the recipient.
US10348684B2
Examples include a network device to filter a packet for a packet type. The network device includes a filter to receive the packet and to determine whether the packet is a defined packet type. The network device also includes a Bloom filter to receive the packet from the filter based on the determination that the packet is a defined packet type and to determine whether the packet is a matched packet or an unmatched packet. A processing resource of the network device may receive the packet from the Bloom filter based on the determination that the packet is a matched packet and to determine whether the packet is an exact match.
US10348680B2
Provided is a User Datagram Protocol (UDP)-based control command transmission method, in which a sender sends a control command packet to a receiver based on a UDP; and the receiver sends an Acknowledgement (ACK) packet to the sender based on the UDP after receiving the control command packet. A sender and a receiver are also provided.
US10348678B2
The present invention provides a network device and a method for allocating an access point name. The network device includes: a receiving module, configured to receive a user activation request sent by user equipment UE, where the user activation request includes user location information ULI; a parsing module, configured to parse the ULI received by the receiving module, to acquire an area code of a location of the UE; a determining module, configured to determine an area code set to which the area code acquired by the parsing module belongs; and an acquiring module, configured to acquire, according to a mapping relationship between the area code and an actual access point name APN, the actual APN for the UE. The embodiments of the present invention can implement centralized management on UE based on a geographical area range.
US10348677B2
Methods, systems, and products translate addresses in networks. A residential gateway translates requests for content such that the residential gateway appears as both a requestor and a destination for requested content, regardless of an actual requesting device or a desired output device.
US10348676B1
Caching connection information used to establish a communication connection setup between at least two endpoint devices across a data network. One example of operation may include exchanging at least one interface address and at least one globally unique identifier between the at least two endpoint devices. The method may also provide retrieving a last successful connection setup information based on the at least one globally unique identifier and the at least one interface address, assigning at least one port number to the at least one interface address via at least one of the two endpoint devices, exchanging at least one rendezvous message between the at least two endpoint devices to share connection setup information, and storing at least one of the at least one interface address, that at least one globally unique identifier, the last successful connection setup information, and the at least one port number in a cache file.
US10348669B2
Increasing social network site interactions or user activities in one aspect may include monitoring social network site activities of a first user on a social network site. Based on the monitoring, a second user of the social network site whose postings the first user follows may be identified. The second user's postings that the first user follows may be classified into a content type. The content type indexed by a pair of identifiers identifying the first user and the second user may be stored in a storage device. A notification may be sent to the second user to post content of the content type to promote social network site interactions or activities of the first user.
US10348668B2
A system and method for sending a message over a network are provided. An example system includes a first network interface that is assigned a first Internet Protocol (IP) address, where the network interface is linked to a logical network. The system also includes a messaging protocol module that obtains a first message to be sent over a messaging network to a target system linked to the logical network, generates a second message by encapsulating, based on a messaging protocol, the first message, and determines a destination address for the second message, where the destination address includes a text string and a second IP address of the target system. The system further includes a second network interface that sends over the messaging network the second message having the destination address, where the messaging network is based on the messaging protocol.
US10348665B2
An email sent from a user device can be received at a common email address of an enterprise resource planning server system. The email can be parsed to extract parameters to generate custom reports that are sent back the sender of the received email. The parameters can determine the type of report, the format of the report, and what data to include in the report. Authentication can restrict sending of reports to authorized users of the system.
US10348654B2
A method and an apparatus are provided for controlling a graphical user interface to display information related to a communication session. Information relating to data produced by a first participant to the communication session is displayed on a first display unit, wherein the information produced by the first participant is displayed at a first position on the first display unit. Data is received from a second participant to the communication session, and information relating to the data received from the second participant is displayed on the first display unit, wherein the information received from the second participant is displayed at a second position on the first display unit. The first and second positions are horizontally spaced apart.
US10348646B2
In some embodiments, a data packet may be received at a leaf switch. A port-channel associated with a destination port for the data packet may be identified, and the data packet may be transmitted to the destination port via the identified port-channel.
US10348642B2
A resource stack managed by a resource stack provider is created based on a resource stack template that integrates a custom resource from a second provider into the resource stack using a notification system with the second provider. For example, a customer may create a template that defines a resource stack that comprises resources available from the resource stack provider and one or more custom resources provided by a second provider. When a resource stack is created, resources available from the resource stack provider may be provisioned. Custom resources may be initialized by notifying the provider of the custom resource of the requested integration of the custom resource with the resource stack and requested configuration details. The custom resource provider may respond with an indication of successful integration when the custom resource has been successfully initialized. After initializing the resources, the resource stack may be enabled for use.
US10348636B2
The present disclosure is related to devices, systems, and methods for routing requests for an external service, originating from a plurality of cluster nodes, through an outbound request manager. An example method can include receiving a first request for an external service originating from a first cluster node having a first network address, receiving a second request for the external service originating from a second cluster node having a second network address, transmitting the first request with a particular network address to an address associated with the external service, and transmitting the second request with the particular network address to the address associated with the external service.
US10348629B2
A method and device for processing a wireless baseband capable of expanding dynamically are provided. The method includes the following steps: a plurality of groups of wireless baseband processing clusters which have different processing capacities and are relatively independent are pre-constructed (S201); a current load working state of each group of wireless baseband processing clusters is acquired by monitoring the processing loads of the plurality of groups of wireless baseband processing clusters (S202); and according to baseband processing task requirements and the current load working state of each group of wireless baseband processing clusters, a certain number of wireless baseband processing clusters of which the current load working states are suitable for performing a baseband processing task are scheduled to enter a working state for performing the wireless baseband processing task (S203).
US10348620B2
In one embodiment, a first multiple spanning tree (MST) region configuration for an MST process may be maintained at a switch in a computer network, where the first configuration has a virtual local area network (VLAN)-to-instance (VI) mapping that maps each of one or more VLANs to one of one or more MST instances in the MST region. The switch may subsequently receive a second MST region configuration that has a different VI mapping than the first configuration, and may determine one or more VLANs of the second configuration that have a different VI mapping from the first configuration (“affected VLANs”). Accordingly, in response to a trigger to apply the second configuration at the switch, the affected VLANs are blocked for a delay, and the second configuration may be applied at the switch without restarting the MST process.
US10348619B2
Some embodiments provide a method for a network controller that manages a managed forwarding element (MFE). The method receives a set of data tuples that define packet processing behavior of the MFE. A particular one of the data tuples defines (i) a match condition with at least two conjunctive dimensions and (ii) an action for the MFE to take on a packet that matches an element from each of the dimensions, each of which include at least one element. The method generates a conjunction flow entry that matches on an assigned conjunction identifier and specifies the action defined by the particular data tuple. For each dimension, the method generates a set of flow entries that each match on a different element of the dimension and specify an action that includes the assigned conjunction identifier. The method distributes the conjunction flow entry and the sets of flow entries to the MFE.
US10348614B2
A method is provided that includes accessing, by a debugging device associated with an external user device, (i) a serial console of a hardware network device, and (ii) a management Ethernet port of the hardware network device. The method includes providing, by the debugging device, (i) a serial console interface from the serial console of the hardware network device to the external user device, and (ii) a management Ethernet interface from the management Ethernet port of the hardware network device to the external user device. The method includes receiving, by serial console interface and the management Ethernet interface of the debugging device, user input from the external user device. The method includes sending, using a hardware bypass in the debugging device. Ethernet management traffic from the hardware network device to the external user device through an internal network, responsive to the debugging device improperly operating.
US10348611B2
In one embodiment, a method comprises creating, in a computing network, a loop-free routing topology comprising a plurality of routing arcs for reaching a destination device, each routing arc comprising a first network device as a first end of the routing arc, a second network device as a second end of the routing arc, and at least a third network device configured for routing any network traffic along the routing arc toward the destination device via any one of the first or second ends of the routing arc; and causing the network traffic to be forwarded along at least one of the routing arcs to the destination device.
US10348607B2
A system for determining network device transiting data attributes includes one or more memory devices storing instructions, and one or more processors configured to execute the instructions to run a first script on all static ports of a network and run a second script on all known ports of the network. The system may parse the parameters returned from the first and second scripts to identify one or more identified ports of the known ports. The system may run a third script on the one or more identified ports to force one or more denials at the identified ports. Based on the one or more denials, the system may determine network device transiting data attributes including but not limited to allowed protocols and directionality for each of the one or more identified ports.
US10348601B2
A method for managing active measurements for determining performance parameters in a communication network comprises obtaining of a maximum permitted subsession duration and obtaining of time margins. The method further comprises determining whether or not a critical resource involved in the active measurement is active due to other activities than active measurements. If the determination concluded that the critical resource is active, a sending of an ensemble of packets of a subsession of an active measurement session is initiated. If there is an intended next subsession of the active measurement session and if a time since a last ensemble of packets was sent exceeds a sleep-init time comprised in the time margins, at least the determining and, if permitted, the initiating a sending of an ensemble of packets of the next subsession of the active measurement session is repeated.
US10348592B2
In accordance with embodiments of the present disclosure, a method may include, in response to an attempted execution of an executable endpoint, determining if the executable endpoint is unexpired, performing an endpoint operation of the executable endpoint if the endpoint is unexpired, after performance of the endpoint operation, determining if the executable endpoint has met a condition for expiration, and modifying metadata associated with the executable endpoint such that the executable endpoint is prevented from further attempted execution if the executable endpoint has met a condition for expiration.
US10348584B2
A method and system for providing call routing analytics. A virtual session initiation protocol switch is provided and hosted in an Internet cloud-based environment. The switch streams live call detail records to a computer system having a processor configured to process all of the subscriber's call records to monitor route performance for the subscriber. Real-time route performance data is transmitted to the subscriber for display at a subscriber computer. The subscriber can then alter a routing of at least a portion of the call utilizing the switch in response to the real-time route performance data to increase quality of signaling and business performance.
US10348561B1
A system for configuring and providing automated access to content based on the access rights of a mobile computing device, the location of a mobile computing device, and the user operating the mobile computing device. The system uses a centralized database and management system to configure and manage access to content. The system determines the information that is relevant when a device and user are physically present at a specific location. The system then facilitates access to content on the mobile computing device for user interaction. Access to information is controlled by the system based on a combination of permissions shared by the mobile computing device, the user, and the current location. In one embodiment, access to content is governed by the spatial proximity of the device to some physical asset. In one embodiment, multiple location checks are performed before content is delivered.
US10348559B2
A method for creating a port group, includes generating, by a first software defined network (SDN) controller, the specified identifier according to a device identifier of a first forwarding device in a preset path, a device identifier of a last forwarding device in the preset path, and a device identifier of a specified forwarding device in the preset path; and sending, by the first SDN controller, the specified identifier to a second SDN controller, so that the second SDN controller creates, on the specified forwarding device, a specified port group corresponding to the specified identifier. Therefore, the first SDN controller needs to interact with the second SDN controller only once, to create a port group on the specified forwarding device that is directly controlled by the second SDN controller, and thus the port group creation process is simple.
US10348558B2
The present disclosure discloses a method and system for restarting the network service with zero downtime, comprising: a) listening, by an original process of the network service, on a first port; (b) configuring and initiating a transition process, wherein the configuring includes causing the transition process to listen on a second port different from the first port of the original process; (c) running a connection tracking module and, meanwhile adding an iptables rule to redirect a connection directed to the first port to the second port; (d) waiting until existing connections on the original process are processed completely, then exiting the original process; (e) initiating a new process on the first port according to a new configuring file; (f) reconfiguring the iptables rule to cancel port redirection; and (g) waiting until existing connections on the transition process are processed completely, then exiting the transition process.
US10348554B2
One embodiment is a method that includes retrieving key performance indicators from multi-tone signals captured by a data collector located in a cable network; identifying a fault signature based on the key performance indicators, in which the fault signature is identified based on phase domain analysis of a channel response; and accessing a data repository located in a cloud network for geographical information associated with the cable network. The method further includes determining a location of a fault in the cable network based on the fault signature and the geographical information, in which the determining further includes: determining a length of a fault cavity associated with the fault; identifying at least one segment having a length the same as the length of the fault cavity; identifying terminating devices associated with the at least one segment; and tagging the identified terminating devices as potentially faulty.
US10348553B2
Techniques for dampening an interface flapping rate between switches in a network environment. An interface of a first switch is designated as being in an active mode in which forwarding activity of the interface is permitted. The interface is determined to exhibit flapping behavior satisfying one or more dampening criteria when in the active mode. An indication is sent to a second switch to isolate the interface. A reply to the indication is received from the second switch. The interface is designated as being in an isolated mode in which health monitoring of the interface is permitted but forwarding activity of the interface is prohibited. The interface is determined to satisfy one or more reinstatement criteria when in the isolated mode. The interface is redesignated as being in the active mode.
US10348549B1
A monitoring device responds to status data to detect storms, analysis, and to attempt to remediate those storms. The monitoring device several types of storms, for each of which it has a technique for analysis of the storm. The monitoring device can determine if the storm is due to resource contention, excess or unbalanced performance activity, or network degradation. Once analyzed, the monitoring device analyzes the storm, and attempts to remediate the cause of the storm.
US10348547B2
A method, computer program product, and computer system for assigning an action to execute on content based upon, at least in part, an occurrence of a statistical event. Statistics associated with a corresponding portion of the content published on one or more websites is received. The occurrence of the statistical event with respect to the corresponding portion of the content is determined based upon, at least in part, receiving the statistics. The action on the content is executed based upon, at least in part, determining the occurrence of the statistical event with respect to the corresponding portion of the content.
US10348541B2
Embodiments herein relate to methods and apparatuses. A method performed by a network node (210) for sending to a wireless device (250) a first synchronization signal and an associated information message, for synchronization of the wireless device (250) with the network node (210) is provided. The network node (210) sends the first synchronization signal in OFDM symbols within a subframe, at least once in a time and frequency position in every one of the N OFDM symbols. For each sending of the first synchronization signal, the network node (210) sends an associated information message at a pre-defined time and frequency position in an OFDM symbol. The pre-defined time and frequency position is relative to the time and frequency position of the first synchronization signal. Embodiments herein also relate to a wireless device and method therein.
US10348537B2
Apparatuses and methods for adding offset delays to signal lines of multi-level communication architectures are disclosed herein. An example method may include comparing a current channel state of a channel of a multi-level communication bus with a next channel state of the channel. The example method may further include, based on the comparison, applying an offset delay to a control signal configured to control transition of a signal line of the channel from a value associated with the current channel state to a value associated with the next channel state. The example method may further include after application of the offset delay, driving the signal line to the value associated with the next channel state responsive to the control signal.
US10348533B2
A method and a transmitter for transmitting a pay load sequence are provided. The transmitter includes a ternary sequence mapper configured to map a binary data sequence to a ternary sequence stored in the transmitter, and a pulse shaping filter configured to generate a first signal based on the mapped ternary sequence. The ternary sequence includes elements of −1, 0, and 1.
US10348531B2
A system and apparatus are disclosed for a method and apparatus for equalizing signals. An apparatus that incorporates teachings of the present disclosure may include, for example, an equalizer having a channel estimation calculator for calculating a time domain channel estimation from a baseband signal, a Fast Fourier Transform processor for translating the time domain channel estimation to a frequency domain channel estimation, a tap weight calculator for calculating a frequency domain tap weight according to the frequency domain channel estimation, an inverse Fast Fourier Transform processor for translating the frequency domain tap weight calculation to a time domain tap weight calculation, and a filter for equalizing the baseband signal according to the time domain tap weight calculation.
US10348528B2
A system includes: a baseband phase generator configured to receive differential in-phase (I) and quadrature (Q) signals and configured to output N phase-shifted baseband signals, wherein N is greater than 4, further wherein the baseband phase generator comprises a plurality of notch filters configured to receive the I and Q signals; and an upconverter configured to receive the phase-shifted baseband signals, to perform mixing on the phase-shifted baseband signals, and to output a differential upconverted signal.
US10348522B2
The present invention relates to a device and a method for detecting a transmission signal in a wireless communication system, and a reception device in a wireless communication system comprises: a transceiver for receiving a signal from a transmitting end; a first correlator for performing a first correlation and outputting a real part among the results of the first correlation; a second correlator for performing a second correlation and outputting an imaginary part among the results of the second correlation; and a control unit for controlling the first correlator and the second correlator on the basis of a channel change rate so as to detect a transmission signal.
US10348518B2
A method for transmitting messages between a first networked device and a second networked device via a local network provided by a local network access point is disclosed. The method involves on the first networked device, determining whether the second networked device meets local communications criteria by determining at least one of whether the second networked device is accessible via the local network at a local network address, and whether the second networked device has registered for communications via local networks. The method also involves, in response to a determination that the second networked device meets the local communications criteria, transmitting the message via the local network access point to the local network address associated with the second networked device.
US10348517B2
Systems and computing devices may be configured to intelligently apply service-level policy, charging, licensing, and authorization controls in a telecommunication system that implements or uses network function virtualization technologies. A server computing device deployed in the telecommunication network may be configured to receive a policy request message relating to a network service lifecycle event from another network component, use the information included in the received policy request message to make a service-level policy decision, generate a trigger definition relating to the network service lifecycle event based on the policy decision, generate a policy response message that includes the trigger definition, and send the generated policy response message to the network component.
US10348516B2
Proposed are concepts for managing communication between off-premise and on-premise servers. A flow execution request from an application of an off-premise server or an on-premise server is received and a requested flow is determined based on the received flow execution request. Stored endpoint data associated with the requested flow can then be identified. The flow execution request is then communicated to an on-premise server or off-premise server based on the identified endpoint data.
US10348515B2
In general, certain embodiments of the present disclosure provide methods and systems for a building-integrated communication system. The system comprises a building, one or more processors, and memory. The memory includes one or more programs comprising instructions for transmitting one or more data packets over a network to one or more mobile user devices, the one or more data packets including identification information for a user; authenticating the user based on the identification information; and after authenticating the user, allowing the user to be able to access certain building functions and communication channels between other authenticated users.
US10348509B2
This application discloses a physical unclonable function device including physical unclonable function units, each capable of generating an output. The physical unclonable function device can utilize transforms to derive bits from the outputs and utilize the derived bits to generate an identifier for the physical unclonable function device. An inspection configuration tool can sample multiple outputs from each of the physical unclonable function units, identify a transforms to perform on a future output for each of the physical unclonable function units based on a distribution of values corresponding to the sampled outputs. The inspection configuration tool can configure the physical unclonable function device to perform the transforms on the future outputs of the physical unclonable function units. Embodiments will be described below in greater detail.
US10348508B2
In exemplary embodiments of the present invention, a V2V unit in a vehicle (OBE) can, for example, store a plurality of years of encrypted certificates. The certificates can, for example, be programmed at an OBE factory using a secure server, and access to all certificates can be locked until an unlock key is computed for a given window (certificate validity period). An in-vehicle satellite receiver can then receive, over, for example, a dedicated satellite control channel, unlock codes for a current time window and a next time window, and provide them to the V2V device. Using those unlock codes, the V2V device (OBE) can compute an unlock key from an unlock code provided by the satellite receiver. In this manner an in-vehicle device may be directly messaged, but only to unlock one or more certificates at a controlled time. Without the received lock codes, the stored certificates are not useable.
US10348507B2
A data processing apparatus includes a memory storing a program and a processor configured to execute the program to implement a process of reading signed data including a predetermined number (n) of secret sharing data sets generated for each section of time series data and a signature value calculated for the each section of time series data based on a secret sharing protocol. The n secret sharing data sets include n units of data acquired from each section of time series data and parameter information for a polynomial of a predetermined degree calculated based on the acquired n units of data. The processor further implements processes of acquiring the predetermined degree, and editing the signed data by extracting a specific number of the secret sharing data sets from the n secret sharing data sets for the each section of time series data according to the acquired predetermined degree.
US10348503B2
A method and system including a display; a memory storing processor-executable process steps; and a processor to execute the processor-executable process steps to cause the system to: receive a first request at a server; generate a first dataset and a second dataset at the server, wherein the second dataset is encrypted; transmit the first and second dataset to a client; receive at the server a second request and the encrypted dataset, wherein the second request includes a request to execute an action with at least one data element in the first data set; and in response to receipt of the second request and encrypted dataset, decrypt the encrypted dataset to validate the second request. Numerous other aspects are provided.
US10348501B2
A method, apparatus, article of manufacture, and a memory structure for providing a security infrastructure that permits the programming of limited hardware resources that can accept newly downloaded applications and securely support a very large number of services offered by content providers each have the potential to utilize their own independent CAS/DRM system. The CE device owner can consume content from a variety of sources and enable switching among different and existing CAS/DRM security profiles as required by the content provider applications loaded in CE devices.
US10348500B2
Methods and systems for key material management are disclosed. One system can include a virtual machine monitor (VMM) running on a host device and a number of virtual machines (VMs) running on the VMM, wherein the VMM is configured to perform key management to provide access by the number of VMs to key material required for the VMs to perform key management operations.
US10348496B2
A method for leveraging a first secure channel of communication between a first agent and a second agent to create a second secure channel of communication between the first agent and a third agent. The method includes creating the first secure channel of communication between the first agent and the second agent using a configurable data-driven initial process on a first computing device. Responsive to the first agent receiving a request from the third agent to establish the second secure channel of communication, the method further includes retrieving identifying information from the third agent. The method further includes ending the identifying information from the third agent to the second agent over the first secure channel of communication. Responsive to receiving approval of the third agent's request from the second agent, the method further includes establishing the second secure channel of communication.
US10348492B2
According to an embodiment, a quantum key distribution device includes first and second operation units. The first operation unit is configured to perform a first operation as a key distillation operation. The first operation unit includes a hardware circuit for performing a part of the first operation. The key distillation operation includes a sifting operation for a photon bit string generated through quantum key distribution with another quantum key distribution device via a quantum communication channel. The second operation unit is configured to perform a second operation as a key distillation operation other than the first operation. The second operation unit includes a circuit for a part of the second operation. The first operation unit stores intermediate data generated by the first operation. The second operation unit generates, by the second operation, a cryptographic key being the same as for the another quantum key distribution device from the intermediate data.
US10348484B2
A method for generating a blockchain configured for fast navigation includes: storing a blockchain comprised of a plurality of blocks, each block including a header comprised of a fast track flag, fast track reference, timestamp, and hash value, where the plurality of blocks includes standard blocks having a deactivated fast track flag and fast track blocks having an activated fast track flag; identifying a most recent fast track block based on the timestamp in the fast track blocks; identifying a most recent overall block based on the timestamp included in the plurality of blocks; generating a fast track hash value via hashing the most recent fast track block; generating a chain hash value via hashing the most recent overall block; and writing a new block to the blockchain including a block header comprised of a timestamp, activated fast track flag, the fast track hash value, and the chain hash value.
US10348479B2
In at least some example embodiments an optical line terminal (OLT) may include processing circuitry configured to, convert an optical signal received from an optical network terminal (ONT) to a digital signal; and monitor the digital signal for a convergence event, the digital signal representing an optical signal received from the ONT and the convergence event being an event associated with the ONT.
US10348477B2
A disclosure of the present specification provides a method for transmitting an uplink channel and a demodulation reference signal (DMRS) by a machine type communication (MTC) device. The method may comprise the steps of: determining a frequency resource area for transmitting an uplink channel so as to have a size equal to or smaller than the size of a physical resource block (PRB) including 12 subcarriers; generating a DMRS sequence for some sub-carriers among the 12 subcarriers when the frequency resource area for transmitting the uplink channel is determined to have a size smaller than the size of the PRB including the 12 subcarriers; and transmitting the uplink channel and the DMRS on the some subcarriers in the PRB.
US10348474B2
Provided is a method and apparatus for processing cell interference. The method includes: acquiring spatial beam interference information between each of nodes and a surrounding node of each node; determining an interference management strategy for a service in each node according to the spatial beam interference information and resource allocation information of the surrounding node of each node, wherein the resource allocation information is information for allocating resources of a service in the surrounding node of each node, and the resources are in a time domain, a frequency domain and a space domain; and executing the interference management strategy of the service in each node. The solution above solves the problem that interference management schemes in the related art can only be used independently to manage interference in a time domain, frequency domain or space domain.
US10348459B2
Methods and systems for an optoelectronic built-in self-test (BIST) system for silicon photonics optical transceivers are disclosed and may include, in an optoelectronic transceiver having a transmit (Tx) path and a receive (Rx) path, where the Rx path includes a main Rx path and a BIST loopback path: generating a pseudo-random bit sequence (PRBS) signal, generating an optical signal in the Tx path by applying the PRBS signal to a modulator, communicating the optical signal to the BIST loopback path and converting to an electrical signal utilizing a photodetector, the photodetector being a replica of a photodetector in the main Rx path, and assessing the performance of the Tx and Rx paths by extracting a PRBS signal from the electrical signal. The transceiver may be a single complementary-metal oxide semiconductor (CMOS) die or in two CMOS die, where a first comprises electronic devices and a second comprises optical devices.
US10348455B2
The present invention relates to a transmission of information in a wireless communication network between a radio access node and a relay node, wherein, according to a new ground rule, for each allocated downlink subframe for a downlink transmission from the access node to the relay node, an uplink transmission subframe for an uplink transmission is allocated four transmission time intervals later. A downlink subframe is only allocated when a further subframe of the same transmission time interval for a transmission from the relay node to the user equipment is a subframe of a type that indicates to a user equipment that no data are received beyond a control region of the subframe.
US10348453B2
A method controlling wireless communication of a data block from a terminal device to a base station includes: making a first uplink transmission for the data block in association with a first retransmission protocol process and obtaining a corresponding first acknowledgement indication indicating whether the data block has been successfully communicated to the base station; making a second uplink transmission for the data block in association with a second retransmission protocol process and obtaining a corresponding second acknowledgement indication, the second transmission initiated before the first acknowledgement indication is obtained; and determining whether to avoid scheduling retransmission of data for the data block in association with the first retransmission protocol process based on the first and second responses, avoiding data retransmission in association with the first retransmission protocol process if either the first or second acknowledgement indications indicate the data block has been successfully communicated to the base station.
US10348449B2
A method includes processing error correction encoded data by a first processing chain of a transmitter. The processing includes interleaving a first portion of the error correction encoded data with respect to a first interleaving period to generate a first output signal. Interleaving the first portion includes de-multiplexing the first portion among multiple branches having respective delays in accordance with a distribution order and re-multiplexing delayed data from the branches to form the first output signal. The method includes processing the error correction encoded data by a second processing chain of the transmitter without use of interleaving to generate a second output signal. The method includes multiplexing the first output signal and the second output signal into a multiplexed stream. The method also includes transmitting the multiplexed stream from the transmitter over a communication channel to a receiver.
US10348447B2
A system and method of controlling the operation of M2M devices in a communications network is provided. The M2M devices are configured to send messages to one or more application servers via the network. A device management system is used to receive via the network messages relating to the operation of any of the M2M devices, the communications network and the one or more application servers. The device management system uses one or more processors to monitor the operation of any of the network, the M2M devices and the one or more application servers using said messages, detect at least one predetermined operating condition based on said monitoring, and in response to said detection, communicate a request for one or more of said M2M devices to change communication pattern.
US10348437B2
A method and system is provided for cassette based wavelength division multiplexing and may include an optical system with an aggregating cassette. The optical system may include optical transceivers, with each generating optical signals at a different wavelength. The aggregating cassette may include one or more multiplexers coupled to each of the optical transceivers via optical fibers. The optical transceivers may generate modulated optical signals at one of the different wavelengths. The optical fibers may communicate one of the modulated optical signals from each of the optical transceivers to the one or more multiplexers. The modulated optical signals may be multiplexed to one or more output optical fibers. The multiplexed signals may be communicated to one or more receiving demultiplexers using the one or more output optical fibers. The one or more demultiplexers may demultiplex said multiplexed signals into separate wavelength signals.
US10348434B2
One disclosure of the present specification provides a method for measuring reference sensitivity (REFSENS) for proximity service (ProSe) communication. The method may comprise a step of establishing an uplink center frequency of band 1 of a cellular base station operating as an interference source to be 1922.5 MHz in order to measure the REFSENS, and adjusting a radio frequency (RF) unit in order to establish a channel bandwidth to be 5 MHz, in case that evolved universal terrestrial radio access (E-UTRA) band 1 is established for communication with the cellular base station and E-UTRA band 28 is established for ProSe communication; and a step of establishing an uplink center frequency of band 4 of the cellular base station operating as the interference source to be 1752.5 MHz in order to measure the REFSENS, and adjusting the RF unit in order to establish a channel bandwidth to be 5 MHz, in case that E-UTRA band 4 is established for communication with the cellular base station and E-UTRA band 2 is established for ProSe communication.
US10348430B2
A sensor may determine a sampling pattern based on a group of synchronization signals received by the sensor. The sampling pattern may identify an expected time for receiving an upcoming synchronization signal. The sensor may trigger, based on the sampling pattern, a performance of a sensor operation associated with the upcoming synchronization signal. The performance of the sensor operation may be triggered before the upcoming synchronization signal is received.
US10348428B2
Examples may include techniques to enable synchronized execution of a command by nodes in a network fabric. A node capable of hosting a fabric manager for the network fabric (fabric manager node) may generate one or more packets including a command to be executed by at least some nodes in the network fabric. In some examples, a time stamp is also included with at least one of the one or more packets to indicate to receiving nodes to execute the command at a synchronized time.
US10348421B1
In accordance with an embodiment a device is usable to measure radio frequency (RF) signals including microwave signals to provide an alarm when a power level at its input exceeds predetermined levels. A user can attach the device to a coax cable on a microwave or wireless tower to determine if certain power levels are present and what levels are exceeded. If high power is indicated by the device, the user will then avoid attaching that coax cable to other measurement equipment which would be damaged by excessive RF power. The device is further usable, for example, to apply power to one coax cable in a cable bundle then identify which cable of the bundle is getting the power by connecting the device on the output end of each coax in the bundle, one by one.
US10348419B2
A wireless sensor includes a substrate, an antenna, a sensing element, a transmission line, and a sensing integrated circuit (IC). The sensing element is positioned on one end of the substrate and the antenna is positioned on an opposite end of the substrate. The sensing IC is coupled to the sensing element and to the antenna via the transmission line. The sensing IC is operable to receive a sensed condition of the item from the sensing element. The sensing IC is further operable to determine an input impedance of the wireless sensor based on the sensed condition and convert it into a digital value that is representative of the condition of the item. The sensing IC is further operable to output, via the antenna, the digital value or a representation of the condition of the item.
US10348411B2
A system includes a first optical frequency comb generator that generates a first parametrically generated comb using parametric mixing comprising a first plurality of optical waves including at least one first optical wave. The system includes a second optical frequency comb generator that generates a second parametrically generated comb using parametric mixing comprising a second plurality of optical waves. The second optical frequency comb generator receives the at least one first optical wave and generates the second plurality of optical waves using the at least one first optical wave. Respective center frequencies of one or more optical waves of the first plurality of optical waves are aligned in frequency with respective center frequencies of one or more optical waves of the second plurality of optical waves.
US10348409B2
Methods and systems for continuous gain control in a feedback transimpedance amplifier (TIA) may include: in a TIA including a gain stage, a feedback resistance for the gain stage, a current sense resistor, and a feedback current control circuit: receiving an input current at an input of the gain stage: directing a current through the current sense resistor to the feedback current control circuit, and generating an output voltage proportional to the input current and a gain of the TIA. The gain may be configured by providing a proportion (α) of the current through the feedback current control circuit to the input of the gain stage. The proportion α of the current from the feedback current control circuit to the input of the gain stage may be configured by applying a differential voltage to control terminals of a transistor pair in the feedback current control circuit.
US10348399B2
An optical transmitter device is disclosed. The optical transmitter device includes an optical integrating device, a carrier, and a thermo-electric cooler (TEC). The carrier has a top surface and a back surface opposite to the top surface. The carrier includes an insulating slab and a metal plate attached to the insulating slab. The metal plate has thermal conductivity better than thermal conductivity of the insulating slab. The insulating slab forms the top surface of the carrier that provides an interconnection thereon. The back surface mounts the optical integrating device thereon. The TEC faces the carrier and mounts the carrier thereon. The carrier has a base overlapped with the TEC and an extension not overlapped with the TEC, the extension mounting the optical integrating device thereon.
US10348396B2
A system for re-using GEO-allocated communications spectrum in a LEO satellite constellation based communications system, such that the LEO satellite originated signals will not appear in the beam-width of GEO-pointed earth station antennas, and satellites configured to provide communications by manipulating their respective beam transmissions, which may include a forward beam and rearward beam whose angles are controlled to project the beam and reduce or eliminate the potential for interference with GEO-pointed earth station antennas. The system and LEO satellites may provide substantially 100% coverage of an earth station located anywhere on the surface of the earth, without coordination with the GEO satellites or GEO-pointing ground stations. The system also may provide earth stations that are configured to enhance the isolation between the GEO communications system and the LEO communications system using the same spectrum to reduce the potential for GEO-pointed earth station antennas from picking up the LEO communication.
US10348393B2
An antenna control algorithm is disclosed. Using this algorithm, the repeater will select an optimum antenna configuration at start-up. Once the configuration is selected, the system will keep this configuration until the performance metrics for this configuration drops below a specified level. At this point, the system will scan all antenna configurations to determine a new optimum configuration. In an alternative implementation, the repeater will select an optimum antenna configuration at start-up. Once the configuration is selected, the system will keep this configuration until the performance metrics for this configuration drops below a specified level. At this point, the system will start scanning antenna configurations to find a new configuration that yields a performance better than the required minimum performance level. This configuration would typically be faster than an optimum configuration as not all possible options need to be tested.
US10348392B2
Technology for a desktop signal booster is disclosed. The desktop signal booster can include a cellular signal amplifier, an integrated device antenna coupled to the cellular signal amplifier, an integrated node antenna coupled to the cellular signal amplifier, and wireless charging circuitry. The cellular signal amplifier can be configured to amplify signals for a wireless device, and the wireless device can be within a selected distance from the desktop signal booster. The integrated device antenna can be configured to transmit signals from the cellular signal amplifier to the wireless device. The integrated node antenna can be configured to transmit signals from the cellular signal amplifier to a base station. The wireless charging circuitry can be configured to wirelessly charge the wireless device when the wireless device is placed in proximity to the desktop signal booster.
US10348391B2
Aspects of the subject disclosure may include, for example, a repeater device having a first coupler to extract downstream channel signals from first guided electromagnetic waves bound to a transmission medium of a guided wave communication system. An amplifier amplifies the downstream channel signals to generate amplified downstream channel signals. A channel selection filter selects one or more of the amplified downstream channel signals to wirelessly transmit to the at least one client device via an antenna. A second coupler guides the amplified downstream channel signals to the transmission medium of the guided wave communication system to propagate as second guided electromagnetic waves. Other embodiments are disclosed.
US10348386B1
Precoding coefficients can be compressed based on user equipment signal interference to noise ratio or path loss in front haul cloud radio access network systems. For example, a baseband unit can compute a precoder matrix from an estimated channel associated with an uplink signal. Once the baseband unit computes the channel, it can determine the coefficients for the linear combination of the basis vectors, which are known at the baseband unit and the radio unit as well. The baseband unit can estimate the path loss and the signal interference to noise ratio and determine the basis vectors. The baseband unit can then compress the coefficients and transmit the coefficients to the radio unit. When the radio unit receives the compressed coefficients, the radio unit can reconstruct the precoder matrix and apply to reference signals and data traffic channels.
US10348380B1
The present disclosure describes methods and apparatuses for singular value decomposition with norm sorting. In some aspects, a sounding frame is received through a channel of a wireless medium. Based on the sounding frame, a channel covariance matrix describing conditions of the channel can be determined. The channel covariance matrix is then decomposed, with an ortho-normal matrix, to provide an intermediate matrix of vectors. One or more vectors of the intermediate matrix are sorted based on a respective norm to provide a norm-sorted matrix of the vectors. A steering matrix for the channel is then generated by ortho-normalizing at least two vectors of the norm-sorted matrix. By so doing, a steering matrix can be generated quickly and efficiently for use in subsequent communication operations.
US10348373B2
The present invention discloses methods and apparatuses for quantizing, and feeding back channel information and precoding data. In the above methods, a channel measurement pilot signal is received from a base station. The channel information is acquired by performing channel measurement according to the channel measurement pilot signal. CMatrix1 and CMatrix2 are calculated using the channel information, herein CMatrix1 and CMatrix2 are used to quantize the channel information or indicate the base station to perform precoding. And first indication information of CMatrix1 and/or second indication information of CMatrix2 are fed back to the base station. According to the technical solutions of the present invention, as the influence of the polarization leakage is considered in the feedback design, a significant performance gain exists in a case that the polarization leakage actually occurs.
US10348368B2
The present invention includes systems and methods for a near field communication (NFC) center that stores NFC information for various NFC devices and products. The NFC information is supplied by the device or product itself or from the manufacturer of the device or product. A user is then able to obtain the NFC information through their user mobile device from the NFC center. With the NFC information, the user can manage one or more NFC devices in real time.
US10348367B2
A structure comprises a first power coil configured to be magnetically coupled to a second power coil and an auxiliary coil over the first power coil, wherein at least one of the first power coil and the auxiliary coil has an 8-shaped structure.
US10348364B2
In a system, known digital representations are generated, and test analog signals are generated using the known digital representations. The test analog signals are transmitted using a transmitter of a transmission system. The test analog signals are received using a receiver of the transmission system and used to generate test received digital representations. The test received digital representations are cross-correlated with the known digital representations to generate a mixing matrix. The mixing matrix is inverted to generate a de-mixing matrix, which is applied to subsequent digital data to be encoded onto a signal and transmitted by the transmitter to generate pre-compensated digital data.
US10348361B2
A measuring device for phase-coherent analysis of frequency-hopping signals is provided. The measuring device comprises a signal acquisition unit and an analyzing unit. Whereas the signal acquisition unit is configured to obtain an In-phase/Quadrature-phase-signal (I/Q-signal) and to provide said I/Q-signal for the analyzing unit, the analyzing unit is configured to detect hop occurrences at nominal hop frequencies based on the provided I/Q-signal. In addition to this, the analyzing unit is further configured to specify at least one common reference frequency with respect to the hop occurrences.
US10348357B2
A single feed-in dual-band antenna structure includes a first radiation unit, a basal plate and a plurality of matching components. The basal plate includes a front side, a back side and an edge side. A first ground unit, a signal feed-in unit, a second radiation unit and an electrode part are arranged on the front side. A third radiation unit is arranged on the edge side. A second ground unit is arranged on the back side of the basal plate. The first radiation unit is electrically connected to the electrode part. The first radiation unit is adjusted to control the 2.45 GHZ frequency range impedance, resonant frequency, bandwidth and radiation effect. The third radiation unit frequency wave length controls the 5 GHZ frequency range to achieve the predetermined target impedance, resonant frequency, bandwidth and radiation efficiency. The antenna size can be reduced effectively.
US10348349B2
An electronic apparatus of an embodiment includes a movable housing, a main housing, a joint, a cable, and a seal structure. The joint includes a connection portion connected to the movable housing, and a fixed portion connected to the main housing. The cable extends from an inside of the movable housing to an inside of the main housing through an inside of the connection portion and an inside of the fixed portion. The seal structure seals between the movable housing and the connection portion, and seals between the main housing and the fixed portions.
US10348341B2
Systems and methods for providing indications about the TX RF non-linear impairments are disclosed. In accordance with some implementations, a first device (UE or base station) estimates EVM indications for the signal and determines if the EVM indications is above a threshold. The first device may transmit the estimated TX non-linearity indications math as AM-AM, AM-PM, Volterra coefficients, and/or other performance metrics to a second device, that transmitted the signal, when it is determined that the EVM indications is above the threshold. Systems and methods for wireless communication impairment correction are also disclosed wherein, in accordance with some implementations, a first device receives estimated TX non-linearity indications such as AM-AM, AM-PM, and/or Volterra coefficients from a second device and performs non-linear correction of a transmit signal for the second receiver device based at least in part on the EVM indications. Other aspects, embodiments, and features are also claimed and described.
US10348339B2
A device combines filter circuits to be connected to an antenna, enabling carrier aggregation for wireless communications over multiple RF frequency bands in different operational environments. The device includes first, second and third filter circuits having first, second and third matching networks and one or more first, second and third band pass filters with corresponding passbands, respectively. The device further includes multiple individual matching networks not dedicated to any of the first, second or third filter circuits, and a multi-state switch configured to provide different filter circuit combinations by selectively connecting at least two of the first, second and third filter circuits, respectively, and at least one individual matching network of the multiple matching networks. Each filter circuit combination includes a combined matching network having at least two of the first, second and third matching networks and the at least one individual matching network.
US10348331B2
Embodiments of the present disclosure provide a decoding method of a polar code, including: acquiring a receiving sequence and a check matrix, wherein the receiving sequence is output on a channel after an input mapping sequence is encoded; carrying out Trellis path search according to the receiving sequence and the check matrix, and calculating Trellis path likelihood information corresponding to the input mapping sequence; calculating a decision value corresponding to the input mapping sequence according to the Trellis path likelihood information; and de-mapping the calculated decision value corresponding to the input mapping sequence according to a preset mapping relation to obtain a decoding sequence. The input mapping sequence belongs to a finite field GF(q), when decoding the polar code, the Trellis path search is carried out, and the decision value is calculated and de-mapped to simultaneously reduce a maximum list value and greatly reduce an average list value.
US10348318B2
A light-emitting element module includes a light-emitting element that emits light, a base that has a depression portion in which the light-emitting element is accommodated, and a lid that covers an opening of the depression portion and is joined to the base. The lid includes a protrusion portion that protrudes on an opposite side to the base and has a hole through which the light passes and a window that is installed in the protrusion portion to block the hole and transmits the light. A surface of the window on a side of the light-emitting element is inclined with respect to a surface perpendicular to an optical axis of the light.
US10348317B2
A quantum interference device (atomic oscillator) includes a light source unit as a coherent light source, a unit that superimposes microwave on the light source unit to generate a side band, an atom cell in which an alkali metal gas is enclosed, and a light receiving unit that detects light transmitted through the atom cell, wherein the light source unit is a surface-emitting laser that outputs a zero-order mode light and a plurality of higher-order mode lights, and a mode filter that cuts the higher-order mode lights is placed between the light source unit and the atom cell.
US10348311B2
An integrated circuit (IC) includes communication circuitry, a body bias generator, and a controller. The communication circuitry includes a physical medium attachment (PMA) and a physical coding sublayer (PCS). The body bias generator provides body bias signals to the PMA and PCS. The controller controls the body bias generator such that the body bias signals are controlled to improve a power consumption of the communication circuitry.
US10348298B2
This disclosure generally relates to repeaters, and, in particular, repeaters for open-drain systems. In one embodiment, an apparatus comprises a first port, a second port, a current detector, a transistor, and a control logic circuit. A current detector input of the current detector is coupled to the first port. A transistor channel electrode of the transistor is coupled to the second port. A control logic circuit input of the control logic circuit is coupled to the current detector output, and a control logic circuit output of the control logic circuit is coupled to a transistor control electrode of the transistor.
US10348296B2
A body-control-device for a bi-directional transistor, said bi-directional transistor having a first-transistor-channel-terminal, a second-transistor-channel-terminal, a transistor-control-terminal and a transistor-body-terminal. The body-control-device comprises a body-control-terminal connectable to the transistor-body-terminal of the bi-directional transistor, a first-body-channel-terminal connectable to the first-transistor-channel-terminal of the bi-directional transistor, a second-body-channel-terminal connectable to the second-transistor-channel-terminal of the bi-directional transistor, a negative-voltage-source and a switching-circuit configured to selectively provide an offset-first-circuit-path between the first-body-channel-terminal and the body-control-terminal, wherein the offset-first-circuit-path includes the negative-voltage-source such that it provides a negative voltage bias between the body-control-terminal and the first-body-channel-terminal.
US10348293B2
Systems, methods, and apparatus for use in biasing and driving high voltage semiconductor devices using only low voltage transistors are described. The apparatus and method are adapted to control multiple high voltage semiconductor devices to enable high voltage power control, such as power amplifiers, power management and conversion (e.g. DC/DC) and other applications wherein a first voltage is large compared to the maximum voltage handling of the low voltage control transistors. According to an aspect, timing control of edges of a control signal to the high voltage semiconductor devices is provided by a basic edge delay circuit that includes a transistor, a current source and a capacitor. An inverter can be selectively coupled, via a switch, to an input and/or an output of the basic edge delay circuit to allow for timing control of a rising edge or a falling edge of the control signal.
US10348288B2
A differential output circuit includes: input transistors that receive differential input signals; n stages of cascode transistors (n≥2) cascode connected to the input transistors; output terminals connected to the drains of n-th stage cascode transistors; an intermediate potential generating circuit that supplies an intermediate potential of potentials of the output terminals to the gates of the n-th stage cascode transistors; and a dividing circuit that supplies divided potentials resulting from the intermediate potential being divided into (n−1) stages to the respective gates of the (n−1)-th through first stages of the cascode transistors in descending order of potential.
US10348286B2
A waveform conversion circuit for turning a switch device on and off by applying a control signal from a controller to a gate terminal of the switch device is provided. The switch device has the gate terminal, a drain terminal, and a source terminal. The waveform conversion circuit includes a parallel circuit of a first capacitor and a first resistor and a voltage clamp unit. The parallel circuit is coupled between the controller and the gate terminal. The voltage clamp unit is coupled between the gate terminal and the source terminal and configured to clamp a voltage across the gate terminal to the source terminal at a first voltage in an OFF pulse of the control signal and at a second voltage in an ON pulse of the control signal.
US10348283B1
A voltage converter includes a comparator that continuously monitors an output voltage of the voltage converter. The comparator includes a first comparator core utilizing first and second switched capacitors and a second comparator core using third and fourth switched capacitors. The first comparator core is powered down or in a refresh mode while the second comparator core is monitoring the output voltage. The second comparator core is powered down or in the refresh mode while the first comparator core is monitoring the output voltage. The first and second switched capacitors are configured in series with an amplifier stage of the first comparator core while the first comparator core is monitoring the output voltage. The refresh mode charges the first (third) and second (fourth) switched capacitors to a scaled version of the output voltage and a reference voltage less an offset voltage, respectively.
US10348280B2
An example current limiting apparatus comprises a first transistor to carry a first current; a sense transistor coupled to the first transistor, the sense transistor to carry a sense current that is a function of the first current; a first amplifier coupled to the first transistor and the sense transistor, the amplifier to achieve a common voltage potential on terminals of the first and the sense transistors; a second amplifier coupled to the first amplifier and the sense transistor, the second amplifier to control the first and sense transistors based on the sense current; and a circuit coupled to the first and second amplifiers, the circuit to control an input to the second amplifier based on an input to the first amplifier such that a current limit of the first transistor remains below a programmed current limit of the first transistor.
US10348275B2
There is disclosed configurable frequency-divider circuitry for generating a target signal of a frequency Fr/Di based on a reference signal of a frequency Fr, where Di is an integer divider ratio, the frequency-divider circuitry comprising: N divider stages organised into a ring, each stage configured to receive an input signal and generate an output signal, with the output signal of each successive stage in the ring being the input signal of the next stage in the ring, wherein: the ring of stages is controlled by the reference signal so that the output signals are governed by the reference signal; the target signal is one of the output signals or a signal derived therefrom; and at least one of the stages is a configurable stage, whose mode of operation is configurable based on a configuration signal to configure the value of Di.
US10348269B2
A micro-electrical-mechanical system (MEMS) guided wave device includes a piezoelectric layer including multiple thinned regions of different thicknesses each bounding in part a different recess, different groups of electrodes on or adjacent to different thinned regions and arranged for transduction of lateral acoustic waves of different wavelengths in the different thinned regions, and at least one bonded interface between the piezoelectric layer and a substrate. Optionally, a buffer layer may be intermediately bonded between the piezoelectric layer and the substrate. Methods of producing such devices include locally thinning a piezoelectric layer to define multiple recesses, bonding the piezoelectric layer on or over a substrate layer to cause the recesses to be bounded in part by either the substrate or an optional buffer layer, and defining multiple groups of electrodes on or over the different thinned regions.
US10348262B2
Described herein are variable gain amplifiers and multiplexers that embed programmable attenuators into switchable paths that allow signals in a high gain mode to bypass attenuation. This advantageously reduces or eliminates performance penalties in the high gain mode. The programmable attenuators can be configured to improve linearity of the amplification process through pre-LNA attenuation in targeted gain modes. In addition, described herein are variable gain amplifiers with embedded attenuators in a switching network. The attenuators can be embedded onto switches and can be configured to have little or no effect on a noise factor in a high gain mode because the switching network can provide an attenuation bypass in a high gain mode and an attenuation in other gain modes. The programmable attenuators can be embedded onto a multi-input LNA architecture.
US10348260B2
An OTA circuit includes a first input stage that includes a first pair of transistors having sources coupled to a reference potential and converts a differential input voltage input to gates of the first pair of transistors into a first control current, a second input stage that includes a second pair of transistors having sources coupled to the reference potential and converts the differential input voltage input to gates of the second pair of transistors into a second control current, a first output circuit that generates one output current out of the differential output currents in accordance with the first control current, and a second output circuit that generates the other output current out of the differential output currents in accordance with the second control current.
US10348257B2
A system for a differential trans-impedance amplifier circuit comprising: an amplifier having a pair of input nodes and configured to generate an amplified replica of a differential voltage on said pair of input nodes; a photodiode; a pair of DC-blocking capacitors coupling said photodiode to said pair of input nodes; at least one resistance coupled between said pair of input nodes of said amplifier; and a bias network comprising two identical photodiode biasing resistances each photodiode biasing resistance coupled in series between said photodiode and a respective DC voltage. A feedback loop for the amplifier may include source followers that are operable to level shift voltages prior to coupling capacitors that couple said photodiode to said amplifier to ensure stable bias conditions for said amplifier. The source followers may include CMOS transistors. The amplifier may be integrated in a complementary metal-oxide semiconductor (CMOS) chip, which may include a CMOS photonics chip.
US10348248B2
Improvement in linearity is achieved at low costs in a power amplifier module employing an envelope tracking system. The power amplifier module includes a first power amplifier circuit that amplifies a radio frequency signal and that outputs a first amplified signal, a second power amplifier circuit that amplifies the first amplified signal on the basis of a source voltage varying depending on amplitude of the radio frequency signal and that outputs a second amplified signal, and a matching circuit that includes first and second capacitors connected in series between the first and second power amplifier circuit and an inductor connected between a node between the first and second capacitors and a ground and that decreases a gain of the first power amplifier circuit as the source voltage of the second power amplifier circuit increases.
US10348239B2
Multi-layered solar cell devices covered with partially transmissive graphic films. The multi-layered solar cell devices include at least one solar cell, a graphics layer over the solar cell, and a reflective layer. The reflective layer can be behind the solar cell for recycling light or between the partially transmissive graphic film and the solar cell for improved appearance. The multi-layered solar cell devices have a high efficiency and a customizable appearance.
US10348238B2
When the temperature detected by the temperature sensor is equal to or higher than a predetermined temperature, the drive system controls the boost converter and the inverter, such that the motor is driven in a range of an electric power on which a limit is imposed to decrease a discharge power upper limit value. When a failure occurs in the boost converter, the drive system stops the boost converter. When it is subsequently determined that the failure of the boost converter causes a failure of the temperature sensor, the drive system controls the inverter, such that the motor is driven without a limit imposed on the discharge power upper limit value, irrespective of the temperature detected by the temperature sensor that is equal to or higher than the predetermined temperature.
US10348223B1
A system includes a motor circuit and a calibration test circuit configured to be coupled to the motor circuit to calculate a nominal motor constant representing operation of a motor in a nominal mode, calculate a motor impedance function comprising one or more motor impedance values at one or more motor frequencies, store one or more values of the impedance function in a memory of the motor circuit, and calculate a range of acceptable motor constant values based on the nominal motor constant. The motor circuit may be configured to calculate an operating motor constant value for the motor while operating, wherein the operating motor constant value is based on at least one of the stored values of the impedance function and compare the motor constant value to the range of acceptable motor constant values stored in the memory to detect if a motor stall has occurred.
US10348214B2
A power converter device includes a double-sided electrode module in which an electrical wiring board and a power semiconductor element are molded with a resin material. The power converter device also includes a heat dissipating base disposed on both sides of the double-sided electrode module and directly contacting cooling medium. The power converter device also includes a module fixture which presses the heat dissipating base in a state of contact with the heat dissipating base. The module fixture is configured to support a circuit board.
US10348203B2
A DC-to-DC controller, a DC-to-DC power converter and a control method thereof are provided. The controller is coupled to an upper-bridge switch and a lower-bridge switch and includes a time generation unit providing a time signal, a voltage identification (VID) change determining circuit and a time control circuit. The VID change determining circuit provides a determination signal in response to a VID signal. The time control circuit provides a control signal according to the time signal and the determination signal. When the VID signal changes from high to low, the time control circuit turns off the upper-bridge switch for a first preset time according to the determination signal and the time signal, and during the first preset time, the time control circuit controls the lower-bridge switch to be turned on for a second preset time multiple times, and to be turned off for a third preset time multiple times.
US10348201B2
A voltage regulation circuit can include: a power stage circuit with a single inductor and a plurality of output circuits; each output circuit having an output control switch configured to control a duration of an on time of the output circuit, and an output switch control circuit configured to control the output control switch in accordance with an output voltage sampling signal, a reference current signal that represents an output current of the output circuit, and a clock signal, in order to maintain an output voltage of the output circuit as constant and to decrease interference from load variations of any other of the plurality of output circuits; and where the output control switches are controlled to be on in sequence in each switching period.
US10348199B2
A method and apparatus for controlling a step-down converter, including setting an on-state time (TON) to a default TON; switching, when an output voltage of the step-down converter falls below a reference output voltage, the step-down converter to an on-state for a duration of the TON; and switching, at the end of the TON, the step-down converter to an off-state for a minimum off-state time (TOFF).
US10348197B2
A DC-DC converter with transient control. The DC-DC converter includes a power switching circuit, a current to voltage converter, a PI circuit 403, a voltage to current converter 404 and a logic and control circuit 405. The DC-DC converter obtains the transient information of a current flowing through the power switching circuit, to slow down the variation of the output voltage, so as to eliminate the overshot issue.
US10348191B2
An apparatus comprises a charge pump packaged with a load that receives charge provided by the charge pump, the charge pump comprising a plurality of switches that, when connected to a plurality of capacitors, cause the plurality of capacitors to assume a selected configuration, wherein the switches are configured to cause transitions between configurations of the capacitors.
US10348189B2
An oscillation circuit includes: a periodic signal generator which generates a periodic signal whose frequency varies; and a clock generator which generates a clock signal having a frequency commensurate with the frequency of the periodic signal.
US10348181B2
Provided is a power control apparatus for sub-modules in an MMC, which controls stable supply of power to sub-modules in MMC connected to an HVDC system and a STATCOM. The power control apparatus has at least one first resistor connected between P and N buses of MMC; a second resistor connected in series with the first resistor; a switch connected in series with the second resistor; a third resistor connected in parallel with the second resistor and the switch which are connected in series; a Zener diode connected in parallel with the third resistor; and a DC/DC converter connected between both ends of the Zener diode and configured to convert voltage across both ends of the Zener diode into low voltage, and supply the low voltage to the sub-modules, wherein a magnitude of current flowing through the Zener diode is controlled depending on ON/OFF switching of the switch.
US10348180B2
Various examples are directed to electrical converters and systems for operating the same. An electrical converter may comprise a first converter module configured to receive a first direct current (DC) input and provide a first output. The first converter module may comprise a first switch modulated according to a first switch control signal. A second converter module may be configured to receive a second DC input and provide a second output. The second converter module may be connected in series with the first converter module. The second converter module may comprise a second switch modulated according to a second switch control signal. A phase of the first switch control signal may be offset from a phase of the second switch control signal by a first phase offset.
US10348173B2
A rotor has flux barrier groups. The number of flux barrier groups corresponds to the number of poles, and each of the flux barrier groups has a plurality of arc-shaped flux barriers. The plurality of flux barriers of each flux barrier group include arc-shaped portions formed in a polygonal region that is surrounded by a polygon having vertices at the midpoints in the circumferential direction of the flux barrier groups which are located on the outer peripheral edge of the rotor, as viewed in plan in the direction along a rotor shaft of the rotor. The center of the arcs of the arc-shaped portions of each flux barrier group is located at the midpoint in the circumferential direction of that flux barrier group which is located on the outer peripheral edge of the rotor.
US10348158B2
A power tool (1) includes a brushless motor (8) having a stator (9) and a rotor (10). The stator (9) includes: a tubular stator core (60); front and rear insulators (61, 62) fixed to the stator core; and coils (64), which are wound around a plurality of teeth (63) on the stator core. The rotor (10) includes: a rotor core (67) disposed within the stator; a rotary shaft (11) fixed to the rotor core; and one or more permanent magnets (68) fixed to the rotor core. A sensor-circuit board (65) detects the position(s) of the permanent magnet(s) and is fixed to the stator. One or more notched parts (91) is/are formed, in an outer circumference of the sensor-circuit board, between circumferentially-adjacent teeth in an axial direction of the stator. The notch part(s) allow(s) air for cooling the brushless motor to pass more easily through the interior of the stator.
US10348152B2
An electric generator may include a housing having a housing casing running around in a circumferential direction and front and rear side walls, a radially outer stator rotatably arranged on the housing about an axis of rotation, and a radially inner rotor arranged on the housing in a rotationally fixed manner. The generator may also have an axially outer impeller wheel arranged on an outer side of the front side wall and arranged in a rotationally fixed fashion on the rotor. The generator may further have a primary air inlet having inlet openings formed in the rear side wall, a secondary air inlet having secondary inlet openings formed in the housing casing, an air outlet having a plurality of outlet openings formed in the front side wall, a primary air path from the primary air inlet to the air outlet, and a secondary air path from the secondary air inlet to the air outlet. During operation, the impeller wheel may rotate with the rotor and generate a partial vacuum that generates a primary air flow, which enters the primary air inlet, follows the primary air path, and exits through the air outlet, and a secondary air flow, which enters through the secondary air inlet, follows the secondary air path, and exits through the air outlet.
US10348151B2
A motor includes a rotary assembly, a stationary assembly, and a bearing mechanism. The rotary assembly includes a resin portion that covers magnets and a rotor core. The rotor core includes a ring-shaped inner core portion, an outer core portion, and connecting portions that radially connect the core elements and the inner core portion. The resin portion includes an upper resin portion and a lower resin portion. The upper resin portion includes gate holes. The lower resin portion is located at a more radially inner side than the outer core elements, and includes a first core support mark exposing a portion of the bottom surface of the rotor core, and a second core support mark located in the outer core portion and exposing a portion of the bottom surface of the rotor core.
US10348138B2
The invention is directed to a novel probes arrangement configured to be attached to a receiving unit of a device under charge positioned onto or within a conductive charging structure having a transmitting unit for transmitting RF energy, wherein said probes arrangement comprises at least two probes configured to create a closed electromagnetic field lines between them so as to allow improved coupling between said transmitting unit and said receiving unit regardless of the position and/or the orientation of the device under charge relative to the conductive charging structure. The improved coupling between the receiving unit attached to the probes arrangement and the transmitting unit of the conductive charging structure allows a high RF transfer efficiency between said units.
US10348127B2
A three-phase UPS control method and apparatus, and a three-phase uninterruptible power supply resolve a problem that after a zero wire is lost, when a current control method is applied to a three-phase UPS using a three-level topology, a 0-axis direct-current modulated wave results in that positive and negative buses are unbalanced. The method includes: determining that a zero wire of a three-phase uninterruptible power supply is lost; using an alternating current whose frequency is a harmonic frequency of mains as a 0-axis reference current; and generating a 0-axis modulated wave according to a difference between the 0-axis reference current and a 0-axis sampling current, to control a rectifier in the three-phase uninterruptible power supply to convert a received alternating current to a direct current.
US10348119B2
An adapter for charging control includes a power converting unit, a voltage feedback unit, a current feedback unit, and a power adjusting unit. The power adjusting unit includes an input end coupled to an output end of the voltage feedback unit to an output end of the current feedback unit, and an output end coupled to the power converting unit. The power adjusting unit is used to receive the voltage feedback signal and the current feedback signal, and stabilize the output voltage and output current of the second adapter when the voltage feedback signal indicates that the output voltage of the second adapter has reached the target voltage, or the current feedback signal indicates the output current of the second adapter has reached the target current.
US10348109B2
A multi-device charger with an integrated privacy station. The mobile device charger contains a plurality of power options for charging a mobile device. The privacy station of the mobile device charger provides a privacy cover, or shield for concealing a screen of the mobile device from view while the mobile device is charging in the apparatus.
US10348107B2
The present disclosure discloses a battery device including a battery, a charging and discharging switch unit configured to control charging and discharging of the battery, a pre-charging unit configured to be charged during discharging of the battery, and a discharging unit configured to discharge the charge charged in the pre-charging unit.
US10348102B2
An energy module includes a capacitance-based power source structure, charging circuitry, a DC-to-DC conversion system, and an energy control module. The capacitance-based power source structure is operable to supply a voltage when the energy module is in a voltage supply mode, wherein, when substantially fully charged, the voltage is at least 48 volts and to receive a charge when the energy module is in a charge mode. The charging circuitry is operable to provide a regulated charge voltage to the capacitance-based power source structure when the energy module is in the charge mode. The DC-to-DC conversion system is operable to convert the voltage into one or more regulated supply voltages when the energy module is in the voltage supply mode. The energy control module is operable to determine the voltage supply mode and the charge mode.
US10348077B2
A system for sealing one end of an existing conduit through which a number of cables extend and in which a number of elements are placed for holding each of the number of cables in a position in the conduit, the system comprising: a sealant for applying a first layer of sealant at an end of the existing conduit against the number of elements so that the first layer of sealant completely covers that end of the conduit as far as not occupied by any of the number of cables; a number of flexible elements which each have a first end for positioning that first end into the first layer of sealant when the first layer is still uncured, each of the number of flexible elements further having a second end at such a distance from the respective first end when the first ends are positioned in the first layer of sealant, that the second ends form together a structure against which a second layer of the sealant can be applied, a single-part or multiple part subsystem for constructing a rigid second conduit around the flexible elements from their respective first end up to and including their respective second end when these first ends are positioned in the first layer of sealant, so that the number of cables also extend through the second conduit and a first end of the second conduit is sealed off by the first layer of sealant and a second end of the second conduit can be sealed off by applying a second layer of sealant against the structure formed by the second ends of the number of flexible elements.
US10348062B2
A lightning protection device includes a carrier module and a transmission module. The carrier module includes a housing unit defining an accommodating space and having a plurality of spaced-apart first vents and a plurality of spaced-apart fixing portions. An ion generating unit is disposed in the accommodating space for generating positive and negative ions. The transmission module includes a plurality of transmission units each including a transmission lever that has a lower end, an upper end, and a guide groove extending from the lower end to the upper end for guiding and diffusing the positive and negative ions generated by the ion generating unit to move toward the direction of the upper end, and a sensing probe connected to the upper end.
US10348060B2
When one of a center chip and a ground chip of a spark plug is defined as a first chip and another one is defined as a second chip, a discharge starting ridge line, which is a straight ridge line that forms a boundary between two surfaces having different normal line directions, is formed in a portion closest to the second chip in the first chips, and a distance from the discharge starting ridge line to the second chip is configured to be equal at a portion where the first chip and the second chip are opposed to each other.
US10348053B2
A tunable laser has a solid state laser medium having an optical gain region and generates coherent radiation through a facet. A lens collects the coherent radiation and generates a collimated light beam. Components of an external cavity include a reflective surface and an optical filter, the reflective surface reflecting the collimated beam back to the lens and the laser medium, the optical filter positioned between the reflective surface and the lens and having two surfaces with a thermally tunable optical transmission band within the optical gain region of the laser medium. The optical filter (1) transmits a predominant portion of the collimated beam at a desired wavelength of operation, and (2) specularly reflects a remaining portion of the collimated beam from each surface, the collimated beam being incident on the optical filter such that the reflected collimated beams propagate at a non-zero angle with respect to the incident collimated beam.
US10348044B2
The invention relates to an outer conductor arrangement (4) for a coaxial connector (2). According to the invention, the outer conductor arrangement is of two-part design, comprising a contact component (6) for electrical and mechanical connection to an outer conductor of a mating connector and comprising a connection component (8, 8a, 8b) for electrical and mechanical connection to an outer conductor of a coaxial cable, wherein the contact component (6) and the connection component (8, 8a, 8b) are electrically and mechanically connected to one another at a contact section (12).
US10348042B2
Coaxial connecting devices used for transmitting high frequency electrical signals having two connector elements of generally cylindrical profile, and wherein each of the connector elements has an inner conductor, an insulator, and an outer conductor. In one of the two connector elements that may be of a male or a female orientation has two canted coil spring contacts where at least one of a first spring contact can be retained within at least one first spring groove within a second inner conductor and at least one of a second spring contact is retained within at least one second spring groove within a second outer conductor. The at least one second spring contact can be used as a simultaneous EMI shielding contact and latching, locking, or both latching and locking device.
US10348040B2
A modular electrical connector with separately shielded signal conductor pairs. The connector may be assembled from modules, each containing a pair of signal conductors with surrounding partially or fully conductive material. Modules of different sizes may be assembled into wafers, which are then assembled into a connector. Wafers may include lossy material. In some embodiments, shielding members of two mating connectors may each have compliant members along their distal portions, such that, the shielding members engage at points of contact at multiple locations, some of which are adjacent the mating edge of each of the mating shielding members.
US10348037B2
An electrical connector (1) including a male contact (5) and a female contact (10) movable between a non-inserted position, and an inserted position, wherein an electrically conductive insertable portion (12) of the male contact (5) is inserted along an insertion axis (D) into a housing (14) defined by the female contact, the female contact including: an electrically conductive body (22), a plurality of strips (26) protruding axially from the body and angularly distributed around the insertable portion in the inserted position, the strips being electrically conductive and radially flexible, the body and the strips defining the housing, and at least one annular contention member (28) positioned on radially external faces (30) of the strips and adapted for exerting a centripetal radial pressure on the strips in the inserted position, the strips having radially internal faces (42) flattened against the insertable portion in the inserted position.
US10348034B1
An electrical connector assembly includes a first connector and a second connector inserted to a front of the first connector. The second connector has a casing. A latch portion is protrudingly provided above the casing. The first connector includes a shell. A locking arm is pivoted to the shell by a pivoting portion, and is provided with a buckling portion for buckling the latch portion. The locking arm includes at least one first position limiting portion and a second position limiting portion in front of the buckling portion. In a separation process of the first and second connectors, the locking arm is actuated, the buckling portion is detached from the latch portion and moves backward, and the latch portion firstly stops the first position limiting portion. After the latch portion is detached from the first position limiting portion, the latch portion stops the second position limiting portion from moving backward.
US10348031B2
A cable fitting transfer unit includes a holding arbor configured to accommodate cable fittings thereon; a conveyor configured to transport cable fittings to the holding arbor; a cable fitting fitter configured to receive cable fittings from the holding arbor; and, a force transducer operatively connected to measure accommodation force in the holding arbor during the accommodation of cable fittings, the force transducer being situated at the holding arbor.
US10348030B1
A socket connector includes an insulating housing, at least one docking element, a plurality of docking terminals, a fastening board and an outer cover assembly. A middle of the insulating housing has at least one holding groove. The at least one docking element is assembled in the at least one holding groove. The at least one docking element defines a plurality of docking grooves. The plurality of the docking terminals are fastened in the plurality of the docking grooves, separately. The fastening board has a first opening. The insulating housing is fastened to a rear surface of the fastening board. The outer cover assembly is assembled in the first opening. The outer cover assembly includes a frame and a waterproof element. The waterproof element has a sleeving ring, a covering portion, and a connecting element connected between the sleeving ring and the covering portion.
US10348028B2
An electrical connector includes an insulating main housing including a main body portion that has a holding hole open rearward and a plate-shaped fitting portion that protrudes forward from the main body portion and fits to a mating connector; a shield member that covers the main housing; an insulating sub housing that is arranged in the holding hole; and a plurality of conductive terminals that include connection portions arranged on the fitting portion and terminal portions protruding from the holding hole, and are held by the sub housing. The sub housing includes a first sub housing that is inserted into the holding hole from behind in a state of holding a part of the plurality of terminals, and a second sub housing that is inserted into the holding hole from behind in a state of holding the terminals other than the part of the plurality of terminals.
US10348014B2
A connector has a plurality of terminals aligned in a left/right direction, and a housing that configures a space in which a flat cable can be inserted from a front side to a rear side and holds the terminals on an inside of the space. The housing has two locking convex portions positioned on the inside of the space and in the left/right direction of the terminals, protruding toward an upper side from a lower side, and that catch in notches or holes formed in the left and right sides of the cable. Finally, the housing has a biasing member that is positioned on the inside of the space, formed on an upper side of the space, arranged closer to a center in the left/right direction than the two locking convex portions, and that biases the cable inserted in the space toward a lower side of the space.
US10348003B2
A method for assembling an angled plug connector with a plug connector housing, which has a through channel preferably angled at a right angle in order to receive conductor components extending at an angle relative to one another, wherein a first conductor component introduced from one side (X) into the through channel in the interior of the through channel is connected by non-positive and/or by positive engagement to a second conductor component introduced from the other side (Y) into the through channel. Additionally, an assembly unit for carrying out the method is presented.
US10347998B2
Provided is a crimp terminal including an electric wire connector connectable to an electric wire. The electric wire connector includes a body, a plurality of first crimping pieces extending from a first end of the body, and at least one second crimping piece extending from a second end thereof. The first and second crimping pieces are alternately arranged while being displaced from each other. When the crimping pieces are crimped to connect a core wire of the electric wire, a clearance between one first crimping piece and the second crimping piece formed at a position closest to an insulating member of the electric wire is larger than a clearance between a remaining first crimping piece and the second crimping piece formed at another position. Also provided are an electric wire with the crimp terminal, and a medical device sensor including the electric wire with the crimp terminal.
US10347997B2
A terminal-equipped electrical wire according to a first aspect of the present invention includes an electrical wire having a conductor and an electrical-wire coating member covering the conductor, and a crimp terminal having a crimp-terminal main body electrically connected to the conductor of the electrical wire, and an anticorrosive plating layer provided to a portion of a surface of the crimp-terminal main body, the portion being in contact with at least the conductor of the electrical wire. The conductor is made of aluminum or an aluminum alloy, and the anticorrosive plating layer is made of a Ni—Zn alloy having a Zn content of 69 to 78% by mass.
US10347993B2
An antenna module installation system comprising a baseplate and a carrier chassis. The baseplate is configured to couple to an antenna dish assembly, and comprises an antenna module mounting apparatus including an alignment portion and a retention portion. The carrier chassis is configured to retain an antenna module, such as antenna hub amplifier, and comprises an engaging apparatus. The carrier chassis is configured to allow multiple manufacturers versions of a component to be used through adapter components. The engaging apparatus is configured to engage with the alignment portion, which positions the carrier chassis in a mounting alignment, and to move from the alignment portion to the retention portion which retains the carrier chassis in engagement with the baseplate. The engaging apparatus is designed to allow that direct connections to the component in the carrier chassis are disconnected prior to its removal.
US10347991B2
A planar multi-layer assembly method fabricates a dual frequency, dual polarization phased-array antenna. A plurality of vias make up an array of double-walled wells which are connected to a ground plane. A shorted annular ring patch antenna (SARPA) is deposited at the top of each double-walled well. Fabricated coaxially and parallel to each SARPA, is an array of circular patch antennas (CPA). The inner wall of each double-walled well improves isolation of the CPA signals from the SARPA signals. Each SARPA of the array is connected to a pair of first frequency band signal vias and the CPA is coupled to a pair of second frequency band signal vias. Within each frequency band, a plurality of signal phases enable steerable polarized antenna beams.
US10347989B2
In a thin rotationally polarized antenna which performs highly reliable and highly secure wireless communication, in the case where a feeding point is provided in an integrated plate conductor including a plurality of minute conductor segments and is excited at a first frequency and a second frequency different from the first frequency, matching with a feeding circuit is achieved in both a frequency band including the first frequency and a frequency band including the second frequency. Current distribution formed in orthogonal directions on the plate at the first frequency has the same amplitude and has a phase difference of 90 degrees. Current distribution formed in the same orthogonal directions on the plate at the second frequency has the same amplitude and has a phase difference of 90 degrees, and a phase of the current distribution at the first frequency and a phase of the current distribution at the second frequency have opposite directions.
US10347986B2
Reconfigurable RF front-end circuit for a multi-beam array fed reflector antenna system having a first plurality of NB input beam signals and a second plurality of NE radiating elements (RE), and method of operating such a front-end circuit.The front-end circuit comprises a reconfigurable beam forming network (LLRBFN), having a set of NB input ports and distributing each input port signal to a plurality of NA output ports with phase and amplitude control, a plurality of NA high power amplifiers (HPA) connected to the plurality of NA output ports of the reconfigurable beam forming network (LLRBFN) and an output network (ONET, OSN), arranged for recombining signals output by the high power amplifiers (HPA) and feeding the recombined signals to the second plurality of NE radiating elements (RE). The high power amplifiers (HPA) are variable bias high power amplifiers (VB-HPA).
US10347984B2
Antenna system comprising at least two radiating elements, a first line for neutralizing electromagnetic coupling between the at least two radiating elements, at least one radiofrequency power supply line for each radiating element and at least one short-circuiting line to a ground plane of the antenna system per radiating element, characterized in that the antenna system further comprises: at least one second line for neutralizing electromagnetic coupling between said at least two radiating elements; elements for activating at least some of the neutralization lines; and in that the activation elements are configured to selectively activate or deactivate at least some of the neutralization lines, in such a way that depending on the activation/deactivation thereof the neutralization lines provide a maximum neutralization of the electromagnetic coupling of the radiating elements for a plurality of different frequencies.
US10347981B1
A sensor having a separate antenna includes a shell, a circuit board, a nameplate, an antenna, and a connecting unit. The shell includes a substrate and a tubular wall. The tubular wall is mounted on a first surface of the substrate to form a containing space. The circuit board is mounted in the containing space. The nameplate is mounted on a second surface of the substrate which is opposite the first surface. The antenna is mounted on the nameplate and is separate from the circuit board. The connecting unit is electrically connected between the antenna and the circuit board, and is mounted through the substrate. The antenna may be mounted outside of the containing space. When the sensor is mounted on a ceiling, the ceiling may not block wireless signals, and quality of wireless communication of the antenna may be improved.
US10347980B2
An antenna device is provided. The antenna device includes an antenna part, a motor and a case. The antenna part has a transmission antenna configured to transmit a radio wave and a reception antenna disposed on one of an upper side and a lower side of the transmission antenna and configured to receive a radio wave. The motor rotates the antenna part. The case covers the antenna part. The case has a side wall. The side wall has two inclined portions inclined at different inclination angles with respect to a rotational axis of the antenna part. A boundary between the two inclined portions is located higher than half of a height of the case.
US10347977B1
Antenna structures and methods of operating the same of an electronic device are described. One apparatus includes a circuit board and an antenna having a ground element disposed on the circuit board. A ground-extension bracket is coupled to the ground element and oriented orthogonally to the circuit board. The antenna further includes a radiating element disposed on the circuit board and oriented linearly with respect to the ground-extension bracket. The antenna, in response to a radio frequency (RF) signal, is configured to radiate electromagnetic energy in a radiation pattern at an angle of polarization with respect to a plane of the circuit board, where the angle of polarization is acute and angled towards the ground-extension bracket.
US10347976B2
Three-dimensional antennas incorporate a stack of planar wiring boards, with conductive metallization on each board and electrical connectivity between conductive regions on adjacent boards. In one example of the disclosed technology, a three-dimensional antenna is formed from a stack of planar wiring boards, where each includes one or more disjoint metallizations in electrical contact with at least one disjoint metallization on an adjacent one of the planar wiring boards. Associated methods and variants are also disclosed.
US10347973B2
One example discloses a near-field electromagnetic induction (NFEMI) antenna, having: a core; an electric antenna including an electrically conductive surface; a magnetic antenna including a first coil coupled to a second coil; a first feeding connection coupled to one end of the first coil; a second feeding connection coupled to another end of the first coil and coupled to one end of the second coil; wherein the first and second feeding connections are configured to be coupled to an electrical apparatus; wherein another end of the second coil is coupled to the electrically conductive surface; a magnetic permeable material between a first side of the magnetic antenna and the core; and wherein the first coil, the second coil, the magnetic permeable material, and the electrically conductive surface are wrapped around the core.
US10347963B2
A system for vehicle communications is provided. The system may include a processor, a first wireless coupler, and a housing. The processor generates and receives communication messages external to the vehicle. The first wireless coupler being in communication with the processor to transmit the communication messages through a windshield. The housing surrounding and enclosing the processor and the first wireless coupler. The first wireless coupler being aligned with and communicating through the windshield with a second wireless coupler to transmit the communication messages through an integrated or externally connected antenna.
US10347962B1
A foldable antenna can comprise a bottom encapsulation layer, a plurality of origami substrates disposed on the bottom encapsulation layer, a top encapsulation layer disposed on the plurality of origami substrate, and a conductive trace disposed on the top encapsulation layer. The plurality of origami substrates can be spaced apart from each other. The bottom encapsulation layer and the top encapsulation layer can comprise a fabric, and each of the plurality of origami substrates can comprise at least one of foam, plastic, carton, FR4, laminate, and wood.
US10347958B2
A coaxial filter having a frame construction comprises at least one filter frame, which consists of an electrically conductive medium and comprises a receiving space. A cover arrangement closes the receiving space on all sides. At least one first resonator internal conductor is arranged in the receiving space. The at least one first resonator internal conductor is galvanically connected to a face of the at least one electrically conductive filter frame, and extends therefrom in the direction of another, in particular opposing face of the electrically conductive filter frame, and ends at a distance from the opposing face of the electrically conductive filter frame and/or is galvanically separated from the opposing face of the electrically conductive filter frame.
US10347942B2
An electrolyte for a lithium-ion battery which includes lithium hexafluorophosphate and lithium 2-pentafluoroethoxy-1,1,2,2-tetrafluoroethanesulfonate. A lithium-ion battery which includes an electrolyte containing lithium hexafluorophosphate and lithium 2-pentafluoroethoxy-1,1,2,2-tetrafluoroethanesulfonate. A motor vehicle which uses a lithium-ion battery having electrolytes containing lithium hexafluorophosphate and lithium 2-pentafluoroethoxy-1,1,2,2-tetrafluoroethanesulfonate. The electrolyte can increase the service life of the lithium-ion battery.
US10347941B2
A lithium metal battery includes a lithium metal negative electrode; a positive electrode; and an electrolyte between the lithium metal negative electrode and the positive electrode, wherein the electrolyte includes a nonaqueous organic solvent, a lithium salt, and an inorganic additive, wherein the inorganic additive includes an inorganic oxide, and wherein the inorganic oxide includes at least one selected from a hydroxyl group and a C1-C10 alkyl group attached to a surface of the inorganic oxide.
US10347938B2
An electrolyte composite including a first block copolymer and a lithium ion conductor, wherein the first block copolymer includes i) a structural domain and ii) at least one of a rubbery domain and an ion conductive domain, wherein the structural domain includes a polymer segment including a structural repeating unit, wherein the rubbery domain includes a polymer segment including a rubbery repeating unit, and wherein the ion conductive domain includes a polymer segment including an ion conductive repeating unit.
US10347929B2
Realized are a high-performance electrochemical element and solid oxide fuel cell in which the contact properties between a dense and highly-gastight electrolyte layer and an electrode layer are improved while the treatment temperature during formation of the electrolyte layer is suppressed to a low temperature, and methods for producing the same. An electrochemical element includes an electrode layer 3, and an electrolyte layer 4 arranged on the electrode layer 3, wherein the electrode layer 3 has a plurality of pores that are open on a face thereof in contact with the electrolyte layer 4, and the pores are filled with fine particles made of the same components as the electrolyte layer 4.
US10347924B2
An integrated fuel cell system includes fuel cells, fuel heat exchangers, air heat exchangers, and tail gas oxidizers. The tail gas oxidizers oxidize a (second) portion of fuel received from the fuel cells with effluent that is output from the fuel cells. Fuel cell stacks are fluidly coupled with the fuel heat exchangers and the tail gas oxidizers such that the fuel that is output from the fuel cells is split into a first portion that is directed back into the fuel heat exchangers and a second portion that is directed into the tail gas oxidizers.
US10347923B2
A fuel cell system is disclosed in which a fuel or oxidant fluid is used as a coolant fluid that functions as a heat sink a fuel cell.
US10347922B2
A separator assembly for a fuel cell having an anode separator, a cathode separator, a cooling surface frame, and a gasket. In particular, the cooling surface frame is integrally bonded between peripheral portions of the anode separator and the cathode separator. Additionally, the gasket encloses the peripheral portions of the anode separator and the cathode separator between which the cooling surface frame is interposed.
US10347909B2
The disclosed embodiments relate to the manufacture of a precursor co-precipitate material for a cathode active material composition. During manufacture of the precursor co-precipitate material, an aqueous solution containing at least one of a manganese sulfate and a cobalt sulfate is formed. Next, a NH4OH solution is added to the aqueous solution to form a particulate solution comprising irregular secondary particles of the precursor co-precipitate material. A constant pH in the range of 10-12 is also maintained in the particulate solution by adding a basic solution to the particulate solution.
US10347900B2
A high-voltage positive electrode material for a lithium battery and a preparation method thereof are provided. The high-voltage positive electrode material for a lithium battery includes a material represented by the following formula (1): LiNi0.5-x-yMn1.5-x-yMg3xCr2yO4 (1) wherein x>0, y>0, and 0<3x+2y≤0.1.
US10347897B2
Disclosed herein is a secondary battery configured to have a structure in which an electrode assembly of a cathode/separator/anode structure is mounted in a battery case in a state in which the electrode assembly is impregnated with an electrolyte, wherein electrode tabs are attached to active material uncoated portions of electrode plates of the electrode assembly and an anode tab, which is one of the electrode tabs and one end of which is attached to a battery case, is made of a Cu—Ni alloy.
US10347894B2
An energy storage system includes a module housing and multiple battery cells positioned inside the module housing. Each of the battery cells has a first end and a second end. Further, each of the battery cells has a positive terminal and a negative terminal. The energy storage system includes a first interconnect and a second interconnect positioned over the battery cells. Multiple first cell connectors connect the positive terminals of the battery cells to the first interconnect. Multiple second cell connectors connect the negative terminals of the battery cells to the second interconnect. A top plate having an interior side and an exterior side is positioned over the first interconnect and the second interconnect. The top plate includes one or more weak areas positioned above one or more battery cell.
US10347892B2
Provided is a separator for a non-aqueous secondary battery, including: a porous substrate, and a heat resistant porous layer that is provided on one side or both sides of the porous substrate, that is an aggregate of resin particles and an inorganic filler, and that satisfies the following expression (1). In expression (1), Vf is a volume proportion (% by volume) of the inorganic filler in the heat resistant porous layer, and CPVC is a critical pigment volume concentration (% by volume) of the inorganic filler. Also provided is a separator for a non-aqueous secondary battery, including: a porous substrate, a heat resistant porous layer that is provided on one side or both sides of the porous substrate, that includes a resin and an filler, and that satisfies the following expression (2), and an adhesive porous layer that is provided on both sides of a stacked body of the porous substrate and the heat resistant porous layer, and that includes an adhesive resin. In expression (2), Vf is a volume proportion (% by volume) of the filler in the heat resistant porous layer, and CPVC is a critical pigment volume concentration (% by volume) of the filler. 0.65≤Vf/CPVC≤0.99 expression (1) 0.40≤Vf/CPVC≤0.99 expression (2)
US10347889B2
The present invention relates to a microporous film and use thereof as separator with greater resistance to puncturing.
US10347887B2
Described herein is a battery module where the battery module footprint is generally defined by the size and number of battery cells. This is implemented by first optimizing the battery cell structure and stacking orientation for a given battery module footprint. A predetermined number of battery cells are then removed and replaced with components needed to implement a variety of auxiliary functions. For example, the components can be electrical connectors, cooling channels, heating channels and mounting channels for placement of mounting pins. In an implementation, the positions of the removed battery cells can also be mounting points. The predetermined number of battery cells can be a function of the amount of electrical energy needed to be stored by the battery module. The positions of the removed battery cells can be anywhere in the battery module, including the edge or interior positions.
US10347878B2
A battery terminal cover (10) for accommodating a battery terminal (30) to be connected to a battery post (42) includes a main body (11) with a first accommodation space (18) for accommodating the battery terminal (30) and an opening (19) for opening the first accommodation space (18) to outside. A lid (21) is displaceable between a closing position for closing the opening (19) and an opening position for opening the opening (19). Hinges (25) project from outer surfaces of the main body (11) and the lid (21) and couple the main body (11) and the lid (21). Projections (26) project from the outer surface of the main body (11) near the hinges (25) and have a projecting dimension equal to or larger than that of the hinges (25).
US10347874B2
A battery pack includes: a battery having a main surface; and a resin layer capable of being integrated with an armor member armoring the battery so that at least a part of the main surface of the battery is exposed and covering the main surface of the battery, wherein the resin layer is formed by curing a reaction curable resin having a viscosity of not less than 80 mPa·second to less than 1000 mPa·second and a thickness of the resin layer on the main surface of the battery ranges from 0.05 mm to smaller than 0.4 mm.
US10347873B2
An arrangement includes a housing and multiple galvanic elements stacked in the housing, the galvanic elements having a layer sequence which includes a current collector associated with the anode, an anode, a separator, a cathode, and a current collector associated with the cathode. In each case a seal covers the edge of the layer sequence of a galvanic element in order to electrically insulate and seal same in a gas-tight manner, and the outer surface of the current collector associated with the anode and the outer surface of the current collector associated with the cathode remain at least partly free, so that the current collector, associated with the cathode, of a galvanic element electrically contacts the current collector, associated with the anode, of a galvanic element adjacently situated in the housing.
US10347866B1
An organic light-emitting display apparatus includes a substrate including a display area, and a non-display area adjacent to the display area. A power source line is positioned in the non-display area. A display unit is arranged on the substrate. The display unit includes a thin film transistor. A display device is connected to the thin film transistor. A thin film encapsulation layer substantially covers the display area. The thin film encapsulation layer includes at least one organic layer and at least one inorganic layer. At least one insulating dam is arranged in the non-display area and surrounds the display area. A crack unit is adjacent to the at least one insulating dam in the non-display area. At least a part of the crack unit is in direct contact with the at least one insulating dam.
US10347860B2
A display device includes a substrate including a display area and a non-display area. The display device further includes a plurality of pixels in the display area of the substrate. The display device additionally includes a plurality of gate lines and a plurality of data lines respectively connected to the plurality of pixels. The display device further includes a plurality of insulative step portions disposed in the non-display area of the substrate and arranged in a first direction parallel to sides of the display area. The display device further includes a crack detection line in the non-display area and extending primarily in the first direction. The crack detection line includes a first portion which does not overlap the plurality of insulative step portions, and a second portion overlapping each of the insulative step portions.
US10347854B2
The disclosure relates to a logic circuit. The logic circuit includes two ambipolar thin film transistors. Each of the two ambipolar thin film transistors includes a substrate; a semiconductor layer located on the substrate and including nano-scaled semiconductor materials; a source and a drain, wherein the source and the drain are located on the substrate, spaced apart from each other, and electrically connected to the semiconductor layer; a dielectric layer located on the substrate and covering the semiconductor layer, wherein the dielectric layer includes a normal dielectric layer and an abnormal dielectric layer stacked on one another, and the abnormal dielectric layer is an oxide dielectric layer grown by magnetron sputtering; and a gate in direct contact with the abnormal dielectric layer. The two ambipolar thin film transistors share the same substrate, the same gate, and the same drain.
US10347852B2
A display device for reducing a stress applied to a display panel in a folded state is provided. The display device includes a display panel and a panel support portion. The display panel includes a bendable area. The panel support portion is combined to the display panel and includes a multi-joint member supporting the bendable area. The multi-joint member includes joint portions that are sequentially arranged, and a sliding member passing through the joint portions and moving inside the panel support portion. The sliding member includes a plate portion for arranging the joint portions, and a hook-shaped portion connected to a side of the plate portion and arranging the joint portions in a circular arc shape.
US10347851B2
The present invention relates to organic light-emitting devices comprising (a) an anode, (i) a cathode, and (e) an emitting layer between the anode and cathode, comprising 2 to 40% by weight of a luminescent organometallic complex X having a difference of the singlet energy (ES1(X)) and the triplet energy (ET1(X)) of smaller than 0.2 eV [Δ (ES1(X))−(ET1(X))<0.2 eV], 0.05 to 5.0% by weight of a fluorescent emitter Y and 55 to 97.95% by weight of a host compound(s), wherein the amount of the organometallic complex X, the fluorescent emitter Y and the host compound(s) adds up to a total of 100% by weight and the singlet energy of the luminescent organometallic complex X (ES1(X)) is greater than the singlet energy of the fluorescent emitter Y (ES1(Y)) [(ES1(X))>ES1(Y)]. By doping, for example, an emitting layer containing a luminescent organometallic complex having a small S1-T1 splitting, with a fluorescent emitter the emission decay time can significantly be shortened without sacrificing external quantum efficiency (EQE) because of very efficient energy transfer.
US10347850B2
An organic electroluminescent element having at least one organic layer including a light emitting layer sandwiched between a positive electrode and a negative electrode, which is characterized in that at least one organic layer contains an organometallic complex represented by General Formula (2).
US10347838B2
The present disclosure provides a manufacturing method for thin film transistors and a display panel, in which a semiconductor channel layer is formed by embossing on a semiconductor solution material directly by using an embossing template having a semiconductor channel layer pattern, thus it does not need to form a photoresist layer on the semiconductor solution material to form a semiconductor channel layer, the erosion of the semiconductor channel layer caused by the photoresist can be avoided, thereby the product quality and the device performance are improved.
US10347834B2
Embodiments of the present disclosure propose two methods for integrating vacancy centers (VCs) on semiconductor substrates for forming VC-based spin qubit devices. The first method is based on using a self-assembly process for integrating VC islands on a semiconductor substrate. The second method is based on using a buffer layer of a III-N semiconductor material over a semiconductor substrate, and then integrating VC islands in an insulating carbon-based material such as diamond that is either grown as a layer on the III-N buffer layer or grown in the openings formed in the III-N buffer layer. Integration of VC islands on semiconductor substrates typically used in semiconductor manufacturing according to any of these methods may provide a substantial improvement with respect to conventional approaches to building VC-based spin qubit devices and may promote wafer-scale integration of VC-based spin qubits for use in quantum computing devices.
US10347822B1
A method of forming a cylindrical vertical transistor; the method, according to one embodiment, includes: forming a cylindrical pillar from a single block of silicon, forming an oxide layer over an exterior of the cylindrical pillar and exposed surfaces of the block of silicon, coating the oxide layer with a spin-on-glass (SOG), depositing a source mask over a majority of the SOG coating, and removing a portion of the SOG coating and underlying oxide layer, where the portion removed is defined by the source mask. Other systems and methods are also described in additional embodiments herein which provide various different improved processes of forming the cylindrical gate contacts, the source contacts, and/or the drain contacts for vertical transistor structures which also include the aforementioned cylindrical pillar channel structures and cylindrical gate in comparison to conventional surface transistor structures.
US10347821B2
A method includes patterning a photo resist layer on top of a semiconductor device. The semiconductor device includes a lower portion, a capping layer formed on top of the lower portion, and an optional oxide layer formed on top of the capping layer. The lower portion includes a dielectric material and an interconnect. The method also includes etching portions of the semiconductor device based on the photo resist layer to expose the interconnect. The method further includes depositing a bottom electrode of a resistive memory device on the interconnect. The bottom electrode is comprised of cobalt tungsten phosphorus (CoWP).
US10347814B2
According to various embodiments, a MEMS device includes a substrate, an electrically movable heating element having a first node coupled to a first terminal of a first voltage source and the second node coupled to a reference voltage source, a first anchor anchoring the first node and a second anchor anchoring the second node of the electrically movable heating element to the substrate, and a cavity between the first anchor and the second anchor and between the electrically movable heating element and the substrate.
US10347807B2
Standardized photon building blocks are used to make both discrete light emitters as well as array products. Each photon building block has one or more LED chips mounted on a substrate. No electrical conductors pass between the top and bottom surfaces of the substrate. The photon building blocks are supported by an interconnect structure that is attached to a heat sink. Landing pads on the top surface of the substrate of each photon building block are attached to contact pads disposed on the underside of a lip of the interconnect structure. In a solder reflow process, the photon building blocks self-align within the interconnect structure. Conductors on the interconnect structure are electrically coupled to the LED dice in the photon building blocks through the contact pads and landing pads. The bottom surface of the interconnect structure is coplanar with the bottom surfaces of the substrates of the photon building blocks.
US10347805B2
In various embodiments, a layer of organic encapsulant is provided over a surface of an ultraviolet (UV) light-emitting semiconductor die, and at least a portion of the encapsulant is exposed to UV light to convert at least some of said portion of the encapsulant into non-stoichiometric silica material. The non-stoichiometric silica material includes silicon, oxygen, and carbon, and a carbon content of the non-stoichiometric silica material is greater than 1 ppm and less than 40 atomic percent.
US10347803B2
A light emitting device package may include a package body, a light emitting device on the package body, a first molding member that surrounds the light emitting device, and a second molding member having a hemi-spherical structure to surround the first molding member. The molding member includes a viscous material.
US10347798B2
A photoluminescence sheet comprises a polymer sheet having particles of at least one photoluminescence material homogeneously distributed throughout its volume. The polymer sheet comprises a UV-curable polymer that is partially cured and which is thermally re-flowable before being fully cured by exposure to UV light.
US10347796B2
A light-emitting element mounting substrate is provided. The light-emitting element mounting substrate includes an insulating base plate comprising a first surface, a second surface facing the first surface, and a plurality of pad regions disposed on the first surface in an m-by-n matrix form, each of m and n being a natural number; a first conductive pad that is disposed in one of the plurality of pad regions and is in contact with the insulating base plate; a second conductive pad that is disposed in another one of the plurality of pad regions apart from the first conductive pad and is in contact with the insulating base plate; a first through hole disposed at a position corresponding to the first conductive pad to penetrate the insulating base plate; a second through hole that is disposed at a position corresponding to the second conductive pad to penetrate the insulating base plate and is spaced apart from the first through hole; a first through conduit filling the first through hole and being in contact with the first conductive pad; and a second through conduit filling the second through hole and being in contact with the second conductive pad.
US10347795B2
A light emitting diode package structure including a base, a light emitting diode and an encapsulant is provided. The light emitting diode is disposed on a surface of the base and is adapted to generate and emit a light. The encapsulant is disposed on the base and encapsulates the light emitting diode. The encapsulant has a surface parallel to the surface of the base and a plurality of surfaces perpendicular to the surface of the base. The light, after passing through the surface of the encapsulant parallel to the surface of the base, has a first light intensity. The light, after passing through the surfaces of the encapsulant perpendicular to the surface of the base, has a second light intensity. The first light intensity is greater than the second light intensity. In addition, a manufacturing method of a light emitting diode package structure is also provided.
US10347791B2
A composition of matter comprising: a graphitic substrate optionally carried on a support; a seed layer having a thickness of no more than 50 nm deposited directly on top of said substrate, opposite any support; and an oxide or nitride masking layer directly on top of said seed layer; wherein a plurality of holes are present through said seed layer and through said masking layer to said graphitic substrate; and wherein a plurality of nanowires or nanopyramids are grown from said substrate in said holes, said nanowires or nanopyramids comprising at least one semiconducting group III-V compound.
US10347782B2
A silicon wafer-based photovoltaic module is described, which includes a first outer protective layer and a second outer protective layer, wherein both outer protective layers comprise a low- or no-sodium glass or low- or no-alkali compositions. The photovoltaic modules show resistance to water ingress, no or reduced potential-induced sodium ion drift, and reduced potential induced degradation.
US10347777B2
A method is provided that integrates an autonomous energy harvesting capacity in vehicles in an aesthetically neutral manner. A unique set of structural features combine to implement a hidden energy harvesting system on a surface of the vehicle to provide electrical power to the vehicle, and/or to electrically-powered devices in the vehicle. Color-matched, image-matched and/or texture-matched optical layers are formed over energy harvesting components, including photovoltaic energy collecting components. Optical layers are tuned to scatter selectable wavelengths of electromagnetic energy back in an incident direction while allowing remaining wavelengths of electromagnetic energy to pass through the layers to the energy collecting components below. The layers uniquely implement optical light scattering techniques to make the layers appear opaque when observed from a light incident side, while allowing at least 50%, and as much as 80+%, of the energy impinging on the energy or incident side to pass through the layer.
US10347771B2
One embodiment is a method for manufacturing a stacked oxide material, including the steps of forming an oxide component over a base component; forming a first oxide crystal component which grows from a surface toward an inside of the oxide component by heat treatment, and leaving an amorphous component just above a surface of the base component; and stacking a second oxide crystal component over the first oxide crystal component. In particular, the first oxide crystal component and the second oxide crystal component have common c-axes. Same-axis (axial) growth in the case of homo-crystal growth or hetero-crystal growth is caused.
US10347761B2
A tunnel field effect transistor (TFET) includes: a first gate structure on a substrate; a source region having a first conductive type on one side of the first gate structure; a drain region having a second conductive type on another side of the first gate structure; a first isolation structure adjacent to the source region; and a second isolation structure adjacent to the drain region. Preferably, the first isolation and the second isolation comprise different material and different depths or same material and different depths.
US10347736B2
A method of fabricating an electronic device includes providing a III-V substrate having a hexagonal crystal structure and a normal to a growth surface characterized by a misorientation from the <0001> direction of between 0.15° and 0.65°. The method also includes growing a first III-V epitaxial layer coupled to the III-V substrate and growing a second III-V epitaxial layer coupled to the first III-V epitaxial layer. The method further includes forming a first contact in electrical contact with the III-V substrate and forming a second contact in electrical contact with the second III-V epitaxial layer.
US10347731B2
A field-effect transistor device including an asymmetric spacer assembly allows lower parasitic capacitance on the drain side of the device and lower resistance on the source side. The asymmetric spacer assembly is formed by a self-aligned process, resulting in less gate/junction overlap on the drain side of the device and greater gate/junction overlap on the source side of the device. Asymmetric transistors having small gate lengths can be obtained without overlay/misalignment issues.
US10347730B2
A trench gate structure and a manufacturing method therefor. The trench structure comprises a substrate (10), a trench on the surface of the substrate (10), an insulating spacer (20) on the substrate (10), a gate oxide layer (41) on the inner surface of the trench, and a polysilicon gate (40) on the gate oxide layer (41). The insulating spacer (20) abuts against the trench by means of a slope structure (21) of the insulating spacer; the polysilicon gate (40) extends onto the insulating spacer (20) along the slope structure (21) in the trench; the insulating spacer (20) comprises a polysilicon gate pull-up area (22) that is concave downwards with respect to other parts of the insulating spacer (20); the polysilicon gate (40) extending out of the trench is rested on the polysilicon gate pull-up area (22).
US10347726B2
A semiconductor device includes a source/drain region in a fin-type active pattern, a gate structure adjacent to the source/drain region, and an insulating layer on the source/drain region and the gate structure. A shared contact plug penetrates through the insulating layer and includes a first lower portion connected to the source/drain region, a second lower portion connected to the gate structure, and an upper portion connected to upper surfaces of the first lower portion and the second lower portion. A plug spacer film is between the insulating layer and at least one of the first lower portion and the second lower portion and includes a material different from a material of the insulating layer.
US10347717B2
A method of forming a nanowire heterostructure, including, forming a dummy nanowire on a substrate, forming a sacrificial cover layer on the dummy nanowire, forming a spacer layer on a portion of the sacrificial cover layer, wherein a portion of the sacrificial cover layer extends above the top surface of the spacer layer, removing the portion of the sacrificial cover layer that extends above the top surface of the spacer layer, forming a gate structure on the spacer layer and a remaining portion of the sacrificial cover layer, forming an interlayer dielectric (ILD) layer on the gate structure, removing the dummy nanowire to form a nanowire trench, and forming a replacement nanowire in the nanowire trench.
US10347715B2
A semiconductor device includes a drift layer formed of a first conductive type semiconductor material, a MOSFET part including a p-type base layer provided on a front surface of the drift layer, a first n-type buffer layer provided on a reverse side of the drift layer, and a second n-type buffer layer provided on a reverse side of the first n-type buffer layer and having a high impurity concentration. The first n-type buffer layer has a higher impurity concentration than the drift layer and has a total amount of electrically active impurities per unit area of 1.0×1012 cm−2 or less.
US10347702B2
Provided are a flexible thin film transistor substrate and a flexible organic light emitting display device. The flexible thin film transistor substrate includes: a flexible substrate including at least one thin film transistor (TFT) area and having flexibility, an active layer disposed in the TFT area on the flexible substrate, a gate insulation layer disposed on the active layer, a gate electrode overlapping with the active layer on the gate insulation layer, an insulating interlayer disposed on the gate electrode, and a source electrode and a drain electrode disposed on the insulating interlayer and connected with the active layer, respectively. The gate insulation layer or the insulating interlayer includes at least one hole pattern configured to reduce bending stress.
US10347699B2
Disclosed herein is an organic light emitting diode display, including: an insulating substrate including a display area in which a plurality of pixels are formed and a peripheral area positioned around the display area; a touch signal transfer wiring positioned in the peripheral area on the insulating substrate; an insulating layer formed on the insulating substrate, the insulating layer covering the touch signal transfer wiring and including a protrusion and an opening through which the touch signal transfer wiring is partially exposed; a connection conductor connected to the touch signal transfer wiring through the opening; an encapsulation substrate including a touch area corresponding to the display area and a peripheral area positioned around the touch area; a touch electrode layer positioned under the touch area of the encapsulation substrate; and a touch wiring connected to the touch electrode layer and positioned under the peripheral area of the encapsulation substrate.
US10347685B2
An optical device includes a substrate, a semiconductor chip, a resin member, and a transparent plate. The semiconductor chip is provided on the substrate, and an optically functional layer is formed in a part of a top portion of the semiconductor chip. The resin member is provided on the substrate with a top surface and an inner side surface, and has a frame shape surrounding the optically functional layer. The resin member is integrally formed from a resin material, and includes a recessed portion provided at the intersection of the top surface and the inner side surface. The transparent plate is disposed in the recessed portion. The semiconductor chip, the resin member, and the transparent plate are arranged to define airspace.
US10347684B2
An image sensor includes a substrate including a photoelectric conversion part therein, and a fixed charge layer provided above the substrate. The fixed charge layer includes a first metal oxide and a second metal oxide, which are different from each other. The first metal oxide includes a first metal, and the second metal oxide includes a second metal different from the first metal. Concentration of the first metal in the fixed charge layer progressively increases from an upper portion of the fixed charge layer to a lower portion of the fixed charge layer.
US10347678B2
An image sensor is provided. The image sensor includes a microlens array having a plurality of microlenses; and a sensor array having a plurality of photoelectric elements that are arranged into a plurality of macro pixels. Each macro pixel includes a first photoelectric element, a second photoelectric element, a third photoelectric element, and a fourth photoelectric element that receive incident light via a first microlens, a second microlens, a third microlens, and a fourth lens in the plurality of microlenses. The first microlens, the second microlens, the third microlens, and the fourth microlens in each macro pixel have a first initial offset, a second initial offset, a third initial offset, and a fourth initial offset, respectively. The first microlens and the second microlens in each of the plurality of macro pixels further have a first additional offset and a second additional offset, respectively.
US10347677B2
An integrated image sensor with backside illumination includes a pixel. The pixel is formed by a photodiode within an active semiconductor region having a first face and a second face. A converging lens, lying in front of the first face of the active region, directs received light rays towards a central zone of the active region. At least one diffracting element, having a refractive index different from a refractive index of the active region, is provided at least partly aligned with the central zone at one of the first and second faces.
US10347654B1
Memory openings and backside openings are formed through an alternating stack of insulating layers and sacrificial material layers over a substrate. Memory opening fill structures are formed in the memory openings, and sacrificial backside opening fill structures are formed in the backside openings. Cavities are formed in volumes of the backside openings by removing the sacrificial backside opening fill structures. Remaining portions of the sacrificial material layers are replaced with material portions including electrically conductive layers. Each electrically conductive layer is formed as a continuous material layer including holes around the backside openings. Each electrically conductive layer is singulated into a plurality of electrically conductive strips by isotropically recessing the electrically conductive layers around each backside opening. Width-modulated cavities including expanded volumes of the backside openings are formed, and are filled with width-modulated insulating wall structures.
US10347652B2
A semiconductor memory device includes a substrate, electrode films provided on a first direction side of the substrate and arranged with spacing from each other along the first direction, semiconductor members extending in the first direction, a charge storage member provided between each of the electrode films and each of the semiconductor members, and a control circuit. Memory cells are formed in crossing portions of the electrode films and the semiconductor members. The control circuit classifies the memory cells into a first group and a second group. The control circuit performs writing, reading, and erasing of n-value data (n being an integer of two or more) on the memory cell of the first group. The control circuit performs writing, reading, and erasing of m-value data (m being an integer larger than n) on the memory cell of the second group.
US10347651B2
The present disclosure may provide a semiconductor device having a stable structure and a low manufacturing degree of the difficulty. The device may include conductive layers and insulating layers which are alternately stacked; a plurality of pillars passing through the conductive layers and the insulating layers; and a plurality of deposition inhibiting patterns, each deposition inhibiting pattern being formed along a portion of an interface between a side-wall of each of the pillars and each of the conductive layers and along a portion of an interface between each of the insulating layers and each of the conductive layers.
US10347648B2
A nonvolatile semiconductor storage device having a control gate formed on a semiconductor substrate and including a cylindrical through hole. A block insulating film, a charge storage film, a tunnel insulating film, and a semiconductor layer are formed on a side surface of the control gate inside the through hole. The tunnel insulating film includes a first insulating film having SiO2 as a base material and containing an element that lowers a band gap of the base material by being added. A density and a density gradient of the element monotonously increase from the semiconductor layer toward the charge storage film.
US10347647B1
A memory device contains a stack of insulating layers and electrically conductive word line layers, at least one first drain select gate electrode located over the stack and extending through a first drain select transistor and a second drain select transistor, at least one second drain select gate electrode located between the first drain select electrode and the stack, and extending through a third drain select transistor and a fourth drain select transistor. The first drain select transistor and the third drain select transistor are located in a first NAND memory string. The second drain select transistor and the fourth drain select transistor are located in a second NAND memory string different from the first NAND memory string. The first drain select transistor has a higher threshold voltage than the second drain select transistor. The third drain select transistor has a lower threshold voltage than the fourth drain select transistor.
US10347642B2
A manufacturing method of a semiconductor memory device is provided in the present invention. A cleaning treatment to a storage node contact on a semiconductor substrate is performed, and a metal silicide layer is formed after the cleaning treatment. A gate contact opening penetrating a capping layer of a transistor on the semiconductor substrate is formed after the step of forming the metal silicide layer for exposing a gate structure of the transistor. By the manufacturing method of the semiconductor memory device in the present invention, the gate structure of the transistor may be kept from being influenced and/or damaged by the cleaning treatment of the storage node contact, and the electrical performance of the transistor may be ensured accordingly.
US10347641B2
A semiconductor device includes a substrate including a cell region and peripheral region and bottom electrodes on the substrate. The bottom electrodes are arranged in a first row and a second row each extending in a first direction. The first row and the second row are adjacent to each other in a second direction perpendicular to the first direction. The bottom electrodes in the first row include an outermost bottom electrode and a next outermost bottom electrode that are separated by a first distance in the first direction. The bottom electrodes in the second row include an outermost bottom electrode and a next outermost bottom electrode that are separated by a second distance in the first direction. The outermost bottom electrode in the first row is on the peripheral region of the substrate. The outermost bottom electrode in the second row is on the cell region of the substrate.
US10347637B2
A memory cell is disclosed. The memory cell includes a transistor and a capacitor. The transistor includes a source region, a drain region, and a channel region including an indium gallium zinc oxide (IGZO, which is also known in the art as GIZO) material. The capacitor is in operative communication with the transistor, and the capacitor includes a top capacitor electrode and a bottom capacitor electrode. Also disclosed is a semiconductor device including a dynamic random access memory (DRAM) array of DRAM cells. Also disclosed is a system including a memory array of DRAM cells and methods for forming the disclosed memory cells and arrays of cells.
US10347632B2
The disclosure relates to a structure and methods of forming spacers for trench epitaxial structures. The method includes: forming a spacer material between source and drain regions of respective first-type gate structures and second-type gate structures; growing source and drain material about the first-type gate structures, confined within an area defined by the spacer material; and growing source and drain material about the second-type gate structures, confined within an area defined by the spacer material.
US10347624B2
An electrical device that in some embodiments includes a substrate including a lateral device region and a vertical device region. A lateral diffusion metal oxide semiconductor (LDMOS) device may be present in the lateral device region, wherein a drift region of the LDMOS device has a length that is parallel to an upper surface of the substrate in which the LDMOS device is formed. A vertical field effect transistor (VFET) device may be present in the vertical device region, wherein a vertical channel of the VFET has a length that is perpendicular to said upper surface of the substrate, the VFET including a gate structure that is positioned around the vertical channel.
US10347623B2
A switch includes an input terminal and an output terminal. The switch also includes a first stack having transistors coupled in series, and a second stack having transistors coupled in series. The first stack and the second stack are connected in parallel with one another.
US10347612B2
A package includes a first package including a device die, a molding compound molding the device die therein, a through-via penetrating through the molding compound, and a first plurality of Redistribution Lines (RDLs) and a second plurality of RDLs on opposite sides of the molding compound. The through-via electrically couples one of the first plurality of RDLs to one of the second plurality of RDLs. The package further includes a second package bonded to the first package, a spacer disposed in a gap between the first package and the second package, and a first electrical connector and a second electrical connector on opposite sides of the spacer. The first electrical connector and the second electrically couple the first package to the second package. The spacer is spaced apart from the first electrical connector and the second electrical connector.
US10347605B2
Embodiments of the present invention disclose a computer system having a plurality of quantum circuits arranged in a two-dimensional plane-like structure, the quantum circuits comprising qubits and busses (i.e., qubit-qubit interconnects), and a method of formation therefor. A quantum computer system comprises a plurality of quantum circuits arranged in a two-dimensional pattern. At least one interior quantum circuit, not along the perimeter of the two-dimensional plane of the plurality of quantum circuits, contains a bottom chip, a device layer, a top chip, and a routing layer. A signal wire connects the device layer to the routing layer, wherein the signal wire breaks the two dimensional plane, for example, the signal wire extends into a different plane.
US10347599B2
A method of forming a semiconductor detector including: forming a p-n junction diode in an active device layer of a silicon-on-insulator (SOI) substrate, the active device layer being formed on an insulator layer of the SOI substrate; forming a first opening through the insulator layer to access a backside of a first doped region of the diode, the first doped region underlying a second doped region of the diode; forming a back contact on a back surface of the first doped region and electrically connecting with the first doped region; forming a conductive interconnect layer on an upper surface of the SOI substrate, the interconnect layer including a first top contact providing electrical connection with the second doped region; and forming an electrode in the first opening on the backside of the detector structure, the electrode providing electrical connection with the back contact of the diode.
US10347597B2
A structure for radiofrequency applications includes: a support substrate of high-resistivity silicon comprising a lower part and an upper part having undergone a p-type doping to a depth D; a mesoporous trapping layer of silicon formed in the doped upper part of the support substrate. The depth D is less than 1 micron and the trapping layer has a porosity rate of between 20% and 60%.
US10347595B2
A device includes a first chip having a front side and a back side. A second chip is stacked with the first chip and located on the back side of the first chip. A first loop includes first and second through vias located in the first chip. Each through via has a first end on the front side of the first chip and a second end on the back side of the first chip. The first loop also includes a first track that connects the first ends of the first and second through vias is located in the first chip on the front side thereof and a second track that connects the second ends of the first and second through vias is located in the second chip. A detection circuit can detect an electrical characteristic of the first loop.
US10347590B2
The present disclosure relates to semiconductor components. The teachings thereof may be embodied in a lead frame for a semiconductor component including: a frame having a recess; an electrically conductive connecting element for establishing an electrical connection to the semiconductor component arranged in the recess; and an insulating element arranged in the recess and mechanically connecting the connecting element to the frame and electrically insulating it from the frame.
US10347586B2
A fan-out semiconductor package includes: a frame including insulating layers, wiring layers, and connection via layers, and having a recess portion and a stopper layer disposed on a bottom surface of the recess portion; a semiconductor chip having connection pads and disposed in the recess portion so that an inactive surface is disposed on the stopper layer; an encapsulant covering at least portions of the semiconductor chip and filling at least portions of the recess portion; a connection member disposed on the frame and an active surface of the semiconductor chip and including a redistribution layer electrically connecting the wiring layers and the connection pads to each other; and a guide pattern disposed adjacent to a wall of the recess portion and disposed in the frame. An edge of the bottom surface of the recess portion has a groove portion.
US10347580B2
A semiconductor component having improved thermomechanical durability has in a semiconductor substrate at least one cell comprising a first main electrode zone, a second main electrode zone and a control electrode zone lying in between. For making contact with the main electrode zone, at least one metallization layer composed of copper or a copper alloy is provided which is connected to at least one bonding electrode which likewise comprises copper or a copper alloy.
US10347570B2
An electronic device comprises a carrier, a leadframe, a package body and a plurality of electronic components. The carrier has an open top surface, a closed bottom surface and sidewalls extending between the closed bottom surface and the open top surface. The carrier has a circular cavity in its open top surface extending toward the closed bottom surface. The carrier includes a leadframe including a die pad and a plurality of leads. The leads are physically isolated from the die pad by at least one gap. The package body partially encapsulates the leadframe such that a portion of an upper surface of the die pad and a portion of each of the leads are exposed from the package body. The exposed portions of the leads are arranged radially along the die pad. The electronic components are disposed on the die pad.
US10347569B2
Embodiments of the present disclosure are directed to leadframes having the cantilevered extension that includes an integral support on the end of the lead nearest the die pad. A support integral to the leadframe allows the support to be built to the proper height to support the cantilevered lead in each package and reduces or eliminates the upward, downward, and side to side deflections caused or allowed by supports built-in to the tooling of the manufacturing equipment. Also, by building the support into the leadframe, the leadframes may be pretaped prior to the die attach and wire bonding steps of the manufacturing process.
US10347568B2
An electro-optical device includes a first drive IC and a second drive IC which are respectively mounted on a first flexible wiring substrate and a second flexible wiring substrate in a first mounting substrate and a second mounting substrate (first substrate). A first extension substrate and a second extension substrate (second substrate) which are configured by a flexible wiring substrate are connected to end portions of the first mounting substrate and the second mounting substrate, and a first protective film and a second protective film are attached to both surfaces in connection portions. The first protective film and the second protective film extend to positions covering the first drive IC and the second drive IC.
US10347567B2
In a resin sealing type semiconductor device, a semiconductor chip CP2 is mounted over a die pad DP having conductivity via a bonding member BD2 having insulation property, and a semiconductor chip CP1 is mounted over the die pad DP via a bonding member BD1 having conductivity. A first length of a portion, in a first side formed by an intersection of a first side surface and a second side surface of the semiconductor chip CP2, covered with the bonding member BD2 is larger than a second length of a portion, in a second side formed by an intersection of a third side surface and a fourth side surface of the semiconductor chip CP1, covered with the bonding member BD1.
US10347563B2
A structure includes a die substrate; a passivation layer on the die substrate; first and second interconnect structures on the passivation layer; and a barrier on the passivation layer, at least one of the first or second interconnect structures, or a combination thereof. The first and second interconnect structures comprise first and second via portions through the passivation layer to first and second conductive features of the die substrate, respectively. The first and second interconnect structures further comprise first and second pads, respectively, and first and second transition elements on a surface of the passivation layer between the first and second via portion and the first and second pad, respectively. The barrier is disposed between the first pad and the second pad. The barrier does not fully encircle at least one of the first pad or the second pad.
US10347552B2
A semiconductor device includes first and second semiconductor components mounted on an interposer mounted on a wiring substrate, and electrically connected to each other via the interposer. Also, a plurality of wiring layers of the interposer include first, second and third wiring layers which are stacked in order from a main surface side to be a reference. In addition, in a first region of the interposer sandwiched between the first semiconductor component and the second semiconductor component, a ratio of a reference potential wiring in the third wiring layer is higher than a ratio of a reference potential wiring in the first wiring layer. Further, in the first region, a ratio of a signal wiring in the first wiring layer is higher than a ratio of a signal wiring in the third wiring layer.
US10347549B2
A power semiconductor device module includes a metal baseplate and a plastic housing that together form a tray. Power electronics are disposed in the tray. A plastic cap covers the tray. Electrical press-fit terminals are disposed along the periphery of the tray. Each electrical terminal has a press-fit pin portion that sticks up through a hole in the cap. In addition, the module includes four mechanical corner press-fit anchors disposed outside the tray. One end of each anchor is embedded into the housing. The other end is an upwardly extending press-fit pin portion. The module is manufactured and sold with the press-fit pin portions of the electrical terminals and the mechanical corner anchors unattached to any printed circuit board (PCB). The mechanical anchors help to secure the module to a printed circuit board. Due to the anchors, screws or bolts are not needed to hold the module to the PCB.
US10347548B2
An integrated circuit package structure includes a device die having a plurality of metal pillars, a molding material directly in contact with at least one side surface of the device die, a first dielectric layer disposed on the device die and on the molding material, and a testing pad disposed in the first dielectric layer and directly in contact with an interface between the device die and the molding material. The testing pad is electrical isolated from the metal pillars.
US10347541B1
A method of forming contacts over active gates is provided. Embodiments include forming first and second gate structures over a portion of a fin; forming a first and second RSD in a portion of the fin between the first gate structures and between the first and the second gate structure, respectively; forming TS structures over the first and second RSD; forming a first cap layer over the first and second gate structures or over the TS structures; forming a metal oxide liner over the substrate, trenches formed; filling the trenches with a second cap layer; forming an ILD layer over the substrate; forming a CA through a first portion of the ILD and metal oxide layer down to the TS structures over the second RSD; and forming a CB through a second portion of the ILD and metal oxide layer down to the first gate structures.
US10347534B2
Embodiments are provided herein for separating integrated circuit (IC) device die of a wafer, the wafer having a front side with an active device region and a back side, the active device region having a plurality of active devices arranged in rows and columns and separated by cutting lanes, the method including: attaching the front side of the wafer onto a first dicing tape; forming a modification zone within each cutting lane through the back side of the wafer, wherein each modification zone has a first thickness near a corner of each active device and a second thickness near a center point of each active device, wherein the second thickness is less than the first thickness; and propagating cracks through each cutting lane to separate the plurality of active devices.
US10347533B2
The embodiments of the present disclosure relate to a power package module of multiple power chips and a method of manufacturing a power chip unit. The power package module of multiple power chips includes: a power chip unit including at least two power chips placed in parallel and a bonding part bonding the two power chips; a substrate supporting the power chip unit and including a metal layer electronically connecting with the power chip unit; and a sealing layer isolating the power chip unit on the substrate from surroundings to seal the power chip unit; the bonding part and the sealing layer are made from different insulated material, the distance of a gap between the two power chips placed in parallel is smaller than or equal to a preset width, and the bonding part is filled in the gap, insulatedly bonding the two power chips placed in parallel.
US10347530B2
A method for manufacturing an interconnect structure includes providing a substrate structure including a substrate and a dielectric layer on the substrate, the dielectric layer having an opening extending to the substrate. The method further includes forming a mask layer on at least one portion of the dielectric layer, forming a metal layer filling the opening and covering portions of dielectric layer not covered by the mask layer, removing the mask layer, and planarizing the metal layer so that an upper surface of a remaining portion of the metal layer is flush with an upper surface of the dielectric layer. The method can mitigate the warping problems of the substrate associated with the fabrication of the interconnect structure.
US10347525B2
A method for producing a bonded SOI wafer, by ion implantation delamination to fabricate a bonded SOI wafer having a BOX layer and a SOI layer on a base wafer. After performing flattening heat treatment in an argon gas-containing atmosphere, sacrificial oxidation treatment adjusts the film thickness of the SOI layer, wherein the film thickness of the BOX layer is 500 nm or more. A sacrificial oxide film is formed so the relationship between the film thickness of the SOI layer on the sacrificial oxidation treatment is performed. The film thickness of the sacrificial oxide film formed by the sacrificial oxidation treatment satisfies 0.9d>t>0.45d. A method for producing a bonded SOI wafer can prevent the generation of particles from the outermost peripheral part, which is the form of an overhang by flattening heat treatment, of a SOI layer in the production of a bonded SOI wafer.
US10347522B2
A method and apparatus for discharging a residual charge from a substrate support. In one example, a substrate support is provided that includes a body, an electrode disposed in the body, a radiation emitter and a diffuser. The body has one or more holes formed in a workpiece support surface, the workpiece support surface configured to accept a substrate thereon. The electrode is configured to electrostatically hold a substrate to the workpiece support surface. The radiation emitter is disposed in a first hole of the one or more holes formed in the workpiece support surface. The radiation emitter is configured to emit electromagnetic energy out of the first hole. The diffuser is disposed in first hole over the radiation emitter.
US10347517B2
A diffuser tower assembly having a diffuser with a flared end and a fitting with an offset portion and nipple sized for the flared end. The assembly may be configured for providing low coverage purging. Diffuser tower assemblies may be in the form of a kit for retrofitting existing front opening wafer containers. The inlet fitting may include structure that enhances purge characteristics near the base of the porous media diffuser for enhanced sweeping of the floor of the substrate container. Embodiments of the disclosure generate an uneven flow distribution that provides a non-uniform flow distribution at the opening. In an embodiment, where the opening is in a substantially vertical orientation, the non-uniform flow distribution is tailored to deliver a greater flow rate to the bottom half of the opening than to the top of the opening.
US10347516B2
Embodiments of substrate transfer chambers are provided herein. In some embodiments, a substrate transfer chamber includes a body having an interior volume, wherein a bottom portion of the body includes a first opening; an adapter plate coupled to the bottom portion of the body to couple the substrate transfer chamber to a load lock chamber of a substrate processing system; wherein the adapter plate includes a second opening aligned with the first opening to fluidly couple the interior volume with an inner volume of the load lock chamber; a cassette support disposed in the interior volume to support a substrate cassette; and a lift actuator coupled to the cassette support to lower or raise the substrate cassette into or out of the load lock chamber.
US10347513B2
Embodiments are related to systems and methods for fluidic assembly, and more particularly to systems and methods for assuring deposition of elements in relation to a substrate.
US10347507B2
A printed circuit board according to an embodiment includes: an insulating layer; a first pad disposed on a first surface of the insulating layer; a first conductive layer disposed on the first pad and including gold (Au); a second pad disposed on a second surface of the insulating layer; and a second conductive layer disposed on the second pad and including gold (Au), wherein the first conductive layer is a conductive layer connected to a wire, the second conductive layer is a conductive layer connected to a solder, and the first conductive layer is thicker than the second conductive layer.
US10347506B2
Methods for patterning in a semiconductor process are described. A dummy layer is formed having a cut therein. A first sacrificial layer is formed over the dummy layer, and at least a portion of the first sacrificial layer is disposed in the cut. A second sacrificial layer is formed over the first sacrificial layer. The second sacrificial layer is patterned to have a first pattern. Using the first pattern of the second sacrificial layer, the first sacrificial layer is patterned to have the first pattern. The second sacrificial layer is removed. Thereafter, a second pattern in the first sacrificial layer is formed comprising altering a dimension of the first pattern of the first sacrificial layer. Using the second pattern of the first sacrificial layer, the dummy layer is patterned. Mask portions are formed along respective sidewalls of the patterned dummy layer. The mask portions are used to form a mask.
US10347505B2
A method includes exposing and developing a negative photo resist, and performing a treatment on the negative photo resist using an electron beam. After the treatment, a layer underlying the photo resist is etched using the negative photo resist as an etching mask.
US10347503B2
Methods for cleaning substrates are described including cleaning substrates having hardmask masks and polymer films, such part of semiconductor fabrication. Cleaning methods include ultraviolet (UV) light exposure of process gas mixtures and liquid cleaning chemistries. A substrate and/or process fluids are exposed to ultraviolet radiation. A process gas mixture being irradiated can include an oxidizing gas mixture (air, clean dry air, oxygen, peroxygen, etc.). Reducing gas mixtures, having hydrogen, can also be irradiated. Reactive species from irradiated gas mixtures are exposed to the substrate to chemically modify film properties, such as by facilitating a subsequent liquid cleaning step. Liquid cleaning chemistries on a substrate surface can also be irradiated. Such cleaning techniques enable shorter cleaning times, lower processing temperatures, and reduced damage to underlying or intermediate layers such as dielectric layers.
US10347481B2
A method for producing a silicon carbide wafer includes: providing a silicon carbide wafer having an unpolished surface; in which the unpolished surface has a first crystal face and a second crystal face; polishing one face of the first crystal face and the second crystal face of the unpolished surface in a first polishing solution by using a polisher; in which the polisher includes a polishing pad and a plurality of abrasive particles fixed on the polishing pad; and polishing the other face of the first crystal face and the second crystal face of the unpolished surface in a second polishing solution by using the polisher; in which a pH value of the first polishing solution is less than or equal to 7, and a pH value of the second polishing solution is greater than or equal to 7. The present disclosure also provides a silicon carbide wafer.
US10347474B2
In some implementations described herein, a collimator that is biasable is provided. The ability to bias the collimator allows control of the electric field through which the sputter species pass. In some implementations of the present disclosure, a collimator that has a high effective aspect ratio while maintaining a low aspect ratio along the periphery of the collimator of the hexagonal array of the collimator is provided. In some implementations, a collimator with a steep entry edge in the hexagonal array is provided. It has been found that use of a steep entry edge in the collimator reduces deposition overhang and clogging of the cells of the hexagonal array. These various features lead to improve film uniformity and extend the life of the collimator and process kit.
US10347472B2
The present invention relates to a sputtering target, which comprises a zirconium oxide as a sputtering material, wherein the zirconium oxide has an oxygen deficiency, compared to the oxygen content of its fully oxidized form, of at least 0.40 wt %, has a total amount of metal elements other than zirconium of less than 3.0 wt %, based on the total amounts of metal elements including zirconium, and has an X-ray powder diffraction pattern having a peak P1 at 28.2°+/−0.2° 2-theta, a peak P2 at 31.4°+/−0.2° 2-theta, and a peak P3 at 30.2°+/−0.2° 2-theta.
US10347468B2
A chamber has an upper housing and a lower housing and receives a reaction gas. A first plasma source includes electron beam sources providing electron beams into the upper housing to generate an upper plasma. A second plasma source includes holes generating a lower plasma within the holes connecting the upper housing and the lower housing. Radicals of the upper plasma, radicals of the lower plasma, and ions of the lower plasma are provided, through the holes, to the lower housing so that the lower housing has radicals and ions at a predetermined ratio of the ions to the radicals in concentration. The second plasma source divides the chamber into the upper housing and the lower housing. A wafer chuck is positioned in the lower housing to receive a wafer.
US10347467B2
In some examples, a method including depositing a functional layer over a substrate; depositing a granular layer over the functional layer, the granular layer including a first material defining a plurality of grains separated by a second material defining grain boundaries of the plurality of grains; removing the second material from the granular layer such that the plurality of grains of the granular layer define a hard mask layer on the functional layer; and removing, via reactive ion etching with a carrier gas, portions of the functional layer not masked by the hard mask layer, wherein the carrier gas comprises a gas with an atomic number less than an atomic number of argon.
US10347465B2
Embodiments of the present invention relate to apparatus for enhancing deposition rate and improving a plasma profile during plasma processing of a substrate. According to embodiments, the apparatus includes a tuning electrode disposed in a substrate support pedestal and electrically coupled to a variable capacitor. The capacitance is controlled to control the RF and resulting plasma coupling to the tuning electrode. The plasma profile and the resulting deposition rate and deposited film thickness across the substrate are correspondingly controlled by adjusting the capacitance and impedance at the tuning electrode.
US10347464B2
A system for performing a rapid alternating process (RAP) etch includes a bias frequency adjustment module that selectively adjusts a bias frequency of a bias radio frequency (RF) source. The bias RF source provides a bias power to a substrate processing system. A control module determines a tuned frequency of the bias RF source. The tuned frequency corresponds to an impedance matching value. The control module controls the bias frequency adjustment module to adjust the bias frequency to a detuned frequency. The detuned frequency increases the bias power of the bias RF source to a predetermined range.
US10347460B2
A method for imaging a surface of a substrate using a multi-beam imaging system includes: modifying an electron beam using a multipole-field device; generating beamlets from the electron beam using a beam-splitting device having multiple apertures; in response to projecting foci of the beamlets onto the surface, driving the beamlets using a deflector set to scan a region of the surface for receiving signals based on electrons scattered from the region; and determining an image of the region for inspection based on the signals. The multi-beam imaging system includes: an electron source; a first multipole-field device for beam shaping and beam aberration correction; a beam-splitting device; a projection lens set; a deflector set; an objective lens set; a detector array; a second multipole-field device; a processor; and a memory storing instructions to determine an image of the region for inspection based on the signals.
US10347457B1
A system and method for varying the temperature of a faceplate for an ion source is disclosed. The faceplate is held against the chamber walls of the ion source by a plurality of fasteners. These fasteners may include tension springs or compression springs. By changing the length of the tension spring or compression spring when under load, the spring force of the spring can be increased. This increased spring force increases the compressive force between the faceplate and the chamber walls, creating improved thermal conductivity. In certain embodiments, the length of the spring is regulated by an electronic length adjuster. This electronic length adjuster is in communication with a controller that outputs an electrical signal indicative of the desired length of the spring. Various mechanisms for adjusting the length of the spring are disclosed.
US10347456B1
A method is presented for controlling an electric field from a gate structure. The method includes forming a hardmask over a fin stack including a plurality of layers, forming a first dielectric layer over the hardmask, forming a sacrificial layer over the first dielectric layer, etching the sacrificial layer to expose a top surface of the first dielectric layer, depositing a second dielectric layer in direct contact with exposed surfaces of the first dielectric layer and the sacrificial layer, removing a layer of the plurality of layers of the fin stack to define an air gap within the fin stack, and forming triangle-shaped epitaxial growths within the air gap defined within the fin stack.
US10347455B2
A miniature circuit breaker with quick current breaking capability which includes a miniature circuit breaker body, a current transformer CT1, a zero-sequence current transformer CT2 and a smart controller module. The miniature circuit breaker body is internally provided with a main arc extinguishing chamber, a fixed contact, a movable contact, a tripping mechanism, and a magnetic tripping push rod. The tripping mechanism includes a lock catch, a movable contact rocker arm, a jump pin, a connecting rod, and a tension spring. A rotated-hinge repulsive force structure is applied between the fixed contact and the movable contact. The tripping mechanism is further provided with a torsional spring to press the movable contact close to the fixed contact. A shunt tripping device controlling the miniature circuit breaker switch to be turned off is arranged in the smart controller module.
US10347441B2
The present invention provides a key structure, including: a key cap, a support board, an elastic element, and a support element. The elastic element includes an elastomer and an elastic piece. The elastomer has a first surface and a second surface, where the first surface includes a first protrusion portion and a second protrusion portion. The support element is connected the key cap and the support board and surrounds the elastic element. When the key cap descends, the first protrusion portion is pressed by the key cap and generates a deformation, so as to form a first pressing stroke, and subsequently, the key cap presses the second protrusion portion to enable the elastic piece to generate a deformation, so as to form a second pressing stroke.
US10347436B2
A switching device for breaking an electric current including a main contact carrier, movable and stationary main contacts, the movable contact attached to the main contact carrier, an arcing contact carrier, a movable and stationary arcing contacts, the movable arcing contact attached to the arcing contact carrier and the stationary arcing contact arranged in parallel with the stationary main contact, and an actuating unit for the main and arcing contact carriers between open and close position at an actuating distance, wherein there are separation distances between the stationary and movable contacts of the main and arcing contact units respectively when the current is interrupted. The switching device further includes a first rack and a first gear for actuating the arcing contact carrier so that, when interrupting the current, a separation distance between the arcing contacts is longer than a separation distance between the main contacts.
US10347430B2
A multilayer ceramic electronic component includes a body with a plurality of first and second internal electrodes alternately arranged with dielectric layers interposed therebetween. There may be M each of third and fourth external electrodes on opposing sides of the body, where M is greater than or equal to 3 and all external electrodes have different polarities than the adjacent external electrodes. There may be N via electrodes penetrating through the body, where N is greater than or equal to 3 and the via electrodes are connected to either of the first or second internal electrodes. The multilayer ceramic electronic component may achieve low equivalent series inductance (ESL) characteristics and may reduce the mounting area on the circuit board.
US10347425B2
A multilayer electronic component includes a capacitor body including a plurality of dielectric layers and a plurality of first and second internal electrodes alternately disposed with respective dielectric layers interposed therebetween. One end of each of the first and second internal electrodes extends, respectively, to a third or fourth surface of the capacitor body. First and second external electrodes respectively include first and second connected portions disposed on the third and fourth surfaces, and first and second band portions respectively extended from the first and second connected portions to portions of a first surface of the capacitor body. A first connection terminal is disposed on the first band portion to provide a first solder accommodating portion, and a second connection terminal is disposed on the second band portion to provide a second solder accommodating portion.
US10347417B2
A three-phase AC reactor according to the present invention includes a peripherally enclosing external core; at least three core coils being in contact with or connected to an interior of the external core, each of the core coils including a core and a coil wound around the core, and the adjoining core coils being magnetically connected through a gap; and a barrier fitted on an end portion of the external core so as to enclose side surfaces of the coils.
US10347416B2
Disclosed herein is a coil component that includes: a drum core including a winding core part, a first flange part provided at one end of the winding core part in an axial direction of the winding core part, and a second flange part provided at other end of the winding core part in the axial direction of the winding core part; first, second, third, and fourth terminal electrodes provided on the first flange part; fifth, sixth, and seventh terminal electrodes provided on the second flange part; and first, second, third, and fourth wires wound around the winding core part, wherein one ends of the first to fourth wires are each connected to any one of the first to fourth terminal electrodes, and wherein other ends of the first to fourth wires are each connected to any one of the fifth to seventh terminal electrodes.
US10347415B2
A coil component has a core having a winding core portion and a flange portion disposed on each of both ends of the winding core portion, the flange portion including a foot portion; a wire wound around the winding core portion; an electrode portion disposed on a bottom surface of the foot portion of the flange portion and connected to the wire; a metal terminal to be connected via a mounting solder to a mounting substrate; and a joining member connecting the metal terminal to the electrode portion. The joining member has a heat resistance property retaining a connection state between the electrode portion and the metal terminal at least at the melting point of the mounting solder.
US10347409B2
Disclosed are apparatus and methods for arrayed embedded magnetic components that include magnetic devices that have a core that is embedded between two or more substrates and a winding pattern surrounding the core that is implemented on and through the two or more substrates. The winding pattern is operable to induce a magnetic flux within the core when energized by a time varying voltage potential. The winding pattern may be implemented by printed circuit layers, plated vias, other electrically conductive elements, and combinations thereof. Arrayed embedded magnetic components include two or more electrically interconnected magnetic devices positioned side-by-side in a horizontal integration, positioned top-to-bottom in a vertical integration, or combinations thereof. The magnetic devices may have a magnetic functionality such as, but not limited to, a transformer, inductor, and filter. Disclosed magnetic components and methods provide for low cost construction, consistent performance, and a low profile form, among other benefits.
US10347404B2
A resistor element includes a base substrate having first and second surfaces opposing each other and first and second end surfaces opposing each other and connecting the first and second surfaces. A first resistor layer is on the first surface of the base substrate. First and second terminals are respectively on the first and second end surfaces. A second resistor layer is on the first resistor layer, is connected to the first and second terminals, and includes a copper-manganese-tin (Cu—Mn—Sn)-based composition.
US10347398B2
A shielded electrical cable includes one or more conductor sets extending along a length of the cable and being spaced apart from each other along a width of the cable. Each conductor set has one or more conductors having a size no greater than 24 AWG and each conductor set has an insertion loss of less than about −20 dB/meter over a frequency range of 0 to 20 GHz. First and second shielding films are disposed on opposite sides of the cable, the first and second films including cover portions and pinched portions arranged such that, in transverse cross section, the cover portions of the first and second films in combination substantially surround each conductor set, and the pinched portions of the first and second films in combination form pinched portions of the cable on each side of each conductor.
US10347394B2
The present invention relates to a flexible flat cable including a plurality of conductive wires disposed between an upper film and a lower film, in which an air gap is formed between the conductive wires. The flexible flat cable includes a plurality of conductive wires disposed between an upper film and a lower film, wherein the conductive wires are fixed by a first thermal bonding resin of the upper film and a second thermal bonding resin of the lower film, an air gap is formed between the conductive wires, and a side end of the upper film and a side end of the lower film are bonded by the first thermal bonding resin and the second thermal bonding resin.
US10347385B2
A discharge apparatus usable in a nuclear reactor includes an emitter apparatus in the form of a plurality of wire segments that emit electrons via beta decay to a collector. The rate at which the electrons are emitted is directly related to the neutron flux in the vicinity of each wire segment. The continual emission of electrons from the wire segments to the collector results in a charge imbalance, and an electrostatic discharge event in the form of a spark occurs between the wire segment and the collector. Time-of-flight techniques are used to analyze signals that result from the electrostatic discharge event to determine the position along the discharge apparatus where the electrostatic discharge event occurred. The electrostatic discharge events over time at various locations along the discharge apparatus where the wire segments are situated are employed in determining the neutron flux and thus the power generation at the locations.
US10347384B2
The present invention provides an apparatus for detecting and/or repositioning annulus spacers used to maintain the position of a pressure tube within a calandria tube of a nuclear reactor. The method comprises the steps of: vibrationally isolating a section of the pressure tube; vibrating the wall of said pressure tube within said isolated section; detecting vibration of the wall at a minimum of two axial positions within said isolated sections; and detecting the reduction in vibration level of the wall at one or more of said axial positions in comparison to the remaining axial positions. The apparatus comprises a tool head to be inserted into the pressure tube, the tool head comprising a first end and a second and a clamping block m each of said ends. The clamping blocks are used to vibrationally isolate a section of the pressure tube located between said ends. The apparatus also comprises piezo-actuators operable to vibrate said pressure tube; and accelerometers used for measuring vibration of said pressure tube.
US10347383B2
A process is provided for preparing a powder of an oxide of at least one metal, each metal having an oxidation number between (III) and (VI). This process comprises successively and in this order: (a) reacting, with a compound comprising a hydroxide, an aqueous solution comprising, for each metal, at least one salt of the cation of said metal, (b) separating the precipitate obtained, (c) contacting the separated precipitate with an organic protic polar solvent, (d) removing the organic protic polar solvent by vacuum drying the precipitate. A process is further provided for manufacturing a pellet of an oxide of at least one metal as well as to a powder and to a pellet obtained according to these processes and to uses thereof.
US10347379B2
A method for at least one of characterizing, diagnosing, and treating a cutaneous condition in at least a subject, the method comprising: receiving an aggregate set of biological samples from a population of subjects; generating at least one of a microbiome composition dataset and a microbiome functional diversity dataset for the population of subjects; generating a characterization of the cutaneous condition based upon features extracted from at least one of the microbiome composition dataset and the microbiome functional diversity dataset; based upon the characterization, generating a therapy model configured to correct the cutaneous condition; and at an output device associated with the subject, promoting a therapy to the subject based upon the characterization and the therapy model.
US10347378B2
In the case where a special icon disposed at an item of an examination is hidden, and a medical staff has not confirmed a medical report of various types of medical examinations whose progress statuses are represented by small icons of the special icon, an unconfirmed medical-care-process display section representing that there is a medical examination whose medical report has not been confirmed is displayed on a first display screen. The unconfirmed medical-care-process display section is obtained by arranging blocks each corresponding to the small icon representing the progress status of the medical examination whose medical report has not been confirmed, and the unconfirmed medical-care-process display section is inserted between the icons of patients arranged along the horizontal axis, and displayed.
US10347373B2
Systems and methods can support managing clinical alerts presented to clinical care users. An integration management system can maintain models of clinical alert events in the context of user behaviors and in the context of patients. Alarm indications associated with the patient may be received along with context information associated with the patient. Patient information may be received from an electronic medical record system. Integrated decision processing can integrate two or more of the alarm indication, the models of clinical alert events, the patient context, and the information from the electronic medical record system. The integrated decision processing can determine if a clinical alert is to be generated, what type, and to whom. The clinical alert can be transmitted to a target user. A response can be received and interpreted. Information associated with the patient may be updated into the electronic medical record system.
US10347372B2
An information processing apparatus includes an identifier generator, a reversible converter, and an assignment unit. The identifier generator generates first identifiers which are uniquely specified. The reversible converter reversibly converts the first identifiers to generate second identifiers. The assignment unit assigns the second identifiers to processes to be assigned with identifiers.
US10347353B2
According to one embodiment, a memory system includes a semiconductor memory and a memory controller. The memory controller writes a first data group in the semiconductor memory and then reads the first data group from the semiconductor memory. The memory controller counts a number of first data and a number of second data based on a comparison of a second data group with a third data group. The memory controller changes a first charge threshold based on the number of first data and the number of second data. The second data group is the first data group at the time of writing to the semiconductor memory. The third data group is the first data group read from the semiconductor memory. The first data is data changed from a first code to a second code. The second data is data changed from the second code to the first code.
US10347348B2
The invention provides a semiconductor memory device capable of setting input data correctly, including: an input circuit outputting input data to a data bus; a logic circuit outputting the input data on the data bus to digit lines selected by a column address in response to a writing clock signal synchronized with an external clock signal; a page buffer holding data of the digit lines in holding circuits of a column selected by the column address in response to an inner clock signal generated by delaying the writing clock signal, and an address counter generating the column address in response to the writing clock signal. The column address is supplied to the logic circuit in response to the writing clock signal, and the column address is supplied to the page buffer in response to the inner clock signal which has been delayed.
US10347345B2
A memory card is provided to include a substrate having two pairs of edges facing each other, a plurality of first row terminals that are arranged adjacent to an edge at an insertion side of the substrate and include a first voltage power terminal for applying a first voltage and a first ground terminal, a plurality of second row terminals that are spaced farther apart from the edge at the insertion side than the plurality of first row terminals and include a second voltage power terminal for applying a second voltage and first data terminals, and a plurality of third row terminals that are spaced farther apart from the edge at the insertion side than the plurality of second row terminals and include second data terminals.
US10347337B2
A logic circuit is provided including at least two input cells and a sense circuit. The input cells are connected to a common result line. Further, the input cells are operable for influencing an electrical quantity at the result line. The sense circuit is connected to the result line, and is adapted to output a discrete value out of more than two possible values based on the electrical quantity.
US10347332B2
A system includes a cross-point memory array and a decoder circuit coupled to the cross-point memory array. The decoder circuit includes a predecoder having predecode logic to generate a control signal and a level shifter circuit to generate a voltage signal. The decoder circuit further includes a post-decoder coupled to the predecoder, the post-decoder including a first stage and a second stage coupled to the first stage, the control signal to control the first stage and the second stage to route the voltage signal through the first stage and the second stage to a selected conductive array line of a plurality of conductive array lines coupled to a memory array.
US10347322B1
Some embodiments include an apparatus having first and second comparative bitlines extending horizontally and coupled with a sense amplifier. First memory cell structures are coupled with the first comparative bitline. Each of the first memory cell structures has a first transistor associated with a first capacitor. Second memory cell structures are coupled with the second comparative bitline. Each of the second memory cell structures has a second transistor associated with a second capacitor. Each of the first capacitors has a container-shaped first node and is vertically offset from an associated first sister capacitor which is a mirror image of its associated first capacitor along a horizontal plane. Each of the second capacitors has a container-shaped first node and is vertically offset from an associated second sister capacitor which is a mirror image of its associated second capacitor along the horizontal plane.
US10347321B1
Apparatuses and methods for providing driving signals in semiconductor devices are described. An example apparatus includes a plurality of memory cell mats including a plurality of word lines and a word line driver coupled to the plurality of word lines of the plurality of memory cell mats. The word line driver is configured, responsive to a row active command, to provide a first voltage to a selected word line of the plurality of the word lines of a selected memory cell mat of the plurality of memory cell mats, provide a second voltage different from the first voltage to each of unselected word lines of the plurality of the word lines of the selected memory cell mats of the plurality of memory cell mats, and provide no voltage to each of the plurality of word lines of each of unselected memory cell mats of the plurality of memory cell mats.
US10347320B1
Methods of operating a memory include concurrently discharging a voltage level of a data line and source of the memory, monitoring a representation of a voltage difference between a voltage level of a control gate of a transistor connected between the data line and the source and a voltage level of the data line, activating a current path between the control gate of the transistor and the source if the voltage difference is deemed to be greater than a first value, and deactivating the current path if the voltage difference is deemed to be less than a second value. Memory configured to perform such methods include comparators configured to monitor voltage nodes capacitively coupled to the data line and to the control gate of the transistor connected between the data line and the source, and a current path selectively connecting the control gate of the transistor to the source.
US10347314B2
An advantageous write verify operation for bipolar memory devices is disclosed. The verify operation is performed under the same bias conditions as the write operation. Thus, the verify operation reduces disturb conditions caused when verify operation is performed in opposite bias to write operation. The advantageous write verify operation may be performed with control logic on source and bit lines. In another embodiment, the advantageous write operation is performed with mux coupled to control logic. The mux determines whether verify (0) or verify (1) operation should be performed based on data in a program latch. Moreover, the mux may select bias conditions for read operations based on a register bit. Trim circuits optionally provide guard banding and modify reference voltages for verify operations performed in opposite polarity to normal read operation.
US10347311B1
A switching device, according to one embodiment, includes: a cylindrical pillar; an annular cylindrical oxide layer which encircles a portion of the cylindrical pillar; an annular cylindrical gate contact which encircles a portion of the annular cylindrical oxide layer; and a source contact which encircles a portion of the cylindrical pillar toward a first end of the cylindrical pillar. Other systems are also described in additional embodiments herein which provide various different switching devices having improved components including improved cylindrical gate contacts, improved source contacts, and/or improved drain contacts. These improved systems and components thereof may be implemented in vertical transistor structures which also include the aforementioned cylindrical pillar and cylindrical gate contact in comparison to conventional surface transistor structures.
US10347308B1
A magnetic storage device is provided. The magnetic storage device comprises a magnetic memory cell, which includes two or more magnetic tunnel junctions (MTJs), including a first MTJ having a first magnetic characteristic and a first electrical characteristic and a second MTJ has a second magnetic characteristic and a second electrical characteristic, wherein the first magnetic characteristic is distinct from the second magnetic characteristic. The magnetic memory cell further comprises a bottom electrode and a top electrode, wherein the two or more MTJs are arranged between the top and bottom electrode in parallel with respect to each other. The magnetic storage device further comprises readout circuitry coupled to the bottom electrode or the top electrode of the magnetic memory cell and write circuitry coupled to the bottom electrode or the top electrode of the magnetic memory cell.
US10347303B2
Various embodiments, disclosed herein, include apparatus and methods to provide separate regulated voltages to an electronic device. Multiple voltage regulators can be provided with phase alignment circuitry coupled to the multiple voltage regulators. The multiple voltage regulators can be structured with each voltage regulator having an output separate from the output of the other voltage regulators. The phase alignment circuitry can provide for relative phases among voltage regulator ripples at the output pins of the multiple voltage regulators to be maintained at a certain relationship. Additional apparatus, systems, and methods are disclosed.
US10347296B2
An electronic device is provided. The electronic device includes a voice input module which receives a voice from an outside to generate voice data, a memory which stores one or more images or videos, and a processor which is electrically connected to the voice input module and the memory. The memory includes instructions, when executed by the processor, causing the electronic device to link at least one of the voice data, the first metadata information based on the voice data, or second metadata information generated from the voice data and/or the first metadata information with the second image or video.
US10347276B2
A method is disclosed for forming a perpendicular magnetic recording writer with an all wrap around (AWA) shield design wherein one or more of the leading shield, trailing shield, and side shields are a composite wherein a magnetic “hot seed” layer made of a >19 kG to 24 kG material adjoins a gap layer, and a side of the hot seed layer opposite the gap layer adjoins a high damping magnetic layer made of a 10-16 kG material (or a 16-19 kG material in the trailing shield) having a Gilbert damping parameter α>0.04. In one embodiment, the high damping magnetic layer is FeNiRe with a Re content of 3 to 15 atomic %. The main pole leading and trailing sides may be tapered. Side shields may have a single taper or dual taper structure. Higher writer speed with greater areal density capability is achieved.
US10347273B2
A speech processing apparatus includes: an expectation value calculation unit configured to calculate, using an input signal spectrum and a speech model that models a feature quantity of speech, a spectrum expectation value which is an expectation value of a spectrum of an acoustic component included in the input signal spectrum; and an acoustic power estimation unit configured to estimate an acoustic power of the acoustic component of the input signal spectrum based on the input signal spectrum and the spectrum expectation value.
US10347267B2
An audio encoding method and an apparatus are provided. The method includes: determining sparseness of distribution, on spectrums, of energy of N input audio frames (101), where the N audio frames include a current audio frame, and N is a positive integer; and determining, according to the sparseness of distribution, on the spectrums, of the energy of the N audio frames, whether to use a first encoding method or a second encoding method to encode the current audio frame (102), where the first encoding method is an encoding method that is based on time-frequency transform and transform coefficient quantization and that is not based on linear prediction, and the second encoding method is a linear-predication-based encoding method. The method can reduce encoding complexity and ensure that encoding is of relatively high accuracy.
US10347266B2
A speech signal decoding device includes an adaptive code-book decoder, a fixed code-book decoder, a ratio calculator, a determination unit, and an attenuator. The adaptive code-book decoder generates an adaptive code-book vector using an adaptive code-book code of an encoded signal encoded by a CELP method. The fixed code-book decoder generates a fixed code-book vector using a fixed code-book code of the encoded signal. The ratio calculator calculates an amplitude ratio or an energy ratio between the adaptive code-book vector and the fixed code-book vector. The determination unit determines whether the amplitude ratio or the energy ratio exceeds a predetermined threshold. When the amplitude ratio or the energy ratio is determined to exceed the predetermined threshold, the attenuator attenuates an excitation signal that has been defined by adding the adaptive code-book vector to the fixed code-book vector.
US10347260B2
The invention provides methods and devices for stereo encoding and decoding using complex prediction in the frequency domain. In one embodiment, a decoding method, for obtaining an output stereo signal from an input stereo signal encoded by complex prediction coding and comprising first frequency-domain representations of two input channels, comprises the upmixing steps of: (i) computing a second frequency-domain representation of a first input channel; and (ii) computing an output channel on the basis of the first and second frequency-domain representations of the first input channel, the first frequency-domain representation of the second input channel and a complex prediction coefficient. The upmixing can be suspended responsive to control data.
US10347255B1
A voice-enabled digital communications assistant powered in part using tailored machine learning models and other algorithms is used to engage with and control one or more healthcare devices or instruments such that a user is able to control the devices or instruments using natural language, conversational-like, voice commands. A command processor processes the audible instructions, while a context-aware processor monitors the present states and conditions of all devices and instruments, as well as the environment, for situational awareness purposes, including situations where executing commands may be incompatible with or conflict with the present states or conditions of devices and instruments as well as their expected future states. In addition to speech responses by the digital assistant, a separate notification engine provides audible or visual feedback to the user.
US10347242B2
The present invention relates to a method, an apparatus, and a computer-readable recording medium for improving at least one semantic unit set by using a phonetic sound. The method for improving a set including at least one semantic unit, in which the set including at least one semantic unit is a captured semantic unit set, includes: receiving an improvement phonetic sound according to utterance of a user; specifying an improvement semantic unit set on the basis of the improvement phonetic sound; specifying a semantic unit set as a target to be actually improved within the captured semantic unit set, as a matched semantic unit set, on the basis of correlation thereof with the improvement semantic unit set; and replacing the matched semantic unit set within the captured semantic unit set with the improvement semantic unit set.
US10347238B2
Systems and techniques are disclosed for synthesizing a new word or short phrase such that it blends seamlessly in the context of insertion or replacement in an existing narration. In one such embodiment, a text-to-speech synthesizer is utilized to say the word or phrase in a generic voice. Voice conversion is then performed on the generic voice to convert it into a voice that matches the narration. An editor and interface are described that support fully automatic synthesis, selection among a candidate set of alternative pronunciations, fine control over edit placements and pitch profiles, and guidance by the editors own voice.
US10347235B2
Method and system for active reduction of a predefined audio acoustic signal (AAAS), also referred to as “noise”, in a quiet zone, without interfering undefined acoustic noise signals within as well as outside the quiet zone, by generating accurate antiphase AAAS signal. The accuracy of the generated antiphase AAAS is obtained by employing a unique synchronization signal(s) (SYNC) which is generated and combined with the predefined AAAS. The combined signal is electrically transmitted (referred to as the “electric channel”) to a processing “quieting component”. Simultaneously, the generated SYNC signal is acoustically broadcasted near the predefined AAAS and merges with it. A microphone in the quiet zone receives the merged acoustic signals that arrive via the air (referred to as the “acoustical channel”) to the quiet zone and a receiver in the quieting component receives the combined electrical AAAS and SYNC signal that arrive wire or wireless to the quiet zone. In the quiet component the SYNC is detected from both electrical and acoustical channels, the detected SYNC signals with the electrically received AAAS signal are used to calculate the timing and momentary amplitude for generating an accurate acoustic antiphase AAAS signal to cancel the acoustic predefined AAAS. By continuously and periodically updating the SYNC signal enables to dynamically evaluate acoustical environmental distortions that might appear due to echo, reverberations, frequency non-linear response, or due to other distortions mechanisms.
US10347230B2
A device, system, and methods for indicating trombone slide positions is disclosed. Namely, a trombone slide position indicator is provided. In some embodiments, the trombone slide position indicator includes a slide position rod mounted in a fixed position in relation to the outer slide of the trombone. Further, a plurality (e.g., seven) slide position indicators are provided along the length of the slide position rod, wherein the positions of slide position indicators correspond to a certain pitch or note. A sensor guide is mounted to the outer slide, wherein the sensor guide moves with the outer slide and in relation to the fixed slide position rod. The sensor guide includes a mechanism for detecting and/or indicating close proximity to any one of the slide position indicators along the slide position rod. Further, a method of using the trombone slide position indicator is provided.
US10347222B2
Calculation is performed to provide a delay and attenuated oscillation to a blowing pressure detected by a blowing pressure sensor which detects blowing pressure, and a musical sound is generated based on the blowing pressure subjected to the calculation. As a result, for example, a blowing feeling of an electronic wind instrument can be made closer to a blowing feeling of a natural musical instrument.
US10347213B2
A method for adjusting brightness of a display panel and a brightness adjustment system are provided. The brightness adjustment system includes a display panel and a first controller. According to the provided method, the first controller receives first brightness control data and receives first image data to be displayed on the display panel. The first controller further converts the first image data into second image data according to the first brightness control data for adjusting the brightness of the display panel.
US10347210B2
The present disclosure relates to a driving method and a driving device of display panels. The driving method includes: dividing a saturation interval of an original image frame to be displayed by a display panel into a plurality of sub-saturation intervals; obtaining saturation values corresponding to each of the pixels in the original image frame; calculating numbers of pixels in the original image frame falling within each of the sub-saturation intervals in accordance with the saturation values corresponding to each of the pixels. In this way, the backlight brightness outputted by the backlight module may be adjusted in accordance with the saturation values of the original image frame so as to enhance the low brightness issue when a pure-color image is displayed by the display panel configured with RGBW sub-pixels.
US10347206B2
According to one embodiment, a drive circuit for a display device includes a plurality of pixels. Each of the pixels includes a memory, and a display element driven based on output data of the memory. The drive circuit includes a storage control circuit for storing, in the memory, the data from a signal line, and a display control circuit which provides the display element with a display signal or a non-display signal based on the data stored in the memory. The drive circuit changes a display area from a first display state to a second display state. When the drive circuit sets the display area to the second display state, the drive circuit supplies a signal which does not depend on the image data to the display element.
US10347190B2
A GOA driving circuit is disclosed. The GOA driving circuit includes download units. Each of the download units includes a download transistor and a voltage stabilization capacitor. One plate of the voltage stabilization capacitor is connected to a source of the download transistor, and the other plate of the voltage stabilization capacitor is connected to a common electrode. The common electrode transmits a direct current voltage signal. The voltage stabilization capacitor generates a coupling voltage so as to maintain stabilization of the download signal. A reliability of signals of key nodes in the driving circuit can be improved, and a display stability of a liquid crystal panel can be improved accordingly.
US10347187B2
A display panel including a substrate that includes a display region and a non-display region, the display region including a first and second display region spaced apart from each other, and the non-display region including an edge non-display region that surrounds the display region and an intermediate non-display region between the first and second display region; a plurality of first pixels arranged on the first display region; a plurality of second pixels arranged on the second display region; a first and second voltage wiring on the non-display region to transmit a first and second driving voltage to the first and second pixel; and an auxiliary wiring extending in a second direction perpendicular to the first direction, on the intermediate non-display region, the auxiliary wiring crossing between the first and second display region, and being connected to one of the first and second voltage wiring.
US10347179B2
The present disclosure relates to a display device whose image quality is improved.A display device according to an embodiment of the present disclosure includes a first display area configured to include a plurality of first pixels which are disposed at least one horizontal line; a second display area configured to include a plurality of second pixels which are disposed in a plurality of horizontal lines; and an infrared (IR) light source configured to overlap the first display area in a plan view. The plurality of first pixels are set to be in a non-emission state during a period when the IR light source is driven.
US10347178B2
A pixel driving circuit is disclosed, including: a driving switch, connected between a driving power source and an OLED; a first switch, connected to the gate of the driving switch for inputting a first control signal; a control circuit, connected to the source of the driving switch, for inputting a second control signal and outputting a compensation current to compensate threshold voltage drift of the driving switch; a storage unit, connected between the gate and source of the driving switch, for storing a compensation voltage of compensation current compensating the driving switch; the drain of first switch being for inputting a data signal, the storage unit being for storing a data voltage generated by the data signal and applying the compensation voltage and data voltage to the driving switch. A display panel and pixel driving method are also disclosed.
US10347174B2
A system enabling compressed frame scanning for a display and a method thereof are described herein. A pixel having a maximum pixel data in a row of the plurality of rows corresponding to a frame is identified. The maximum pixel data identified in the row is assigned as a pixel data for the row. A scan time for the row is computed based upon the pixel data of the row and a scanning time associated with a unit of the brightness index. An aggregate scan time for the frame is determined based upon the scan time computed for each of the plurality of rows corresponding to the frame. Finally, the frame is scanned based upon the aggregate scan time determined for the frame thereby enabling compressed scanning of the frame. The method is further implemented for randomly assigned rows of the frame to two or more sub-frames of the frame.
US10347172B2
A hidden display apparatus, system, and method. A display apparatus embodiment may include a face layer and a projection layer, with the projection layer positioned behind the face layer. The face layer may include a front side and a back side. The front side may include a first area configured to display high resolution images and a second area positioned around the first area. The first area and the second area may be made of the same material, and have similar color(s) and/or patterns. The projection layer may include a light source operative in an active mode and an inactive mode. When in the active mode, the projection layer may project light to the face layer to display images in the first area. When in the inactive mode, the face layer may be visually obscured so that the first area and the second area together display a colored surface.
US10347170B2
A method of recovering an error in data communication according to an exemplary embodiment of the present inventive concept includes performing data communication between a first device and a second device through a data line and a clock line; detecting a communication error in the data communication when the first device is in an output mode; and in response to the detecting, outputting, by the second device, a stop signal to the data line repeatedly until the first device is in an input mode. According to exemplary embodiments, if a device stays in an output mode due to a communication error, a stop signal is repeatedly output to the device until the device switches to an input mode, whereupon the communication error can be recovered from. Thus, quality of data communication can be improved.
US10347167B2
An image driving method is disclosed. The image driving method includes obtaining an output image signal, determining whether an image frame difference exists according to an N image frame and an N+1 image frame of the output image signal, and determining an image frame difference region according to the image frame difference, and driving pixel units corresponding to the image frame difference region with the impulse type driving.
US10347164B2
A data compensator includes a voltage drop compensator configured to output a voltage drop compensation value based on input data of pixels included in a display panel, a color difference compensator configured to output a color difference compensation value to compensate for compensate the color difference of the pixels, a compensation data generator configured to generate a compensation value of the input data based on the voltage drop compensation value and the color difference compensation value, and to generate a compensation data by performing an operation on the input data and the compensation value, and a dithering block configured to generate output data by dithering the compensation data.
US10347161B2
Disclosed is a road sign plate comprising: a base plate (2); a series of LEDs (4) disposed on said base plate; and power-supply means connected to said series of LEDs. In particular, the road sign plate comprises: a first resin layer (1) that covers at least the base plate (2); and a second resin layer (7) disposed on said first resin layer, said second resin layer (7) being of a translucent material. The road sign plate is a low cost plate, with high electro-mechanical strength and improved translucency properties.
US10347154B2
A system for characterizing manual welding exercises and providing valuable training to welders that includes components for generating, capturing, and processing data. The data generating component further includes a fixture, workpiece, at least one calibration devices each having at least two point markers integral therewith, and a welding tool. The data capturing component further includes an imaging system for capturing images of the point markers and the data processing component is operative to receive information from the data capturing component and perform various position and orientation calculations.
US10347151B2
Methods and arrangements for generating a learning graph. A contemplated method includes: utilizing at least one processor to execute instructions to perform the steps of: receiving a proficiency input relating to a student; receiving a target knowledge node, wherein the target knowledge node represents at least one skill the student does not currently possess; determining at least one skill requirement of the at least one skill; identifying at least one path between the proficiency input and the target knowledge node based upon the at least one determined skill requirement; calculating a gap between the proficiency input and the target knowledge node at the at least one identified path; and recommending at least one learning content module based upon the calculated gap.
US10347150B1
A projection assembly displays a virtual driving environment, associated with a vehicle, in the interior portions of an actual vehicle. A capture and processing subsystem includes at least one image sensor and at least one processor, and is removably mounted to the interior of the actual vehicle and is operatively coupled to the projection assembly. The image sensor has a field of view encompassing at least a portion of a driver's side area of the actual vehicle. The processor translates a vehicle operating action performed by a driver of the vehicle to a virtual action in the virtual driving environment. The translation is based in part on images captured by the image sensor.
US10347149B2
A slingshot simulator includes a housing, a trigger mechanism and an elastic band. A window is defined on the housing, a switch is arranged at one side of the window, and a connector electrically connected to the switch is disposed in the housing. The trigger mechanism is arranged on a side outer surface of the housing and at one side of the window corresponding to the switch. The trigger mechanism is able to move relative to the switch to alter an electrical status of the switch. The elastic band is connected to the trigger mechanism and able to actuate the trigger mechanism to move relative to the switch. The electrical status of the switch is altered while a user pulls the elastic band to simulate a bow-shooting operation, and a corresponding signal is delivered via the connector.
US10347146B2
A system, a method, and a computer program product for managing answer feasibility in a Question and Answering (QA) system. A set of candidate situations is established. The set of candidate situations corresponds to a first set of answers. A QA system establishes the set of candidate situations by analyzing a corpus. The first set of answers will answer a question. The QA system identifies a subset of the set of candidate situations. The subset of candidate situations corresponds to a portion of contextual data. The portion of contextual data is from a set of contextual data. The set of contextual data relates to the question. The question-answering system determines a set of answer feasibility factors. The set of answer feasibility factors is determined using the subset of candidate situations. The set of answer feasibility factors indicates the feasibility of the answers in the first set of answers.
US10347141B2
A method for providing obstacle alerts to an in-flight aircraft has been developed. First, parameters of an in-flight aircraft are transmitted to a ground based processor station. The station calculates an aircraft safety envelope based on these parameters. The station accesses the characteristics of obstacles stored in a terrain database and calculates an obstacle safety envelope. Finally, the station determines if the aircraft safety envelope conflicts with the obstacle safety envelope and generates an alert for the aircraft if a conflict exists.
US10347133B2
An optical device displaying an image of a blind spot includes a blind spot-side outward mirror disposed on a blind spot-side of a line of sight with respect to an obstacle; a blind spot-side inward mirror disposed to face the blind spot-side outward minor; an eye point-side inward mirror disposed on an eye point-side of the line of sight with respect to the obstacle; and an eye point-side outward minor disposed to face the eye point-side inward mirror. Each of the blind spot-side inward mirror and the eye point-side inward mirror has a plurality of reflection surfaces, and the reflection surfaces are arranged in parallel with each other and arranged at positions where the reflection surfaces partially overlap with each other.
US10347131B2
A collision determination device determines the possibility of collision between a host vehicle and the other object on the basis of a shortest arrival time calculated by a shortest arrival time calculation unit and a passage time at each point of the host vehicle acquired by a vehicle route candidate acquisition unit. In this way, even if a locus to be taken by the other object is not generated, the shortest arrival time at which the other object can arrive at each point of the route candidate of the host vehicle with a predetermined first displacement is calculated, thereby determining the possibility of collision between the host vehicle and the other object. Therefore, it is possible to reduce a computational load for determining collision and to accurately determine collision between the host vehicle and the other object.
US10347127B2
A computing device may be configured to receive sensor information indicative of respective characteristics of vehicles on a road of travel of a first vehicle. The computing device may be configured to identify, based on the respective characteristics, a second vehicle that exhibits an aggressive driving behavior manifested as an unsafe or unlawful driving action. Also, based on the respective characteristics, the computing device may be configured to determine a type of the second vehicle. The computing device may be configured to estimate a distance between the first vehicle and the second vehicle. The computing device may be configured to modify a control strategy of the first vehicle, based on the aggressive driving behavior of the second vehicle, the type of the second vehicle, and the distance between the first vehicle and the second vehicle; and control the first vehicle based on the modified control strategy.
US10347126B2
A driving assistance device of one embodiment includes an acquirer that acquires first environmental information representing an environment of a traveling point of a vehicle after elapse of a given length of time from a current traveling point of the vehicle, a check information storage that stores second environmental information representing an environment of a point at which the vehicle has traveled and check action information representing a driver's necessary action under the environment indicated by the second environmental information, in association with each other, an action information storage that stores third environmental information and actual action information representing an actual action of the driver under the environment indicated by the third environmental information, in association with each other, a comparer that compares the check action information, which is associated with the second environmental information of the environment indicated by the first environmental information in the check information storage, with the actual action information, which is associated with the third environmental information of the environment indicated by the first environmental information in the action information storage, and a notifier that issues a notification on the basis of a result of the comparison by the comparer.
US10347117B1
A portable alert communication system for use in a health care facility comprising a local display device for use by a healthcare administrator, with the local display device having a level-of-care mechanism, a display screen, and an acknowledgment indicator; and a remote display device for use by a healthcare provider, with the remote display device having a level-of-care indicator and an acknowledgment mechanism; and whereby the healthcare administrator can use the local display device to send a level-of-care alert relating to the needs of a patient to the remote display device, which can display the level-of-care alert to the healthcare provider, who can then use the acknowledgement indicator to send an acknowledgment response to the local display device, which can use the acknowledgment indicator to display the acknowledgment response from the healthcare provider to the healthcare administrator, indicating whether the healthcare provider accepts or declines the healthcare administrator's request to attend to the needs of the patient.
US10347115B1
A method of detecting when a personal item is left in a safe is provided. The method comprising: receiving a first status of a safe in a room, the first status indicating that the safe has been locked; retrieving a period of stay for an individual assigned to the room, the period of stay includes a checkout time; and creating a reminder in a schedule system to activate an alarm within a selected time period of the checkout time, the reminder indicating that the safe is locked.
US10347105B2
A wireless, proximity-based security system for securing or tracking a valuable object. The system includes a base station and a plurality of security fobs. The security fobs are tracked via an ultra-wideband transceiver relative to an outer perimeter. An administrator fob pairs each of the security fobs with the base station. An audible alarm emits from base and/or the fobs when the location of the security fob is detected to be beyond the outer perimeter. A haptic alarm emits from fob when the location of the security fob is detected to be beyond a sub-perimeter.
US10347103B2
Methods, systems, and products notify of alarms in security systems. Sensor data is received from an alarm sensor, and an alarm controller determines an alarm condition. Video data associated with the alarm sensor is retrieved. An alarm message may be sent over a wireless network connection, while the video data may be sent over a wireline broadband connection.
US10347089B2
A variable skill reward wagering system is disclosed. The system includes an interactive controller that determines a skill outcome for a user while playing a skill-based game of the interactive controller, and communicate the skill outcome to a process controller. The system further includes a variable skill reward controller determines an amount of credits to add to a variable skill reward pool credit meter datastore, receive the skill outcome for the user from the process controller, and determine a variable skill reward of credits from the variable skill reward pool credit meter datastore for the user based on the skill outcome. The system further includes the process controller that receives the skill outcome from the interactive controller, communicates the skill outcome to the variable skill reward controller, and receives the variable skill reward of credits from the variable skill reward controller.
US10347085B2
A tournament played over a network consisting of rounds (hands) of a poker-like game based on the action in one or more live sporting events. The number of hands played, and the timing of those hands, are the same for every player in the tournament, and are independent of the number of players in the tournament. The number of players in the tournament can be arbitrarily large or small. The prize structure can also be independent of the number of players, and announced in advance. The tournament is preferably based on a collection of closely associated betting events, like the drives in a single football game; or a collection of closely associated sporting events. The poker-like games played in each round of the tournament utilize chips where the winners of the tournament are the players with the largest chip counts at the end of the tournament.
US10347070B2
The present disclosure is directed to systems and methods for generating investigations of user behavior. In an example embodiment, the system includes a video camera configured to capture video of user activity, a video analytic module to perform real-time video processing of the captured video to generate non-video data from video, and a computer configured to receive the video and the non-video data from the video camera. The computer includes a video analytics module configured to analyze one of video and non-video data to identify occurrences of particular user behavior, and an investigation generation module configured to generate an investigation containing at least one video sequence of the particular user behavior. In some embodiments, the investigation is generated in near real time. The particular user behavior may be defined as an action, an inaction, a movement, a plurality of event occurrences, a temporal event and/or an externally-generated event.
US10347054B2
The present disclosure concerns a system and method with the steps: detecting of the signal strength of a mobile radio connection between the motor vehicle and a mobile radio network at detected positions of the motor vehicle after determining from the detected signal strength that the mobile radio connection has been interrupted and the motor vehicle has been parked as of this time within a predetermined duration: storing of the position of the motor vehicle in which the motor vehicle was situated at the time of the interruption as a dead spot; relaying of vehicle data to a vehicle-external server device as soon as it is determined, after the storing of the dead spot, that the motor vehicle has approached within a given distance of the stored dead spot; providing of the relayed vehicle data by the vehicle-external server device.
US10347051B2
An Augmented Reality (AR)-system comprising a permanent marker having a defined pose relative to a coordinate system, an AR-device having a camera and a processing unit, wherein the AR-device is configured to visually detect and identify the permanent marker, determine a relative pose between the AR-device and the permanent marker, a temporary marker having a coded design and an undefined pose relative to the coordinate system and the permanent marker, wherein the AR-device is configured to visually detect and identify the temporary marker by the coded design, determine a relative pose between the permanent marker and the temporary marker, based on the determined relative pose between the permanent marker and the temporary marker, defining a pose of the temporary marker relative to the coordinate system, determine a relative pose between the AR-device and the temporary marker.
US10347046B2
A first augmented-reality (AR) device comprises an optical sensor, a geographic location sensor, an orientation sensor, and a display. The first AR device accesses a first geographic location of the first AR device and an orientation of the first AR device and generates a picture taken at the first geographic location of the first AR device and associated with the orientation of the first AR device. The first AR device retrieves, from a server, transportation information from a second AR device in a vehicle. The server assigns the second AR device to the first AR device. The first AR device forms transportation AR content based on the transportation information and displays the transportation AR content in the display based on the first geographic location and orientation of the first AR device, the transportation information, and the picture generated at the first geographic location of the first AR device.
US10347045B1
Objects can be rendered in three-dimensions and viewed and manipulated in an augmented reality environment. Background images are subtracted from object images from multiple viewpoints to provide baseline representations of the object. Morphological operations can be used to remove errors caused by misalignment of an object image and background image. Using two different contrast thresholds, pixels can be identified that can be said at two different confidence levels to be object pixels. An edge detection algorithm can be used to determine object contours. Low confidence pixels can be associated with the object if they can be connected to high confidence pixels without crossing an object contour. Segmentation masks can be created from high confidence pixels and properly associated low confidence pixels. Segmentation masks can be used to create a three-dimensional representation of the object.
US10347041B2
A system generates a clothing deformation model which models one or more of a pose-dependent clothing shape variation which is induced by underlying body pose parameters, a pose-independent clothing shape variation which is induced by clothing size and underlying body shape parameters and a clothing shape variation including a combination of the pose-dependent clothing shape variation and/or the pose-independent clothing shape variation. The system generates, for an input human body, a custom-shaped garment associated with a clothing type by mapping, via the clothing deformation model, body shape parameters of the input human body to clothing shape parameters of the clothing type and dresses the input human body with the custom-shaped garment.
US10347039B2
Systems, apparatuses and methods may provide for technology that computes, by a shader in a fixed-functionality hardware shader library, a physically based shading model for a type of material. Additionally, the shader may shade one or more surfaces associated with the type of material in accordance with the physically based shading model. In one example, two or more shaders in the shader library are dedicated to different types of materials.
US10347027B2
The various embodiments described herein include methods and devices for interactive data visualization. In one aspect, a method is performed at a device with a touch-sensitive surface and a display. The method includes displaying a first chart, where the first chart concurrently displays a first dimension and a first measure, the display of the first dimension including a plurality of categories and the display of the first measure including a plurality of visual marks corresponding to the plurality of categories. The method further includes: (i) detecting a first touch input; and (ii) in response to detecting the first touch input: (a) adding a second dimension through an animated transition, the second dimension having a second plurality of categories; and (b) transforming a visual mark into a second plurality of visual marks via an animated transition, the second plurality of visual marks corresponding to the second plurality of categories.
US10347025B2
Systems, methods, and computer program products to perform an operation comprising receiving a request to generate a personalized emblem for a user, receiving data associated with the user from a plurality of data sources, extracting a plurality of data elements describing the user from the data associated with the user based on an extraction rule, selecting a first emblem template based on the plurality of extracted data elements and a template selection rule, modifying at least one attribute of the first emblem template based on a first extracted data element of the plurality of data elements, and generating the personalized emblem for the user by placing each of the plurality of extracted data elements in a respective location on the modified first emblem template based on a plurality of emblem layout rules.
US10347024B2
An apparatus includes: a similar plant information retrieval unit retrieving plant information of a similar plant similar to a creation object plant from plant information versus control logic diagram association information stored in a plant information versus control logic diagram association information storage unit; a plant information difference detector comparing the plant information of the creation object plant with the plant information of the similar plant to acquire difference information; a plant information editor that, based on the difference information, deletes an element included in the similar plant but unnecessary for the creation object plant, and retrieves an element included in the creation object plant but not included in the similar plant from the plant information versus control logic diagram association information storage unit to add the retrieved element; and a plant information editing result display displaying a result of the plant information editor.
US10347021B1
A computer-implemented method of visualizing a dataset is implemented on a computer having memory, one or more processors, and a display. The method includes: rendering multiple objects on the display in a tiled manner, wherein each object is a visualization of a respective set of fields of the dataset and there is no overlap between the objects; in response to detecting a first user instruction, switching the rendition of at least one of the objects from the tiled manner to a floating manner; in response to detecting a second user instruction, moving a first object to a location on top of a second object, wherein the location is determined by the second user instruction such that at least a portion of the second object is covered by the first object; and in response to detecting a third user instruction, updating both the first object and the second object.
US10347017B2
Various methods, systems and storage devices are provided for sequencing chart visualization optimizations that include reducing a chart visualization to a single displayed value. Various methods, systems and storage devices are also provided for creating and utilizing an interactive control that is dynamically created in response to one or more chart elements being removed from a chart visualization during optimization of the chart visualization and that is operable, when selected and expanded, for accessing the removed one or more chart elements. Later, the one or more chart elements are removed from the chart visualization again by collapsing the interactive control.
US10347011B2
Document authoring that involves illustrating pen input in an authoring environment is herein improved to provide greater control of colors and patterns for representing the pen input in a graphical user interface. Colors and patterns are provided as effects that are applied to the illustrated pen input so that multiple textures or colors may be applied to the illustrated pen input without requiring the user to manually signal a switch in texture or colors or using multiple objects to represent the pen input. In various aspects, effects may be layered on top of each other, and the effects may be stretched or tiled depending on the size of the illustrated pen input.
US10347007B2
A system and method are provided. The system includes an image capture device configured to capture a video sequence formed from a set of input image frames and including a set of objects. The system further includes a processor configured to detect the objects to form object detections and track the object detections over the input frames to form tracked detections. The processor is also configured to generate for a current input frame, responsive to conditions, a set of sparse object proposals for a current location of an object based on: (i) the tracked detections of the object from an immediately previous input frame; and (ii) detection proposals for the object derived from the current frame. The processor is additionally configured to provide a user perceptible indication of the current location of the object, based on the set of sparse object proposals.
US10347001B2
Implementations generally relate to localizing and mapping. In one implementation, a method includes determining one or more map points in a point cloud space, where the point cloud space corresponds to a real physical environment. The method further includes determining movement information of one or more of the map points, where the determining of the movement information is performed by a neural network. The method further includes determining a self-position in the point cloud space based on the determined movement information.
US10346997B2
A depth estimation method based on light-field data distribution includes the following steps: S1. adjusting pixel distribution of input light-field images to generate a series of refocused light-field images having different focal lengths; S2. for a spatial point, corresponding to a macro-pixel, extracting intensity ranges for the macro-pixel from the refocused light-field images, and then selecting one refocused light-field image corresponding to a minimum intensity range, the focal length of the selected refocused light-field image being taken as a scene depth of the macro-pixel; the macro-pixel corresponding to one point in an actual scene, the intensity range of the macro-pixel being a variation range of intensity values of all points within the macro-pixel; and repeating the step S2 to obtain scene depths of all macro-pixels.
US10346977B2
Provided is an operating method of a medical imaging device. The method includes receiving a 3D medical image, generating a 2D medical image from the 3D medical image based in a plate interpolation, and displaying the 2D medical image by using plate interpolation based weight information and interest region information.
US10346974B2
There is provided an apparatus comprising processing circuitry configured to: receive first medical image data obtained using a first type of imaging procedure, wherein the first medical image data is representative of an anatomical region of a subject; and apply a simulator to perform a simulation process on the first medical image data to obtain simulated second medical image data, the simulated second medical image data having properties so as to simulate image data that is obtained using a second type of imaging procedure. The simulator comprises an image synthesizer that is trained in combination with a discriminator in an adversarial fashion by repeatedly alternating an image synthesizer training process in which the image synthesizer is trained to produce simulated medical image data, and a discriminator training process in which the discriminator is trained to distinguish between real medical image data and simulated medical image data.
US10346968B2
The present disclosure discloses a machine condition monitoring system using three-dimensional thermography, which may automatically alert an operation when detecting any anomalies in three-dimensional thermal imaging of a machine. The machine condition monitoring system is for monitoring conditions of a machine and recording three-dimensional thermal imaging of the machine, comprising: a pan-tilt-zoom thermal imaging camera, at least one infrared reflective convex mirror, and a computer server.
US10346963B2
A computer-implemented method of and system for measuring a three-dimensional surface are provided. The method includes projecting structured illumination on the surface and acquiring a plurality of sets of images. The sets of images are processed to obtain a plurality of point clouds. A spatial accumulator is defined. A first point cloud of the plurality of point clouds is combined with a second point cloud of the plurality of point clouds into the spatial accumulator. Spatial coordinates of the surface are generated based on the contents of the spatial accumulator.
US10346950B2
A system and method of capturing and rendering stereoscopic panoramic content is provided. The system may capture information from a virtual scene to generate a stereoscopic panorama in the form of a stereoscopic cube map. Using the pre-captured cube map, the system may render stereoscopic images during gameplay, image viewing, and/or playback of a three dimensional video. The system may capture camera distance information during capture for use in distortion reduction during image rendering and playback. The system may implement additional distortion reduction measures. Further, the system may use the capture camera distance information to write to depth buffers corresponding to rendered images for use when introducing dynamic gameplay elements into the scene. Additionally, the system may use realistic camera models to simulate human anatomy and reduce distortions associated with simplistic camera models.
US10346945B2
A graphics processing system comprises at least one memory device storing a plurality of pixel command threads and a plurality of vertex command threads. An arbiter coupled to the at least one memory device is provided that selects a pixel command thread from the plurality of pixel command threads and a vertex command thread from the plurality of vertex command threads. The arbiter further selects a command thread from the previously selected pixel command thread and the vertex command thread, which command thread is provided to a command processing engine capable of processing pixel command threads and vertex command threads.
US10346930B1
The LOCATION-CONSCIOUS SOCIAL NETWORKING APPARATUSES, METHODS, AND SYSTEMS (“LCSN”) transforms user personality and location inputs via LCSN components into match and transaction outputs. LSCN may be a processor-implemented method for location-conscious social networking, involving collecting personality details pertaining to a user, analyzing the personality details and constructing a personality profile for the user. The LCSN may also collect geolocation information from the user and compare it to geolocation data from other users, may use user personality profiles to calculate a compatibility rating between the user and other users, and may send an alert to users if the geolocation data indicates that the user is within a specified distance of another user, and/or if the users are matches for each other. Users may further be able to express anonymous interest in other users by anonymously rating potential matches.
US10346912B2
A trading platform for trading financial instruments, and in particular for clearing odd lots, that provides the ability to receive, manage, match, and supervise orders. In an exemplary embodiment, the trading platform includes computer software modules and provides graphical user interfaces to handle the process of entering orders for desired positions, monitor the status of open positions, and obtain data in connection order requests. The trading platform is also capable of matching orders and sending orders to be executed.
US10346906B2
A user interface that may be used to assist in the generation of a plan to improve a credit score of an individual. The user interface includes multiple trade line matched set visualizations, each set resulting from matching similar trade lines from multiple credit reports from multiple credit bureaus. Each of at least some of the trade line set visualizations is visually associated with one or more controls that may be interacted with by the user (e.g., by the individual about whom the credit reports relate), to select from an action to be performed with respect to the alleged event. The action may be a request to the credit bureaus to verify the information supporting the trade line, even without challenging the truth of the underlying information.
US10346905B1
Systems and methods for facilitating finance by monitoring behavior of users indicative of behavioral patterns or deviations from behavioral patterns and inviting users to make financial changes that may be appropriate based on the monitored behavior. In some embodiments, a minimum amount of relevant data must be collected to support the existence of a behavioral pattern or deviation before a user is invited to make appropriate changes to their finances.
US10346897B2
A method for sharding a store order database and order management application is provided. The method may include a computer router associated with a store receiving, from a customer computer, a query regarding an order. The router may use resident shard determination logic to identify a database shard which pertains to the order and which is part of a store order database having multiple database shards. The router may transmit information regarding the order to a database server which implements the identified database shard and which implements an order management system application layer. The database server may process information regarding the order and transmit information regarding the order to the customer computer.
US10346893B1
Machine learning-based approaches are used to identify complementary sets of items, such as articles of clothing and accessories that “match,” and suggest items that would complement a given item of interest. A simulated representation of how the item of interest and the identified complementary items would look together is then generated. For example, given a particular piece of clothing or other apparel item of interest, additional items that complement the item of interest can be identified and suggested to a potential purchaser of the item. Additionally, a three-dimensional (3D) or pseudo-3D representation of a human body can be generated to model the apparel item of interest and the identified complementary apparel items to give the user an idea of how the suggested outfit would look on a user. The representation can be modified to more closely resemble a particular user.
US10346892B1
A design customization tool is integrated with an online visual and searchable design elements database and collaboration tool over a network. Design elements are defined as single or collective real and/or abstract instances of any product, pattern, attribute, or feature. Methods provide uploading a picture or draw a target design space in digital format to the server for dynamic modification, customization, and realistic and real-time rendition and virtual visualization of design elements placed within the context of the design space. Methods include building a library of design elements and design concepts database showcasing design elements which can be independently used in different target design spaces with realistic rendition.
US10346888B2
The present disclosure provides systems and methods to obtain autonomous vehicle passenger feedback. In particular, the systems and methods of the present disclosure can detect an occurrence of a driving event performed by an autonomous vehicle and, in response, provide an interactive user interface that enables a passenger of the autonomous vehicle to enter passenger feedback regarding the occurrence of the driving event. Thus, the systems and methods of the present disclosure can actively prompt passenger feedback in response to a particular instance of a specific type of driving event, thereby enabling improved collection of information about autonomous vehicle ride quality relative to specific types of driving events.
US10346887B1
Provided herein are systems, methods and computer readable media for assigning, calculating or determining a provider quality score. An example method comprises capturing metric information from a web source, the metric information indicative of a product, service, or experience performance of a provider. For example each of a number of reviews and the total number of reviews may be captured. The method may further comprise assigning a provider quality score.
US10346884B2
Control of a single spot break (or all spot breaks within a predefined time period) can be dynamically split between different ad management servers, and between universal and targeted advertisements. Put another way, the particular type of process used to deliver advertisements (e.g. one-to-many or one-to-one) can be varied within a single spot break. Each portion of a split spot break can be dynamically adjusted in near-real time. If run time of advertisements inserted by an ad management server is either too long or not long enough, control can be passed to the next ad server late, or early, as appropriate. A single spot break (or group of spot breaks) can be split different ways for different stations, or for different tiers of spot breaks. Different spot breaks on the same station can be split differently.
US10346879B2
A method for identifying web documents for presenting an advertisement. The method comprises receiving an advertisement for members of one or more demographic segment, identifying at least one web document with an editing style of an author from the demographic segment and allowing a presentation of the advertisement to at least one visitor of the at least one identified web document.
US10346870B1
A promotion program analytical system and method is disclosed. The promotion program analytical system and method selects a promotion program to offer to a consumer. Selection of the promotion program to present to the consumer includes determining a probability that the consumer will accept the promotion program. The probability of acceptance may be determined based on past performance data of similar promotion programs, and also past performance data on the promotion program itself when it is available.
US10346860B2
In accordance with some implementations, a method for measuring viewership of media content is disclosed. The method is performed on a client system. The client system captures presence data of one or more users of the client system with the camera. The client system then analyzes the captured presence data to determine if a respective user is a participant in a media viewership study. In accordance with a determination that the user is a participant in the media viewership measurement study, the client system determines the media content being presented. The client system creates viewership data based on the user and the media content being displayed in the proximity of the user and transmits viewership data to a server system.
US10346858B2
Disclosed are various embodiments for assigning user interface widgets to page slots associated with a page template. In response to a request to generate a content page, content placement requests are then received from user interface widgets. The page slots are associated with a placement value indicating a value of the page slot relative to other page slots in the page template. The highest ranked user interface widgets according to an effectiveness metric or placement score are scheduled for placement in the content page.
US10346851B1
Approaches for automatically determining of correlation for incident, problem and change items. Approaches may perform the steps of: (i) automatically extracting relevant information that includes any of (a) a time of occurrence, (b) important keywords, (c) a category, or sub-category classification, (d) related configuration items, (e) a group membership of the user who worked on, and (f) outage records associated with the incident, problem, and change items; and (ii) automatically analyzing persisted correlation maps using the essence key phrases associated with the incidents to identify essence key phrases of contributing problems, and changes; and (iii) automatically clustering the incidents, optionally with (A) the problems, and (B) the changes to identify clusters of related incident, problem and change items based on the relevant information associated with the incident, problem, and change items.
US10346840B2
Exemplary embodiment of the present invention would provide systems, including Internet-based systems, and computer-implemented methods, for providing online Buyers and Sellers who physically transact an exchange of an item at a local meeting place, indicia of confirmation of the exchange on which to base a background online payment In particular, exemplary embodiments of the present invention would provide a way for Buyers and/or Sellers to input an identifier for online authentication to confirm that a physical exchange of an item sold had been transacted and that would accordingly provide an online system with a basis to charge the relevant Buyer's account for a sale amount and pay the Seller for the item sold.
US10346837B2
A method for authenticating a consumer for a portable consumer device is disclosed. One embodiment of the invention includes receiving a transaction message relating to a request by a consumer to conduct a transaction using a portable consumer device, wherein the consumer was previously enrolled in an authentication program and the consumer was previously authenticated, analyzing the transaction message to determine if a re-authentication event has taken place, causing a re-authentication message to be sent to the consumer before initiating an authorization request message to the issuer if the re-authentication event has taken place, and initiating the authorization request message to the issuer without sending the re-authentication message to the consumer if the re-authentication event has not taken place.
US10346832B2
In some embodiments, apparatuses and methods are provided to support the testing of card interface systems. Some embodiments provide apparatuses to support a card payment system during robotic testing, comprising: a frame configured to cooperate with the separate card payment system; a card chip guide extending from the frame and comprising a first and second card contact surfaces extending from the frame at a first position such that interior ends of the first and second card contact surfaces are configured to align with a card slot of the card payment system; and a card strip guide extending from the frame and comprises third and fourth card contact surfaces that taper with an alignment slot separating the third and fourth card contact surfaces, wherein the alignment slot is configured to align with a card slide of the card payment system when the card payment system is cooperated with the frame.
US10346830B2
A portable object includes a near-field communication device. The communication device includes an electronic chip provided with two terminals connected to an electrical circuit including an antenna and a filter. The communication device is provided to receive and transmit at a defined frequency corresponding to the resonance frequency of the electrical circuit. The portable object includes a control element which is able to be displaced between two predefined positions, i.e. an active position in which the communication device is activated and a passive position in which the communication device is deactivated. The electrical circuit includes, furthermore, a bypass branch provided with a mechanical switch which is able to switch between an open state and a closed state in response to a displacement of the control element from one to the other of its predefined positions causing a modification in the resonance frequency of the electrical circuit.
US10346824B2
The present disclosure involves systems, software, and computer implemented methods for sending payment requests to one or more persons or entities based on images in which the persons or entities appear. In one example, operations may include identifying a first image associated with a payment request, the identified first image including one or more identifiers of persons, as well as identifying a second image associated with a bill, the bill including one or more line items, each line item associated with a cost. In response to a request to initiate a bill payment split, the bill is presented where at least a portion of the line items are selectable. A selection of at least one line item is received, and a selection of a particular person from the one or more identifiers of persons to be associated with the at least one line items is received. The at least one selected line item is assigned to the selected particular person.
US10346823B2
Methods and systems for activating an electronic payments infrastructure employ, for example, a token consisting at least in part of a unique identifier assigned to an inactive header account which is provided on a customer's electronic device. The unique identifier is processable via a transaction processing network. A request, which includes customer information, is received to verify that activation of the header account for the customer is compliant with predefined customer identification rules. A determination is made that activation of the header account for the customer is compliant with the predefined customer identification rules. An activation message is sent to the customer's device using the interface processor, the header account is linked to a digital wallet on a database, and the customer's designation of a source account for the digital wallet is received on the database. The header account can be used in transactions with either on-us or off-us source accounts.
US10346814B2
A system for implementing at least one cryptocurrency transaction at a point-of-sale by using a mobile terminal is provided. The system is operable to provide authentication for implementing the one or more cryptocurrency transactions, wherein the system is operable to send at least one authentication request for the at least one cryptocurrency transaction from a payment terminal to a payment service hosted via one or more virtual computing machines, wherein the payment service is operable to provide a request for a PIN code at the mobile terminal; to send the PIN code from the mobile terminal via a secure channel to open a vault in the one or more virtual machines, wherein the vault contains one or more private keys which are useable for authenticating the at least one cryptocurrency transaction; and to confirm execution of the at least one cryptocurrency transaction to at least the payment terminal.
US10346807B2
Methods, systems, and apparatus for generating workplace movement visualizations. A method includes receiving a request for a user interface presentation that presents time spent by individuals in productive areas of a work site; receiving data specifying the presence of a plurality of personal wireless beacons within each of a plurality of areas of the worksite, wherein a first area of the plurality of areas is designated a productive area and wherein a second area of the plurality of areas is designated a nonproductive area; computing, for each of a plurality of time periods, a respective count of individuals within the first area designated as a productive area; generating a user interface presentation that presents the respective counts of individuals within the productive area; and providing the generated user interface presentation in response to the request.
US10346797B2
Automated inventory management and material (or container) handling removes the requirement to operate fully automatically or all-manual using conventional task dedicated vertical storage and retrieval (S&R) machines. Inventory requests Automated vehicles plan their own movements to execute missions over a container yard, warehouse aisles or roadways, sharing this space with manually driven trucks. Automated units drive to planned speed limits, manage their loads (stability control), stop, go, and merge at intersections according human driving rules, use on-board sensors to identify static and dynamic obstacles, and human traffic, and either avoid them or stop until potential collision risk is removed. They identify, localize, and either pick-up loads (pallets, container, etc.) or drop them at the correctly demined locations. Systems without full automation can also implement partially automated operations (for instance load pick-up and drop), and can assure inherently safe manually operated vehicles (i.e., trucks that do not allow collisions).
US10346794B2
Methods and apparatus are provided to monitor items on a storage unit. Some embodiments provide a system for monitoring items held on a storage unit, comprising: a scanner device configured to capture a 3D model of the storage unit; a memory configured to store a baseline 3D model of the storage unit in a predetermined stocked state and a plurality of 3D item models, each 3D item model corresponding to an item intended to be held on the storage unit; a difference extraction unit configured to compare the captured 3D model to the baseline 3D model and generate 3D difference data corresponding to a difference between the captured and baseline 3D models, and a product identification unit configured to identify items present in the 3D difference data based on the stored plurality of 3D item models.
US10346785B2
Embodiments of the present invention are directed to a system and method for collecting and analyzing data from a plurality of contact center tenants. A processor collects from a plurality of source devices over a data communication network, real-time metrics data for a plurality of contact centers. The real-time metrics data relates to a plurality of contact center factors. The processor stores the collected real-time metrics data in the data store, and generates benchmark data based on the collected real-time metrics data. The processor determines, for a particular contact center of the plurality of contact centers, performance of the contact center relative to the benchmark data. The processor further outputs a recommendation based on the comparison.
US10346780B2
A method for creating a workflow using system administrator actions to resolve a system issue is provided. The method may include assigning a ticket to a category. The method may include capturing a first snapshot of a first system state of a machine before a system administrator begins a corrective action. The method may include capturing a second snapshot of a second system state of the machine after system administrator corrective action. The method may include creating a difference set based on a comparison of the first snapshot and the second snapshot. The method may include generating summaries of administrator action. The method may include dividing the summaries into groups of summaries. The method may include constructing a candidate workflow for each group. The method may include presenting the candidate workflow to a subject matter expert. The method may include storing the reviewed candidate workflow in a repository.
US10346779B2
Systems, methods and computer-readable media for incident queue assignment and prioritization are disclosed. An incident handling system may receive a request for a next highest priority incident. An incident requiring resolution may be identified. The incident may be associated with an incident queue based at least in part on a queue assignment rule. The incident queue may comprise one or more incidents. The incident queue may be processed based at least in part on a prioritization rule to identify, from the one or more incidents associated with the incident queue, the next highest priority incident. The incident handling system may transmit the next highest priority incident associated with the incident queue.
US10346773B2
The present invention is a method and system to assist people traveling together through a transport hub from a current location to a destination location using a smart portable personal computing devices which provide personal data, travel data and transport hub data. The method provides for sub-groups of traveler's having common travel preferences, and it maps routes according to those preferences for the group members to travel through the transport hub together. Continuous monitoring of values provides an alert on each sub-group member's personal computing device when the personal data, travel data, transport hub data, or predetermined parameters change.
US10346772B2
In a method for determining group attributes and matching tasks to a group, a plurality of individual attributes for members of a first group of a plurality of groups are determined, wherein each individual attribute has a type. Parameters of a first distribution of at least one type of individual attribute across members of the first group are estimated. Group attributes of the first group are determined based, at least in part, on the estimated parameters of the first distribution of at least one type of individual attribute. The determined group attributes of the first group are stored in a repository, wherein the repository includes group attributes associated with each group of the plurality of groups. A task is received, wherein the task is associated with a specific group attribute and the task is matched to one group of the plurality of groups based on the specific group attribute.
US10346765B2
The disclosure includes implementations for providing subscription-based safety features in car sharing. A method may include subscription data describing how to modify an operation of a safety system of a vehicle based on the preferences of a driver. The driver may have reserved the vehicle for their use during a time period via a car sharing service. The safety system of the vehicle may be operable to provide a plurality of safety features. Configuration data included in the safety system may define which of the plurality of safety features are provided during the operation of the vehicle. The subscription data may describe the time period when the vehicle is reserved for the driver and a subset of the plurality of safety features for the vehicle that the driver prefers to be active during the time period. The method may include modifying the configuration data based on the subscription data.
US10346762B2
Provided is a process of conducting a collaborative session between two analytics graphical user interfaces (GUI), the process including: instructing a first computing device associated with a first user to display a first GUI having a first graph depicting a first set of values of a first metric; determining that the first graph is to be shared on a second computing device associated with a second user in a second GUI; inferring that the second user prefers to view the first metric in a second graph based on a record of previous interactions in which the second graph was selected to view the first metric; and in response, instructing the second computing device to display in the second GUI the second graph depicting at least some of the first set of values of the first metric.
US10346761B2
Example methods and mechanisms are described herein for implementing and adiabatically operating a topological quantum computing (TQC) phase gate that complements the existing Clifford operations, and thereby allows universal quantum computation with Majorana systems. Further embodiments include a testing system for the phase gate that is feasible with Majorana zero modes and demonstrates violations of the CHSH-Bell inequality. Further, the design used for the testing of the inequality leads directly to a practical platform for performing universal TQC with Majorana wires in which explicit braiding need never occur. Thus, certain embodiments of the disclosed technology involve three synergistically connected aspects of anyonic TQC (in the context of the currently active area of using MZMs for topological quantum computation): a practical phase gate for universal topological quantum computation using MZMs, a precise protocol (using CHSH inequality) for testing that the desired gate operation has been achieved, and bypassing the necessity of MZM braiding (and so avoiding, e.g., problems of nonadiabaticity in the braids).
US10346759B2
Automatically create abstractions of large sets of data and then probabilistic inferences based on the abstractions. The probabilistic inference is derived from the logical hierarchy using Bayesian statistics to infer a probabilistic event based upon a characteristic of the data in a hierarchy of synthetic events. The logical hierarchy of a set of a plurality of synthetic events is related by at least one characteristic of data is built by accessing a first set of data. The first set of data is organized based on a first characteristic. A second set of data different than the first set of data is accessed. A second set of data based is organized based on a second characteristic. The first characteristic and the second characteristic are processed to generate a synthetic event. The synthetic event is a third set of data representing a result of a mathematical computation defined by an operation S(p1)==>F(p2).
US10346751B2
According to an aspect, a heterogeneous graph in a data store is accessed. The heterogeneous graph includes a plurality of nodes having a plurality of node types. The nodes are connected by edges having a plurality of relation types. One or more intermediary graphs are created based on the heterogeneous graph. The intermediary graphs include intermediary nodes that are the relation types of the edges of the heterogeneous graph and include intermediary links between the intermediary nodes based on shared instances of the nodes between relation types in the heterogeneous graph. The intermediary graphs are traversed to find sets of relations based on intermediary links according to a template. An inference rule is extracted from the heterogeneous graph based on finding sets of relations in the intermediary graphs. The inference rule defines an inferred relation type between at least two of the nodes of the heterogeneous graph.
US10346747B2
A method, system and computer-usable medium are disclosed for understanding and discovering relationships within infrastructure systems via an infrastructure management system. In certain embodiments, the infrastructure systems comprise water and/or transportation systems. Such an infrastructure management system enables accidents to be prevented, traffic to flow normally, water to be conserved, cleaned and delivered safely.
US10346745B2
A method, system and computer-usable medium are disclosed for understanding and discovering relationships within infrastructure systems via an infrastructure management system. In certain embodiments, the infrastructure systems comprise water and/or transportation systems. Such an infrastructure management system enables accidents to be prevented, traffic to flow normally, water to be conserved, cleaned and delivered safely.
US10346741B2
Methods, systems, and apparatus, including computer programs encoded on computer storage media, for asynchronous deep reinforcement learning. One of the systems includes a plurality of workers, wherein each worker is configured to operate independently of each other worker, and wherein each worker is associated with a respective actor that interacts with a respective replica of the environment during the training of the deep neural network.