US10484603B2
A communication terminal for displaying a predetermined-area image, which is an image of a part of a whole image, includes circuitry. The circuitry receives first predetermined information specifying a first predetermined area, the first predetermined information being transmitted from another communication terminal displaying a first predetermined-area image, which is an image of the first predetermined-area. The circuitry calculates a position of the first predetermined area with respect to a second predetermined area, based on the first predetermined information received and second predetermined information specifying the second predetermined area, the second predetermined area being an area of a second predetermined-area image being displayed by the communication terminal. The circuitry controls a display to display the second predetermined-area image including at least one of relative position information indicating the position calculated and direction information indicating a direction of the first predetermined area with respect to the second predetermined area.
US10484591B2
In a focus adjusting apparatus, a tracking unit detects from an image signal an area of a subject to be tracked, a position of an imaging plane of the area and reliability of the position, and a prediction unit predicts a position of an imaging plane when the image signal was obtained based on a history of detected positions of imaging planes. A setting unit sets a tolerance based on the reliability, and a determination unit determines the area of the detected subject as a focus adjustment area if a difference between the predicted and detected positions is within the tolerance. The prediction unit predicts a position of an imaging plane of the subject in the focus adjustment area at a future time point.
US10484585B2
There is provided an image sensing apparatus according to the present invention including: an image recovery portion which recovers an image from a sensed image by using a digital signal processing technique which uses a sparse representation for each measurement matrix; and a distance measurement portion which measures a distance of an object by using a norm of a value using at least light amount information of the estimated pixel which is estimated for each measurement matrix, in which the image recovery portion recovers the image by using the measurement matrix corresponding to the distance measured by the distance measurement portion. According to the present invention, when an image is sensed using compound eyes, image sensing can be performed without a separate distance measuring device or the like.
US10484584B2
A method of operating a device to obtain biometric information from a subject includes the step of orienting a device relative to a subject such that a first portion of the device faces the subject, wherein a second portion of the mobile device comprises a camera, the first and second portions being different sides of the device. The method may further includes the steps of operating an optical assembly that is movably coupled to the device, the optical assembly being configured to modify an optical pathway of at least the camera in a direction of the subject and acquiring imaging data of the subject using the camera. The method may further includes the steps of analyzing the acquired imaging data to generate biometric information corresponding to the subject and generating a report using the biometric information.
US10484583B2
Some embodiments include a camera of a mobile computing device. In some embodiments, the camera includes an autofocus coil for moving a lens module, a plurality of optical image stabilization coils, a driver circuit element, connected to the autofocus coil, for passing an alternating current waveform through the autofocus coil, and one or more measurement circuit elements, connected to respective ones of the plurality of the optical image stabilization coils, for measuring changes induced in currents in the respective ones of the plurality of the optical image stabilization coils by the waveform.
US10484581B2
An image pickup apparatus for an endoscope includes: an image pickup device including a row of external electrodes provided on an end portion of a light receiving surface; and a wiring board including end portion electrodes ultrasonically bonded to the external electrodes, in which a plurality of grooves are formed in a back face of the image pickup device, and the plurality of grooves are inclined relative to a vibration direction of ultrasonic vibration during the ultrasonic bonding.
US10484580B2
An image recording apparatus includes: a camera unit that includes an image capturing lens, an image sensor, and a plurality of antenna modules each of which has a communication antenna; and a main unit that rotatably supports the camera unit so that an image capturing direction of the camera unit is (i) directed toward an outside of a vehicle and (ii) rotatable in an up-down direction. The main unit is configured to be installed on a window glass of the vehicle inside a cabin of the vehicle.
US10484579B2
According to some embodiments, a studio video feed, including a studio subject, may be received from a studio video camera. A remote video feed, including a remote subject, may be received from a remote video camera. The remote video feed may include, for example, the remote subject positioned in from of a solid-colored background. The remote subject may be overlaid into the studio video feed to produce a composite video signal, and at least one of the studio video feed and the remote video feed may be automatically adjusted to create an impression that the studio subject and the remote subject occupy a shared physical space.
US10484576B2
Recording data for recording an achromatic color image having a high lightness is generated as follows. A first color material and a second color material which has a hue complementary to that of the first color material are used to record the image. Recording data is generated such that a recording amount of the first color material and a recording amount of the second color material are larger than a recording amount of another color material, and such that a pixel where it is determined that the first color material is to be recorded and a pixel where it is determined that the second color material is to be recorded are at positions different from each other.
US10484575B2
In accordance with an embodiment, an image forming apparatus comprises a peripheral image acquisition section, a face detection section, a face recognition section and a printing control section. The peripheral image acquisition section acquires an image of the periphery of the image forming apparatus. The face detection section detects a face of person from the image acquired by the peripheral image acquisition section. The face recognition section calculates a matching rate indicating a matching degree of the face of person detected by the face detection section with a face of a user registered in advance. The printing control section executes a processing relating to printing of the image forming apparatus in a plurality of stages corresponding to the matching rates according to the matching rate calculated by the face recognition section and a threshold value of the matching rate.
US10484574B2
A printing apparatus that is capable of performing a process corresponding to a user certainly. A management unit manages relating information that relates an information processing apparatus sending print data with a user who is permitted to use the printing apparatus. A specifying unit specifies a user who instructed execution of printing of the print data to the information processing apparatus based on the relating information. A processing unit executes a process corresponding to the user specified.
US10484571B2
A multifunction device integrally includes a first device and a second device. The first device has a first system, and the second system has a second system. The second device requests, in response to a predetermined command entered, a first snapshot of the first device from the first device. The first device generates the first snapshot in response to a request from the second device, and sends the first snapshot to the second device. The second device generates a second snapshot of the second device in response to the predetermined command entered, and saves, to a save destination, the first snapshot sent and the second snapshot. The first device starts the first system by using the first snapshot saved in the save destination. The second device starts the second system by using the second snapshot saved in the save destination.
US10484565B2
An information processing terminal includes a hardware processor that displays an operation screen of an image processing apparatus in accordance with Web UI display data received from a server, returns information about an operation received from a user through the operation screen to the server, receives a job setting operation, determines whether job setting information created by the server recognizing details of the operation from the information about the operation is to be transmitted from the server to the image processing apparatus by a first communication method in accordance with a predetermined determination condition, the first communication method involving a path via a local network to which the image processing apparatus belongs, acquires the job setting information when the hardware processor determines that the first communication method is not to be used, and transmits the acquired job setting information to the image processing apparatus, using a second communication method.
US10484557B2
An image processing apparatus includes an acquisition unit, an identification unit, and a generation unit. The acquisition unit acquires image data generated by reading an image on an original. The identification unit identifies a predetermined size of an original, the predetermined size being different from a size of the original. The generation unit adds image data of a different image to the acquired image data, without changing a size of the image in the acquired image data, to generate image data corresponding to the predetermined size of the original.
US10484556B2
There is provided an image reading device which has an operation part configured to receive an operation to select one of a first scan function of treating image data of a plurality of originals read by a reader as one file and a second scan function of treating image data of one original read by the reader as one file. When the operation part receives the operation to select the second scan function, the reader is moved toward a waiting position opposite to the reading end position with respect to the reading start position after completion of the reading process. In response to detection of opening of the cover before the reader reaches the waiting position, a determining process is not executed, while the determining process is executed when opening of the cover is not detected before the reader reaches the waiting position.
US10484555B2
An image forming apparatus includes a printer, a sensor that measures a measurement image, and a controller that selects a layout including a plurality of test images and a separator, controls the printer to print the plurality of test images and the separator on the sheet, controls the sensor to measure the plurality of test images, and obtains measurement data related to the plurality of test images. The controller also generates a conversion condition based on the measurement result of the plurality of test images and the obtained measurement data. The conversion condition is used to convert the measurement result of the plurality of test images into a measurement result of an external measurement device.
US10484553B2
Disclosed is a communication disturbance analysis device, including: a hardware processor that: obtains a first recorded data created by recording a first communication sound at a transmitter in one facsimile communication and a second recorded data created by recording a second communication sound at a receiver in the one facsimile communication, detects a silence section from each of the first recorded data and the second recorded data; and specifies an extracted section to be extracted as a recoded data to be analyzed from the first recorded data and the second recorded data in accordance with the detected silence section.
US10484540B2
A system includes one or more memory devices storing instructions, and one or more processors configured to execute the instructions to perform steps of a method for providing customer sentiment depiction. The system may receive customer information and session information and generate a customer sentiment estimate. The system may then receive an indication of a detected customer voice characteristic and generate an updated customer sentiment estimate that may be transmitted to a customer service terminal for display.
US10484534B2
A first user device may be included in a user device group including the first user device and a second user device that share a same service identifier for a communication service. The method may include accepting user input at the first user device to activate an operation mode for the first user device. Responsive to accepting the user input to activate the operation mode at the first user device, the operation mode may be activated at the first user device. Responsive to accepting the user input to activate the operation mode at the first user device, a notification regarding activation of the operation mode may be transmitted to a control server that is remote from the first user device. Related user devices and control servers are also discussed.
US10484527B2
An information processing apparatus in which a wireless communication unit receives an identifier through a first connection from a communication apparatus. A remote apparatus is located based on the identifier so that the information processing apparatus can receive images through a second connection from the remote apparatus. An interface unit connects to a display for sending images received through the second connection to the display.
US10484526B2
A method for providing contents corresponding to accessory devices and an electronic device thereof are disclosed. The electronic device includes a communication interface, at least one processor configured to be connected to the communication interface, and a memory connected to the at least one processor. The memory may store instructions that instruct the at least one processor to perform validity check on a first accessory device in response to detection of mounting of the first accessory device, determine a first content corresponding to the first accessory device, and provide a second content corresponding to a combination of the first accessory device and a second accessory device having an association relationship with the first accessory device, in response to detection of mounting of the second accessory device.
US10484525B2
The disclosure provides a personal media system including a base station and a wireless earbud. The personal media system interacts with a smartphone for wireless pairing. The base station has a connection hole to receive the wireless earbud. When the wireless earbud is plugged into the connection hole, the base station and wireless earbud form an integrated body.
US10484515B2
Some embodiments provide a method for providing metadata proxy services to different data compute nodes that are associated with different logical networks (e.g., for different tenants of a datacenter). When a data compute node (DCN) is instantiated (i.e., starts executing) in a host machine, the DCN requests for metadata associated with the DCN from a metadata server. The requested metadata includes identification and configuration data (e.g., name and description, amount of virtual memory, number of allocated virtual CPUs, etc.) for the DCN. Each DCN generates and sends out a metadata request packet after an IP address is assigned to the DCN (e.g., by a DHCP server). In some embodiments, a metadata proxy server (1) receives the metadata request packets that are sent by different DCNs associated with different logical networks, (2) adds logical network identification data to the packets, and (3) forwards the packets to a metadata server.
US10484510B2
A system designed for increasing network communication speed for users, while lowering network congestion for content owners and ISPs. The system employs network elements including an acceleration server, clients, agents, and peers, where communication requests generated by applications are intercepted by the client on the same machine. The IP address of the server in the communication request is transmitted to the acceleration server, which provides a list of agents to use for this IP address. The communication request is sent to the agents. One or more of the agents respond with a list of peers that have previously seen some or all of the content which is the response to this request (after checking whether this data is still valid). The client then downloads the data from these peers in parts and in parallel, thereby speeding up the Web transfer, releasing congestion from the Web by fetching the information from multiple sources, and relieving traffic from Web servers by offloading the data transfers from them to nearby peers.
US10484502B1
The present disclosure discusses system and methods for improving the efficiency of a remote computing device. The system and methods include generate a profile and delivery schedule for the remote computing device. The system can dynamically update the delivery schedule of future requests the system transmits to the remote computing device based on responses to current request.
US10484499B2
An online system provides a social networking environment for a set of users, enabling the users to establish connections with and to communicate with each other. Absent explicit connections between a user and an additional user in the set, the online system determines a measure of affinity of the user for the additional user based on an organizational chart for an organization including the set of users that indicates relationships between the users based on their roles in the organization. The measure of affinity may also be based on actions associated with the user and the additional user and characteristics of the user and the additional user. Based on the measure of affinity, the online system determines whether to establish an inferred connection between the user and the additional user. The online system may account for the inferred connection when identifying content for presentation to the user.
US10484496B2
A system includes a proxy device, a requestor device that communicates with the proxy via a first communications link, and an asset host that communicates with the proxy via a second communications link. The proxy receives an access request from a user of the requestor device via the first communication link. The access request includes a request to access a resource hosted by the asset host. The proxy obtains access authorization information associated with the user, and determines whether the user is authorized to access the resource based on the access authorization information. The proxy determines routing information associated with the asset host, and conditionally routes the access request to the asset host via the second communications link based, at least in part, on the access authorization information. The; asset host provides the resource to the requestor device via a third communications link that bypasses the proxy device.
US10484485B2
The present disclosure relates to processing tasks offloaded from one or more user devices to a cloud service. An example method generally includes receiving a command to be processed by the cloud service from a first device of a group of user devices. The cloud service generates a response based on the command. The cloud service determines weighting scores for each device in the group of user devices for each of audio output, video output, and haptic feedback based on context information about the group of user devices. The cloud service selects a plurality of user devices to receive at least part of the response based on the determined weighting scores, partitions the response into portions corresponding to the selected plurality of user devices, and instructs each of the selected plurality of user devices to output the one or more portions corresponding to the selected plurality of user devices.
US10484483B1
In general, embodiments of the technology relate to a method for providing software functionalities to users of multi-tenant applications via inheritance. The method includes defining a functionality to be inheritable by a tenant application, in a master application, including selecting the functionality from a set of implemented functionalities, and defining a scope for the selected functionality, and publishing the master application. The method further includes, after publishing the master application, receiving a request to generate a tenant application. The request specifies the master application and the functionality to be inheritable by the tenant application. The method also includes generating the tenant application in response to the request. Further, the method includes publishing the tenant application, including the functionality, to a set of users; and receiving a request to access the published tenant application from a user of the first set of users.
US10484482B2
A communication device comprising: a tag reader (202) configured to: —read an identification tag signal (204) comprising an identification indication of a target communication device (105), a discovery module (206) configured to: —send a discovery request (210) to a registration service infrastructure (205), comprising the identification indication, —receive a discovery response (211) from the registration service infrastructure (205), comprising network location information of the target communication device (105), a session control module (207) configured to: —send a shift request (209) to a home communication node (107) for shifting a communication session from the initial communication device to the target communication device (105), wherein the home communication node (107) handles all communication sessions with the initial communication device, the shift request (209) comprising the network location information of the target communication device (105), —terminate the communication session with the remote communication device (105).
US10484481B2
A network device to mitigate interruptions in content downloading from a content server to a client device in a client-server network is disclosed. The device includes a recovery module (RM) to migrate a data transfer connection from a first server to a second server responsive to detection of an interruption in data transfer from the first server. The migrated data transfer connection may include an instruction associated with an amount of data transferred prior to the interruption in data transfer.
US10484480B2
A computer-implemented method according to one embodiment includes receiving, at a server device, characteristics of a plurality of historical events from a plurality of client devices, receiving, at the server device, historical data sharing behavior associated with the plurality of historical events from the plurality of client devices, saving, by the server device, the characteristics of the plurality of historical events in association with the historical data sharing behavior, and automatically implementing, by the server device, one or more data sharing actions in response to an initialization of an event, utilizing the characteristics of the plurality of historical events and the historical data sharing behavior.
US10484478B2
A controller in a building management system (BMS) includes an integrated wireless network processor chip. The integrated wireless network processor chip includes a wireless radio, a processor, and memory. The wireless radio is configured to exchange data communications with one or more BMS devices controlled by the controller. Both the processor and memory are in communication with the wireless radio and located on the same chip as the wireless radio. The memory includes communication stacks configured to facilitate communications using a building automation and control network communications protocol and a WiFi communications protocol. The integrated wireless network processor chip receives data from the BMS devices via the wireless radio, formats the data using the processor, stores the data in the memory, and sends the data via the wireless radio without requiring any additional processing or communications components outside the integrated wireless network processor chip.
US10484468B2
Disclosed are a method and a device for downloading a file. The method includes: when receiving a download request of a file, acquiring attribute information about the file, and learning information about the length of the file according to the attribute information about the file; when the length of the file goes beyond a preset value, segmenting the download request into at least two fragments of download requests; sending the at least two fragments of download requests to at least two data nodes to request to download corresponding fragments, and obtaining the at least two fragments; and according to the at least two fragments obtained by download, obtaining the file. By segmenting the download request into a plurality of fragments of requests, the present invention achieves the parallel download of the plurality of fragments of requests, thereby greatly improving the download efficiency of a file.
US10484466B2
Computing technology for a transportation vehicle is provided. For example, the computing technology executes a method for generating an encrypted message by a computing device for a passenger of a transportation vehicle, based on an identifier identifying the transportation vehicle and a passenger seat identifier identifying a passenger seat; providing the encrypted message to a processor executable entertainment system of the transportation vehicle; decrypting the encrypted message and validating the passenger seat identifier based on an authorized login by the passenger to the entertainment system while the passenger is on the transportation vehicle; and after validation, presenting the decrypted message to a device accessible to the passenger.
US10484463B2
The disclosure provides a load balancing system, a load balancing device and a topology management method. The topology management method includes configuring and maintaining a transmission progress value for each of edge servers; grouping the edge servers into server groups, wherein the edge servers of each of the server groups provide one of a plurality of video streams, and each of the edge servers is grouped into at least one server group among the server groups; selecting a first video stream from at least one video stream corresponding of a first edge server having bandwidth usage rate higher than a high load threshold; synchronizing video data of the first video stream to a second edge server; setting a transmission progress value of the second edge server as a transmission progress value of the first edge server; and adding the second edge server into the server group corresponding to the first video stream.
US10484461B2
Systems are provided for logging transactions in heterogeneous networks that include a combination of one or more instrumented components and one or more non-instrumented components. The instrumented components are configured to generate impersonated log records for the non-instrumented components involved in the transaction processing hand-offs with the instrumented components. The impersonated log records are persisted with other log records that are generated by the instrumented components in a transaction log that is maintained by a central logging system to reflect a complete flow of the transaction processing performed on the object, including the flow through the non-instrumented component(s).
US10484460B2
Techniques for facilitating operations in hybrid cloud computing systems are disclosed herein. In one embodiment, a method can include receiving, at a public cloud, a plurality of applications deployable in a private cloud and informing an access service of the public cloud computing system regarding the received applications deployable in the private cloud. The method also includes receiving, from a connection service of the private cloud, a request for a list of the received applications available at the public cloud and deployable in the private cloud. The method further includes in response to the received request, selectively identifying to the private cloud the list of applications based on a service subscription associated with the connection service.
US10484452B2
An approach is provided for sharing electronic documents during electronic meetings. Client devices of meeting participants are configured with a file sharing application that allows participants of an electronic meeting to request and receive, during the electronic meeting, electronic documents that are displayed during the electronic meeting. The file sharing application allows presenters to review and approve or deny requests for electronic documents, and to apply security restrictions to electronic documents on a participant-by-participant basis. Security restrictions may also be specific to particular electronic meetings and access to electronic documents shared during electronic meetings may be restricted to users who were participants of the electronic meetings. The approach is not limited to files per se and is applicable to sharing any type of data in any format or structure.
US10484445B2
An apparatus and a method for transmitting multimedia data in a broadcast system are provided. A method for constructing a payload for a multimedia frame to be transmitted via a heterogeneous network, in a broadcast system that supports an Internet protocol-based multimedia service, includes dividing the data so as to transmit data of at least one media type and constructing a data region based on each datum of the divided data, constructing a header region including information on the state of the data contained in the data region and/or information on the data region, and combining the data region and the header region to construct a payload for the multimedia frame.
US10484444B2
A mobile information device includes a first obtaining unit, a second obtaining unit, a reproduction unit and an issuing unit. The first obtaining unit obtains data by using a first line. The second obtaining unit obtains data by using a second line. The reproducing unit conducts streaming reproduction of the data obtained by one selected from the first obtaining unit and the second obtaining unit. The issuing unit divides unobtained data in neighborhood of a reproduction position for streaming reproduction of the obtained data and issues a task of executing obtainment of data to one selected from the first obtaining unit and the second obtaining unit, for each of the positions at which the data is divided.
US10484443B2
A network system includes a server, and the server distributes content and its presentation schedule to a content presentation apparatus at a distribution destination in accordance with an operation performed by an administrator. At this time, not only the business hours in a place where the server is installed and the business hours in a place where the content presentation apparatus is installed, but also the time difference is taken into consideration. When the time difference is taken into consideration, the server distributes content and its presentation schedule to the content presentation apparatus at the distribution destination outside the overlapping business hours in both places.
US10484439B2
A spectating system that stores audiovisual (A/V) content for broadcasts and collects and stores spectating data including spectator interactions with the broadcasts and broadcast content, and that exposes the data and A/V content to consumers such as game developers, online merchants, or broadcasters. The spectating system temporally correlates the spectating data and A/V content so that consumers can review portions of video, audio, and/or text from broadcasts that may be related to particular spectator behaviors as indicated by respective spectating data. The spectating data may also be spatially mapped to the spectating interface so that consumers can determine spectator interest in and interactions with various broadcast content. The spectating data may include data specific to a broadcast, a plurality of broadcasts, a game, or a plurality of games.
US10484437B2
Mobile devices, such as a smartphone, tablet or wearable, are leveraged to facilitate remote support between a user of the device, and a remote technician. In this approach, the mobile device is used as a tool on behalf of the remote technician. In particular, and in one embodiment, the mobile device is used to transfer images to the remote technician's desktop. The remote technician desktop is provisioned with a whiteboard functionality by which the remote technical draws on the camera image that the remote technician is then viewing. The resulting annotation(s) are then transferred back over the network and drawn on the end user's camera view. In this manner, the technician highlights any area of the camera image, and those highlights are visible on the end user mobile device regardless of whether the local end user rotates the view or moves the mobile device camera during the support session. In an alternative embodiment, collaborative support is provided between or among the user and one or more technicians using a two-way, bi-directional smart whiteboard.
US10484430B2
A JIT service in a cloud computing environment manages just-in-time access to resources in the cloud computing environment for DevOps personnel who do not have persistent access to restricted data or the ability to modify the cloud computing environment to gain access to restricted data. When JIT access to a resource is requested by a DevOps device, the JIT service retrieves a JIT policy for the resource that includes screening criteria limiting automatic granting of JIT access to DevOps personnel who meeting the screening criteria. Screening information for the DevOps personnel is evaluated against one or more screening requirements set forth by the screening criteria. If the screening criteria and any other criteria of the JIT policy are satisfied, the JIT service provisions JIT access to the resource for the DevOps device.
US10484429B1
Systems, methods, and computer-readable media are disclosed for automated sensitive information and data storage compliance verification. In one embodiment, an example method may include determining a software application stored at a database, determining software code of the software application, and determining that the software code includes a function that accesses critical user information. Example methods may include determining a risk score for the software application based at least in part on the function, and determining a compliance level for the software application based at least in part on the function.
US10484428B2
The present application is directed a computer-implemented method for enhancing security. The method includes a step of sending, from a VPN service provider, a request to a cloud provider to create a dynamic server on a cloud. Then, the VPN service provider receives a notification from the cloud provider that the requested server is available on the cloud. Subsequently, the VPN service provider embeds the dynamic server with a VPN service. Further, the VPN service provider sends a credential of the dynamic server to an entity on the network. The application is also directed to system for enhancing security on a cloud server.
US10484424B2
A method for security protection of account information is provided, where the method includes: detecting an account input event on an accessed web page; determining, when the account input event is detected, whether a URL of the accessed web page exists in a preset secure URL list; calculating, if the URL of the accessed web page does not exist in the secure URL list, a page similarity between the accessed web page and a preset real web page according to the URL and/or web page content of the accessed web page; and determining, according to the page similarity, whether the accessed web page has a security risk, and if yes, displaying an account security risk alert. The method preventing a user from being induced by a malicious website to input an account and a password. A system for security protection of account information is further provided.
US10484413B2
A system and a method for detecting anomalous activities in a distributed and decentralised network is provided. Anonymous users transacting in the network are identified and one or more transactional attributes are retrieved to define characteristics of users and associated transactional behaviour with other users. Further, user-level statistics are evaluated based on transactional attributes. Datatype representative of transactional behavior of users with other users is generated using user-level statistics of identified users. Users with similar transactional behavior are classified based on generated transactional attributes. One or more anomaly detection techniques are implemented for identifying optimum classification of users into data clusters based on the change detected in the classification of users in data clusters. Anomalous users are identified from the optimum classification for efficiently and effectively detecting anomalous activities in the network.
US10484392B2
A device can receive a request to deploy, on the device, a container associated with a tenant. The request can include information identifying one or more parameters related to the container. The device can configure, for the container, an Internet protocol (IP) address that includes information identifying the tenant with which the container is associated. The IP address can permit the container to be reachable from outside of the device. The device can configure an interface for the container to isolate the container from another container deployed on the device. The other container can be associated with another tenant. The tenant and the other tenant can be different. The device can configure a set of rules related to traffic associated with the container. The device can perform an action related to the container after deploying the container with the IP address, the interface, and the set of rules.
US10484380B2
A system that includes a switch, a network authentication server (NAS), and a threat management server. The NAS sends a device identifier for an endpoint device to the threat management server in response to the endpoint device connecting to a port on the switch. The threat management server identifies the endpoint device for removal in response to receiving the device identifier. The threat management server determines the number of times the endpoint device has failed authentication exceeds a first threshold value within a first time period. The threat management server blocks the endpoint device from accessing the network via the port on the switch in response to identifying the endpoint device for removal.
US10484370B2
A method for operating a security element of a mobile terminal with a memory unit includes using a first subscription profile with a first operating system for the security element, and a second subscription profile with a second operating system for the security element. The method involves operating the security element with the first operating system to communicate with the first subscription profile via a first mobile communication network; switching from the first operating system to the second operating system of the security element through a boot loader in the memory unit loading and executing the second operating system following a reboot of the security element; and operating the security element with the second operating system, to be able to communicate with the second subscription profile via a second mobile communication network. A corresponding security element and a corresponding mobile terminal are provided.
US10484363B2
Disclosed is a method and an apparatus for a first device to perform authentication by using Bluetooth LE (Low Energy). The present invention provides a method and an apparatus comprising exchanging capability information with a second device; generating a random code for first authentication through a user authentication service based on the capability information; transmitting a write request message including the generated random code to the second device; receiving a write response message in response to the write request message from the second device; receiving an authentication indication message from the second device, wherein the authentication indication message includes state information indicating success or failure of the first authentication based on the random code; and transmitting an authentication complete message in response to the authentication indication message.
US10484362B2
An information processing apparatus includes multiple input interfaces each capable of receiving a user instruction to perform a management function provided by the information processing apparatus and circuitry that accepts, independently for each one of the multiple input interfaces, a selection that selects an option among multiple options regarding the access to the management function, the multiple options including an option that limits access to the management function and an option that allows access to the management function without authentication and controls access to the management function independently via each of the multiple input interfaces based on the option independently selected for each of the multiple input interfaces.
US10484342B2
Account information, input by a user for data transfer, is received. Identity information associated with the received account information is determined. One or more pieces of account information associated with the determined identity information are determined. The one or more pieces of account information are determined based on a predetermined condition. The one or more pieces of account information include the received account information. The one or more pieces of account information are provided to the user. In response to receiving a user confirmation of the one or more pieces of account information, the data transfer is performed based on the user confirmation.
US10484335B2
Systems and methods to provide improved secure, high speed networking between two or more computers is disclosed. The invention provides a robust and flexible means to readily establish a secure connection between two or more computers using insecure public or private network connections, while eliminating most of the difficulties and issues a user typically experiences with varying virtual private networks (“VPN”) and firewall configurations. The inventive system can be adapted to route traffic across multiple network connections based on a variety of criteria, including without limitation, the importance of any given data, the cost of each means of connection, and/or the performance of each possible means of connecting to the client system.
US10484334B1
An application profile is provided to manage security of an application deployed across two or more cloud computing networks. A user can define in the application profile first and second server groups, a cloud chamber as including the first and second server groups, and a computing flow to the cloud chamber. A firewall rule is generated based on the computing flow. The firewall rule is distributed to the first server group of the cloud chamber. A copy of the firewall rule is distributed to the second server group of the cloud chamber. The first server group is in a first cloud computing network that is provided by a first cloud provider. The second server group is in a second cloud computing network that is provided by a second cloud provider, different from the first cloud provider.
US10484331B1
A technology is provided for security appliance provisioning. In one example, a method includes providing a variety of types of physical security appliances in a service provider environment. A selection may be received identifying a selected security appliance from among the variety of types of physical security appliances for use in a customer virtual infrastructure within the service provider environment. The selected security appliance may be provisioned for use at an edge location of the customer virtual infrastructure. The selected security appliance may be configured to enforce a security policy defined for the customer virtual infrastructure.
US10484315B2
Method of adding user comments on webpages is performed by a computing device. After displaying a webpage including a visual object, the computing device receives a user selection of a portion of the visual object and generates a transparent layer including a comment entry region within the webpage. The comment entry region includes an enlarged visual content of the portion of the visual object as a background. The device then concurrently displays the enlarged visual content of the portion of the visual content in the comment entry region and the remaining portion of the visual object of the webpage that is not selected by the user. After receiving a user comment in a graphical form through the comment entry region, the device sends the user comment and a corresponding user identifier to a server. The server generates a revised webpage by combining the visual object and the user comment.
US10484314B2
A computer-implemented method for providing an input suggestion for a user is disclosed. The computer-implemented method may include identifying an intended recipient of an electronic message input by the user; identifying a location associated with the user and a time associated with the electronic message input by the user; determining the input suggestion for the user based on an input profile of the intended recipient, the location, and the time; and outputting the input suggestion via a user device associated with the user.
US10484309B2
An access point may receive, from a set of electronic devices, one or more buffer status reports that indicate that at least a subset of the electronic devices have uplink data associated with one or more access categories. In response, the access point may create a group of uplink virtual queues for one or more electronic devices in the subset based on the one or more buffer status reports, where a given uplink virtual queue corresponds to a particular access category and a given electronic device. The access point may start one or more backoff counters with a one-to-one correspondence to uplink virtual queues in the group of uplink virtual queues. When a backoff counter for the given uplink virtual queue reaches zero, the access point may transmit a trigger frame to an electronic device in the subset that corresponds to the given uplink virtual queue.
US10484305B2
The disclosed technology herein relates to delivering communications services, and more particularly to portable self-contained rugged systems and methods for providing and supporting communications capabilities in remote areas including but not limited to railway yards.
US10484301B1
Resource allocation techniques for distributed data storage. A set of distributed storage system historical resource usage measurements are collected and stored using distributed storage system measurement techniques. The resource usage metrics are associated with and/or derived from processing entities in the distributed storage computing system. An analysis module determines a training window time period corresponding to a portion of the collected distributed storage system historical resource usage measurements. The training window time period is determined so as to provide an earlier time boundary and a later time boundary that defines a periodically recurring portion of the distributed storage system historical resource usage measurements. A latest cycle of those periodically recurring measurements are then used to train a predictive model, which in turn is used to produce distributed storage system predicted resource usage characteristics. Resource allocation decisions are made based at least in part on predictions from the trained predictive model.
US10484300B2
Providing admission control for a request may comprise creating a process flow associated with the request, the process flow identifying a plurality of computer-implemented components and a flow of transactions occurring between the computer-implemented components; executing the flow of transactions on the plurality of computer-implemented components; monitoring the flow of transactions to detect a problem in the flow; responsive to not detecting a problem in the flow, allowing the request to proceed; and responsive to detecting a problem in the flow, not allowing the request to proceed.
US10484298B2
A method may include, by a network resource optimization system, receiving from a network node a resource request, determining a plurality of network resources based on the resource request, and determining a subset of network resources from the plurality of network resources and a network resource from the subset based on a score of each network resource. The score of each network resource may be based on a rate of acceptance of communication requests received or a number of communication sessions established. The method may include, by the network resource optimization system, transmitting a communication request to the determined network resource and receiving an acceptance from the network resource. The method may include, by the network resource optimization system, causing a selection mechanism to be activated at the network node, receiving from the network node a selection, and initiating the communication session in response to the selection.
US10484294B2
Disclosed are an apparatus and a method for configuring an MMT payload header. The apparatus for configuring an MMT payload header, according to one embodiment, extracts a sequence number of a media processing unit (MPU) comprising one or a plurality of media fragment units, which are to be aggregated into one payload and mapped, and displays the extracted sequence number of the MPU on the MMT payload header. Specifically, the apparatus for configuring an MMT payload header displays the sequence number commonly associated with a plurality of MFUs on the header only once, when the plurality of MFUs in one payload are aggregated in the one payload and mapped.
US10484292B2
An information processing apparatus includes a radio module which wirelessly transmits and receives a packet through synchronous communication to and from another apparatus and a first controller. The first controller determines whether or not the packet transmitted from the radio module has been received by another apparatus, and selects, when reception of a previously transmitted packet by the another apparatus is not confirmed, between retransmission processing for retransmitting the previously transmitted packet and non-retransmission processing for transmitting another packet instead of the previously transmitted packet depending on a content of the previously transmitted packet.
US10484289B2
Some embodiments provide a method for reducing the transmission of connection validating control signals when they are not needed. Network entities transmit connection validating control signals over network connections at regular intervals to validate that the network connections and the network entities remain functional. The method monitors data traffic fluctuations on the network connections to determine when connection validating control signals may not be needed. The method reduces unnecessary connection validating control signals in order to optimize the usage of network resources.
US10484288B2
Aspects of the present disclosure include a content delivery network (CDN) for delivering content associated with a plurality of different types of applications/devices. Using a CDN flow application, a plurality of network flow parameters are generated for content delivery unique to different types of applications or devices. The network flow parameters include customized data transmission rates. The network flow parameters include predetermined settings for transmission control protocol (TCP) connections between the CDN and devices using a TCP flow control mechanism. Upon receiving a content request, the CDN fulfills the content request based upon first network flow parameters. The network flow parameters may be adjusted for each of the plurality of different types of applications/devices. The network flow parameters may be generated based upon requests or based upon the performance of each of the plurality of applications/devices.
US10484280B2
An operation method of a first communication node comprises: receiving a first frame from a second communication node; obtaining a destination address of the first frame; and transmitting a second frame including an indicator for indicating an occurrence of an error in the first frame to a communication node corresponding to a source address of the first frame, when a port corresponding to the destination address does not exist in a routing table.
US10484277B2
Example methods and apparatus to measure market statistics are disclosed. A disclosed example method includes identifying, by executing an instruction with a processor, a household including self reported data stored in a data source, retrieving, by executing an instruction with the processor, an Internet protocol (IP) address from the household, identifying, by executing an instruction with the processor, a hostname label based on a reverse resolve of the IP address, determining whether the hostname label matches the self reported data, with the processor, and when the hostname label matches the self reported data, correcting, by executing an instruction with the processor, an error metric of the data source by adjusting a weight value associated with the self reported data.
US10484274B2
Examples of the present disclosure provide a VM packet controlling method and apparatus, applicable for an OpenStack network. The OpenStack network includes an OpenStack controller node, an OpenStack compute node, and a virtual network system. The OpenStack network is communicatively connected with an SDN controller, the virtual network system includes a VM and a virtual network apparatus responsible for forwarding packets of the virtual machine. The OpenStack controller node creates a port for the VM, informs the SDN controller of a port UUID and a forwarding rule applied on the port; the OpenStack controller node receives a port ID, and transmits a corresponding relationship between the port ID and the port UUID to the SDN controller, the SDN controller generates a flow table according to the forwarding rule applied on the port, and issues the flow table to the virtual network apparatus according to the corresponding relationship.
US10484266B2
Described embodiments provide systems and methods for performing multi-stream routing. A device may determine that a server is capable of handling multi-stream protocol connections. The device may identify packets communicated between the client and the server via a first interface for a first connection between a client and the server. The device may estimate, based on the packets, a link quality for each second interface for communicating with the server. The device may identify a policy to apply to the packets. The device may select one of the second interfaces for communicating packets between the client and the server based on a configuration mapping, the link quality, and the policy. The configuration mapping may specify which second interface is to be selected using a mapping of the link quality and the policy. The device may establish a second connection between the client and the server using the selected interface.
US10484250B2
A method for optimizing network performance includes receiving data related to one or more network metrics, and determining whether the received data is to be used for creating a new model or updating an existing model that represents a recurring pattern in the received data to be used to predict or detect one or more network events. If the received data is not to be used for creating the new model or updating the existing model, then apply the data to the existing model. The method further includes determining a configuration related to one or more network devices based on the received data being applied to the determined model, and configuring the one or more network devices according to the determined configuration.
US10484247B2
The setting of a value of the transmission control parameter for a transmission of data on a multi-hop relay radio link of a cellular network is controlled. Said controlling is based on a route time of a packet transmitted between end nodes of the multi-hop relay radio link. E.g., the transmission control parameter may relate to a property of an Automatic Repeat Request protocol.
US10484242B2
A dynamic cloud stack configuration system includes a cloud network, which comprises cloud components. A cloud stack server is coupled to the cloud network. The cloud stack server includes an interface, a memory, and a cloud stack configuration engine implemented by a processor. The interface receives a cloud stack request from a user device, which includes functionality parameters. The memory stores historic cloud stack configurations and each is associated with functionality parameters. The cloud stack configuration engine identifies cloud components associated with the functionality parameters. The cloud stack configuration engine further determines a cloud stack configuration, and determines whether the cloud stack configuration is an optimal cloud stack configuration by analyzing the historic cloud stack configurations. In response to determining that the cloud stack configuration is optimal, the cloud stack configuration engine further constructs the cloud stack configuration, and implements it at the user device.
US10484235B2
An operation method of a first communication node includes: measuring a magnitude of a current supplied to a second communication node through a data line in the vehicle network; comparing the measured magnitude of the current with a predetermined threshold value; generating an address resolution protocol (ARP) frame including fault-related information when the second communication node is determined to be in a fault state based on a result of the comparison; and transmitting the ARP frame.
US10484234B1
Systems and methods are provided for receiving a notification of an issue with a cloud services application, determining that troubleshooting of the issue comprises review of server logs containing personal data, enabling a data protection and privacy log level instead of a default log level to capture the personal data, generating the one or more server logs containing personal data during replication of the issue based on detecting that the data protection and privacy log level is enabled, indexing the one or more server logs containing personal data and setting access permission to the one or more server logs, detecting that a specified retention time period for the personal data has lapsed, automatically purging the personal data of the one or more server logs based on detecting that the specified retention time period has lapsed, and recording a record that the personal data has been purged.
US10484227B2
A correlation processor derives a correlation value indicating correlation between each of a plurality of reference signals produced by extracting symbols from the synchronization signal of each pattern at a predetermined interval and a received signal. A controller compares the correlation value for each pattern and for each sample derived by the correlation processor with a threshold value and, when at least one correlation value is larger than the threshold value, changes symbols extracted to produce respective reference signals before causing the correlation processor to perform the same process, incorporating the received signal newly acquired. A first selector selects one of the plurality of patterns when all symbols of the synchronization signal have been extracted to produce the reference signals and at least one correlation value is larger than the threshold value.
US10484223B2
A user equipment (910) is provided for use in a cellular network. The user equipment includes a transceiver (1010), a processor (1020), and a memory (1030). The user equipment (910) is configured to determine, for a data transmission, a mapping form a demodulation reference signal (DMRS) to a PNT-RS. A DMRS resulting signal is generated from a subset of DMRS for a first resource element in a subcarrier. The DMRS resulting signal is copied from the first resource element to a second resource element assigned to the PNT-RS in the subcarrier. The data transmission is transmitted using the DMRS resulting signal and the PNT-RS.
US10484219B2
A method of wireless communication by a user equipment includes determining an allocation of a set of tones in a symbol for conveying data. The method further includes determining to use m-ary phase shift keying (MPSK) to modulate the data onto a subset of tones of the set of tones. The method further includes modulating the data onto the subset of tones based on a mapping, wherein the mapping maps pairs of data values with a largest Hamming distance from each other to pairs of constellation points with a maximum Euclidean distance from each other.
US10484213B2
A circuit and method in an amplifier circuit for filtering a DC offset in differential input signals and inserting a programmable adjustable crosspoint offset in differential output signals. An amplifier circuit includes a differential amplifier circuit configured to amplify differential input signals into differential output signal. The amplifier circuit further includes a feedback circuit coupled between the differential output signals and the differential input signals. The feedback circuit is configured to generate a programmably adjustable crosspoint offset in the differential output signal and a programmably adjustable cutoff frequency of the feedback circuit. An amplifier method includes amplifying differential input signals into differential output signals, generating a programmably adjustable crosspoint offset in the differential output signal, and generating a programmably adjustable cutoff frequency of a feedback circuit between the differential output signals and the differential input signals.
US10484209B2
This document discloses a data transmission method and apparatus. The method includes: obtaining N data symbols to be sent; determining N complex sequences to be used; processing the N data symbols using the N complex sequences respectively to generate N data symbol sequences; superimposing the N data symbol sequences to generate a superimposed data symbol sequence; and sending the superimposed data symbol sequence; where N is an integer number greater than or equal to 2.
US10484208B2
A structure detection system and method for detecting anomalies associated with the structure are provided. The system includes a first transceiver, a second transceiver, and a processor. In a first TR test, the second transceiver receives a first probing signal sent from the first transceiver and performs a time-reversal (TR) process to generate a first TR signal to be sent to the first transceiver, and a first channel state information (CSI) is obtained in response to the first TR signal. In a second TR test, the first transceiver receives a second probing signal sent from the second transceiver and performs the TR process to generate a second TR signal to be sent to the second transceiver, a second CSI is obtained in response to the second TR signal. The processor compares a combination of the first CSI and the second CSI to a reference CSI for detecting anomalies.
US10484207B2
The present disclosure relates to a pre-5th-Generation (5G) or 5G communication system to be provided for supporting higher data rates Beyond 4th-Generation (4G) communication system such as Long Term Evolution (LTE). The present disclosure provides a channel estimation method and apparatus by a reception end. The reception device includes a receiver and a controller. The receiver receives a reference signal. The controller identifies a first set of channel values for resources allocated for reference signals. The controller performs interpolation on the first set of channel values so as to identify second set of channel values for remaining resources. The interpolation method is determined based on at least one of Doppler frequency of a channel and channel quality. The controller processes received signals using the first set of channel values and the second set of channel values.
US10484204B2
This application provides a data processing method and apparatus. The method includes: receiving, by a first VNFC a first data packet and a flow label of the first data packet that are sent by a second VNFC, where the flow label is generated by the second VNFC according to flow information of the first data packet or is received by the second VNFC from a third VNFC; and selecting, by the first VNFC according to the flow label, a first processing node configured to process the first data packet, where the first processing node is a processing node in the first VNFC. By means of the method in this application, system consumption can be reduced, and processing efficiency of a data packet can be improved.
US10484203B2
This application discloses a method for implementing communication between an NVO3 network, to implement inter-AS communication between an NVO3 network and an MPLS VPN network. The method includes: obtaining an identifier of a PE device in the MPLS network and an MPLS label allocated by an ASBR in the MPLS network; allocating an IP address for the MPLS label from a local address pool; sending routing information to an NVE, where the routing information includes an identifier of the PE device and the allocated IP address, and the allocated IP address is used as an outer destination address of an NVO3 encapsulated packet sent by a TES in the NVO3 network to a CE device connected to the PE device in the MPLS network.
US10484200B2
Provided are a CAN communication system and an error information recording device that may be expected to facilitate identification of the cause of any error occurring in communication. The monitoring device is connected to a CAN bus and determines whether or not an error is included in a message transmitted by an ECU. In the case where an error is included in the transmitted message, the monitoring device records, in the recording unit, information concerning the error in the message as error information. Furthermore, the monitoring device comprises the CAN controller performing communication in accordance with the CAN protocol and the processor performing various types of information processing. The CAN controller may determine whether or not an error is included in message transmission, and if determined that an error is included, may notify the processor of the CAN-ID attached to the message by an interrupt.
US10484197B2
An IoT communication method, including: receiving via an account of the communication end, access information or control information sent from an account of a user end. The access information includes an identifier of a source terminal and an access command which accesses status information of the source terminal. The control information includes the identifier of the source terminal and a control command which controls the source terminal, the account of the communication end and the account of the user end are bound to each other in instant messaging software; sending the access command or the control command to the source terminal specified by the identifier of the source terminal; obtaining source information which the source terminal returns in response to receiving the access command or the control command from the communication end; sending, via the account of the communication end, the source information to the account of the user end.
US10484181B2
A system and method that generate digests for data transactions provide non-repudiation of collected data. Meta data based on the Data DNA modeling are collected for all data transactions in a system. The digest of the data transactions is encrypted. A digest is also generated for user sessions and time periods. The digests are recorded as part of Data DNA records and can be used for validation of data transactions in the system.
US10484180B2
Digital data locker system providing enhanced security and protection for data storage and retrieval
The subject matter herein is directed to a digital data locker that acts as an intermediary between end users operating end user device and document providers. The data locker provides the end user with a secure and easy way to manage, store, and retrieve data that is stored at the document providers. Specifically, the features provided by the data locker include, but are not limited to, a dual level of encryption for data, content assurance to determine whether the data is corrupted, and dissociation between an identity of an end user and the data of the end user stored at the document providers. More specifically, an end user device operated by the end user, through use of a single application, may access the data locker to securely store and retrieve data on/from the document providers.
US10484172B2
Techniques are disclosed relating to relating to a public key infrastructure (PKI). In one embodiment, an integrated circuit is disclosed that includes at least one processor and a secure circuit isolated from access by the processor except through a mailbox mechanism. In some embodiments, the secure circuit is configured to generate a public key and a private key for an application, and receive, from the application via an API, a request to perform a cryptographic operation using the private key. The secure circuit is further configured to perform the cryptographic operation in response to the request.
US10484168B2
Aspects of the present invention provide systems and methods that facilitate computations that are publically defined while assuring the confidentiality of the input data provided, the generated output data, or both using homomorphic encryption on the contents of the secure distributed transaction ledger. Full homomorphic encryption schemes protect data while still enabling programs to accept it as input. In embodiments, using a homomorphic encryption data input into a secure distributed transaction ledger allows a consumer to employ highly motivated entities with excess compute capability to perform calculations on the consumer's behalf while assuring data confidentiality, correctness, and integrity as it propagates through the network.
US10484165B2
Data words are received in parallel in response to an edge of a master clock signal and selected for serial output in response to a select signal. For a detected temporal offset of the serially output data words, the generation of the select signal and the master clock signal are controlled to correct for the temporal offset by shifting timing of the edge of the master clock signal and adjusting a sequence of values for the select signal that are generated within one cycle of the master clock signal. For a backward temporal offset, at least one count value in the sequence of values is skipped and the edge of the master clock signal occurs earlier in time. For a forward temporal offset, at least one count value in the sequence of values is held and the edge of the master clock signal occurs later in time.
US10484154B2
An embodiment of the present disclosure provides a preamble configuration method on an unlicensed carrier, the method includes: configuring a Physical Random Access Channel (PRACH) configuration message, the PRACH configuration message including subframe location information, first Clear Channel Assessment (CCA) interval location information, a channel detection mechanism, preamble format information, and preamble sending location information. The subframe location information indicates a location of a subframe where M to-he-transmitted preambles are located, The first CCA interval location information represents a location of a CCA interval before each preamble in the M to-be-transmitted preambles on the subframe or on a previous subframe of the subframe. The channel detection mechanism is used for indicating whether user equipment detects that the unlicensed carrier is in an idle state. The preamble format information indicates that the to-be-transmitted preambles are format 4 preambles.
US10484134B2
A method for channel encoding in a communication or broadcasting system is provided. The method includes determining a block size Z, and performing encoding based on the block size and a first matrix corresponding to the block size, wherein the first matrix is determined based on information and a plurality of second matrices, and wherein a part of a column index indicating a position of a non-zero element in each row of the information includes an index according to mathematical expression 22 above.
US10484130B2
Embodiments of this disclosure enhance the error detection performance of parallel polar encoding by cross-concatenating parity bits between segments of information bits transmitted over different sets of sub-channels. In one embodiment, a first segment of information bits is transmitted over a first set of sub-channels, and at least a second segment of information bits, and a masked parity bit, are transmitted over a second set of sub-channels. A value of the masked parity bit is equal to a bitwise combination of a first parity bit computed from the first segment of information bits and a second parity bit computed from the second segment of information bits. The bitwise combination may be a bitwise AND, a bitwise OR, or a bitwise XOR of the respective parity bits.
US10484124B2
An optical network communication system utilizes a passive optical network including an optical hub having an optical line terminal, downstream transmitter, an upstream receiver, a processor, and a multiplexer. The upstream receiver includes a plurality of TWDMA upstream subreceivers. The system includes a power splitter for dividing a coherent optical signal from the optical hub into a plurality of downstream wavelength signals, a long fiber to carry the coherent optical signal between the optical hub and the power splitter, and a plurality of serving groups. Each serving group includes a plurality of optical network units configured to (i) receive at least one downstream wavelength signal, and (ii) transmit at least one upstream wavelength signal. The system includes a plurality of short fibers to carry the downstream and upstream wavelength signals between the power splitter and the optical network units, respectively. Each upstream subreceiver receives a respective upstream wavelength signal.
US10484122B2
Embodiments of the present invention provide an optical add/drop multiplexer, including a plurality of tunable optical add/drop multiplexers T-OADMs. Each T-OADM includes a second wavelength control unit and two grating-assisted filters GAFs. The second wavelength control unit is connected to a second GAF. A drop port of a first GAF is connected to an input port of the second GAF. An add port of the first GAF is connected to an output port of the second GAF. An input port of the first GAF receives light waves of a plurality of wavelengths. The first GAF transmits a first light wave to the input port of the second GAF through the drop port of the first GAF. The second wavelength control unit changes a dropped spectrum of the second GAF based on first amplitude of wavelength shift, to obtain a first light wave response.
US10484113B1
A method of selecting a data transmission rate for transmitting a packet from a transmitting node to a receiving node in a wireless communication system. An updated predictive received signal quality indicator value reflecting signal quality expected to be experienced by the receiving node on the packet received from the transmitting node is obtained, as is a best instance data transmission rate corresponding to a received signal quality indicator sub-range that includes the obtained updated predictive received signal quality indicator value. The packet from the transmitting node is transmitted to the receiving node using the obtained best instance. The transmitting node periodically performs a test procedure wherein a packet is instead transmitted using a test instance selected among the set of instances for the received signal quality indicator sub-range that includes the obtained updated predictive received signal quality indicator value.
US10484111B2
In some embodiments, a transmitter has a first mode and a second mode. The transmitter is configured to repeatedly send discrete first wireless signals carrying transmitter identification information uniquely associated with the transmitter in the first mode and to send a second wireless signal carrying the transmitter identification information in the second mode. A receiver is configured to receive a wireless signal of the first wireless signals such that the receiver is activated by the wireless signal of the first wireless signal and, in response to receiving the wireless signal of the first wireless signals, to send a third wireless signal carrying the transmitter identification information to the transmitter. The transmitter is configured to transition from the first mode to the second mode in response to receiving the third wireless signal and determining that the third wireless signal includes the transmitter identification information uniquely associated with the transmitter.
US10484097B2
According to one embodiment, a communication repeater system includes a master station device, slave station devices, radio frequency units that convert signals from base station systems into optical digital signals for transmission to the master station device. The base station systems establish communication by time-division duplex scheme. The communication repeater system repeats communication between a mobile communication terminal device and each base station system via a corresponding slave station device. At least one of the radio frequency units and the master and slave station devices includes a learning-signal input port, and a setter that generates a reference transmission/reception switching timing signal based on a learning signal input to the learning-signal input port and sets the generated signal as reference transmission/reception switching timing. The rest of the units and the devices each include a corrector that corrects variation in transmission/reception switching timing according to the reference transmission/reception switching timing.
US10484095B2
An apparatus for simultaneously receiving and transmitting data in space may include a receiver configured to receive an incoming beam transmitted from a source along a receive vector between the source and the receiver. The apparatus may also include a transmitter to generate a transmitted beam along a transmit vector. The apparatus may further include a single-axis gimbal configured to rotate the transmit vector about an axis substantially perpendicular to the receive vector, and an attitude-control system configured to rotate the apparatus about an axis parallel to the receive vector or the transmit vector.
US10484092B2
In one aspect, the present disclosure relates to a self-identifying optical transmitter for broadcasting a one-way authentication code using light-based communication. The transmitter may include a memory for storing an identifier of the transmitter, a processor for generating a data signal including an identifier of the transmitter, a modulator for receiving the data signal and generating an electrical signal, the modular generating the electrical signal by modulating the data signal. The transmitter may also include a light source for receiving the electrical signal, converting the electrical signal into an optical signal, and continuously broadcasting the optical signal as an optical data transmission stream. The optical data transmission stream may be used to verify that a receiving mobile device is near the transmitter. The transmitter may also include an optical surface for dispersing the optical data transmission stream as the optical data transmission stream is emitted from the transmitter.
US10484087B2
An optical transmission device includes a first light emitting element, a second light emitting element, and a detection unit. The first light emitting element is configured to emit light. The second light emitting element is configured to emit light. The second light emitting element is connected in parallel with the first light emitting element and is configured to deteriorate earlier than the first light emitting element. The detection unit is configured to detect whether the second light emitting element is deteriorated.
US10484085B2
The present disclosure relates to the technical field of communications. Disclosed are a signal transmission method and device, and a terminal, which can improve the reliability of receiving a signal. The present disclosure is applied to a signal transmission system. The signal transmission system comprises: a first antenna and a global system for mobile communications (GSM) transceiver, wherein the GSM transceiver sends a GSM low-frequency signal to the first antenna, and the first antenna receives a GNSS signal and the GSM low-frequency signal sent by the GSM transceiver. The present disclosure is applicable to receiving a GNSS signal and a GSM low-frequency signal by using one antenna.
US10484078B2
An active repeater device includes a primary sector and one or more secondary sectors, receives a first beam of input RF signals. A first set of analog baseband signals, are generated based on received first beam of input RF signals. The first set of analog baseband signals are converted to a first set of coded data signals and control information is extracted from the first set of coded data signals by decoding only a header portion of the first set of coded data signals without demodulation of data portion of the first set of coded data signals. Based on the extracted control information, the first set of coded data signals are transmitted as beams of output RF signals to remote user equipment. The transmission is independent of demodulation of the data portion within the active repeater device to reduce latency for transmission of the first set of coded data signals.
US10484077B2
Beamforming for radio communication (uplink) from a relay apparatus to a donor base station is performed accurately. A relay apparatus 20 is a relay apparatus 20 for relaying communication between a terminal device 10 and a donor base station 30 and includes: an amplitude and phase measurement unit 25 that measures an amplitude and phase of radio communication from the donor base station 30 to the relay apparatus 20; and a beam adjuster 27 that performs beamforming with respect to the donor base station 30 by adjusting amplitudes and phases from a plurality of antennas used at the relay apparatus 20 by measuring the amplitude and the phase by using the amplitude and phase measurement unit 25, wherein during a time slot when the terminal device 10 does not exist in a service area of the relay apparatus 20, the relay apparatus 20 detects no existence of the terminal device 10 in the service area and stops access radio, the amplitude and phase measurement unit 25 measures the amplitude and the phase, and the beam adjuster 27 performs the beamforming with respect to the donor base station 30, after which the access radio is restarted.
US10484069B2
Embodiments of the present invention provide a method for feeding back channel state information, a user equipment, and a base station, to improve feedback precision of channel state information. The method includes: receiving a reference signal sent by a base station; selecting a precoding matrix W from a codebook according to the reference signal, where a column vector of the precoding matrix W may be expressed as α[v ejϕv]T, v=[1 ejθ]; and sending a precoding matrix indicator PMI to the base station, where the PMI is corresponding to the selected precoding matrix W. The present invention may further improve quantization precision and achieve balance between overheads and the quantization precision. The base station performs precoding on a sent signal according to a fed back precoding matrix indicator, which can improve precoding precision, thereby improving a data transmission rate and system throughput.
US10484066B2
Methods, systems, and devices for wireless communication are described. In aspects of the present disclosure, a user equipment (UE) may report metrics (e.g., received signal power, beam identifier) about synchronization signal (SS) beams using the same (e.g., or a similar) framework that is used for channel state information reference signal (CSI-RS) reporting. Because SSs are intended to be broadcast across a wide coverage area in a beamformed manner, the SSs represent a promising complement to existing beam management techniques. Accordingly, beam management may be achieved at least in part based on reporting one or more metrics of beamformed SSs through a channel feedback framework.
US10484056B2
A test device for simulating analog beams applied to a DUT includes a memory that stores instructions and a processor that executes the instructions. When executed by the processor, the instructions cause the test device to perform a process that includes obtaining, from the memory and based on instructions received for testing the DUT, a predetermined power level for a beam to be simulated for the DUT and a predetermined time delay for the beam to be simulated for the DUT. The process also includes applying the predetermined power level for the beam and the predetermined time delay for the beam to a set of subcarriers and cyclic prefix orthogonal frequency-division multiplexing (CP-OFDM) symbol to obtain simulated characteristics of the beam from the perspective of the DUT. The process also includes sending, over a wired connection, the simulated characteristics of the beam from the processor to the DUT.
US10484055B2
A rate-adaptive method of communicating over a multipath wireless communication system uses multiple links such that each end of a link uses multiple transmit and receive antennas. A number of independent streams that are to be transmitted for each link is determined based on an overall system performance measure. In addition, the system may also jointly determine the best modulation, coding, power control, and frequency assignment for each link, based on an overall system performance measure. In OFDM systems, the number of independent streams, as well as the modulation, coding, and power control, may be determined on a tone-by-tone basis based on an overall system performance measure.
US10484047B2
The invention relates to a mobile network subscriber (10) for use in a cabled network (1), particularly in a collector wire network of an electric telpher, wherein the cabled network (1) has at least one first segment (S1) and at least one second segment (S2) and wherein the mobile network subscriber (10) has a first slave modem (SM1), a second slave modem (SM2), a first contact arrangement (K1) and a second contact arrangement (K2) in each case. In order to allow a change between two segments of a network in a simple and efficient manner, it is proposed that the slave modems (SM1, SM2) be provided for communication with at least one first master modem (MM1) and/or at least one second master modem (M2) via the contact arrangements (K1, K2) and the segments (S1, S2), wherein the mobile network subscriber (10) is provided for movement along the segments (S1, S2), the contact arrangements (K1, K2) of the mobile network subscriber (10) being arranged such that the change from the first segment (S1) to the second segment (S2) involves at least one of the contact arrangements (K1, K2) being connected to the first segment (S1) and at least one further contact arrangement (K1, K2) being connected to the second segment (S2).
US10484045B2
It is presented a method for testing a cable connectable to a remote radio head. The method is performed in a test device and comprises the steps of: generating an outbound test container, the outbound test container comprising digital samples representing a test signal; transmitting the outbound test container and a frequency parameter indicating a frequency on which the test signal is to be transmitted to a converter device being connectable to a plurality of remote radio heads via respective cables, for transmission by the converter device; receiving an inbound test container, the inbound test container comprising digital samples of a response signal received by the converter device based on the outbound test container; and evaluating the inbound test container.
US10484039B2
A duplexer includes a 90° hybrid connected to an antenna terminal, a 90° hybrid connected to a terminating resistor, a transmission-side filter connected to the 90° hybrid connected to the antenna terminal, and notch filters connected to both of the 90° hybrids and mutually having the same filter characteristics, where each of the notch filters is a band elimination filter configured to reflect a radio frequency signal of a transmission band and allow a radio frequency signal of a band other than the transmission band to pass through.
US10484032B2
A light bulb or other lamp device incorporating improved antenna configurations and integrated networking equipment is described herein. In one example, a LED light bulb is arranged to include a wireless transceiver and related wireless network processing circuitry, and is coupled to multiple antennas configured to receive and transmit signals using spatial diversity, beamforming, multiple-input and multiple-output (MIMO), or other multi-antenna techniques. The heat sink in the light bulb may be purposed to provide one or more of the multiple antennas, such as use of respective heat sink structures to serve as a diversity antenna. The wireless network processing circuitry may be used for control of the light bulb or for operability with wireless and non-wireless networks. For example, the network processing circuitry may operate as a wireless network access point, repeater, relay, bridge, or like function.
US10484031B2
A system of communication comprising a mobile device comprising: a processor; a display in communication with to the processor; an accelerometer in communication with the processor; a gyroscope in communication with the processor; a communicator configured to wirelessly transmit and receive signals; and a geo-locator adapted to determine a rider location; wherein the processor receives information from the communicator to create a group and determine a group location; and a method of communication comprising the steps of: the processor monitoring the accelerometer; the processor monitoring the gyroscope; the processor monitoring the geo-locator; determining the group location; determining a crash baseline; monitoring for a crash; sending a crash alert; and sending a user-generated alert.
US10484024B2
A transmission unit includes: a power amplification module that amplifies the power of an input signal and outputs an amplified signal; and a power supply module that supplies a power supply voltage to the power amplification module on the basis of a first control signal corresponding to the band width of the input signal. On the basis of the first control signal, the power supply module varies the power supply voltage in accordance with the amplitude level of the input signal in the case where the band width of the input signal is a first band width and varies the power supply voltage in accordance with the average output power of the power amplification module in the case where the band width of the input signal is a second band width that is larger than the first band width.
US10484021B1
Apparatuses and methods relating generally to a decoder. In an apparatus, a control circuit receives first-third sign signals, a partial sum signal, a function select signal, and a carry signal as an input vector to provide an output sign and a vector select. A select generation circuit receives the first and second sign signals and the partial sum signal to provide an add/subtract select signal. A subtractor subtracts from a first absolute value signal a second absolute value signal to provide the third sign signal and a difference signal. Responsive to the add/subtract select signal, an adder/subtractor either adds or subtracts the first absolute value signal to or from the second absolute value signal to provide the carry signal and a sum/difference signal. A multiplexer selects from the first and second absolute value signals, the difference signal, and the sum/difference signal a selected value signal responsive to the vector select.
US10484020B2
A memory device can include a memory array, a processor coupled to the memory array, and a decoding apparatus. The decoding apparatus is configured to perform parallel decoding of codewords. Each of the codewords has a plurality of data blocks, and each data block having a number of data bits. The decoding apparatus is configured to decode, in parallel, a first codeword with one or more other codewords to determine error information associated with each codeword. For errors in a common data block shared between two codewords being decoded in parallel, the error information includes a data block identifier and associated error bit patterns. Further, the decoding apparatus is configured to update the codewords based on the error information.
US10484009B2
A decoding method and a decoder for a low-density parity-check (LDPC) code, where the method includes dividing, by a decoder, an LDPC code C whose bit length is n into k LDPC codes D={D1,D2,K,Dk-1,Dk}, arranging, by the decoder, Di, i=1,2,K,k−1,k by column to obtain transpose codes DT={D1T,D2T,K,Dk-1T,DkT} of the LDPC codes D, performing cyclic shift on DiT,i=1,2,K,k−1,k by row according to values of corresponding elements in a target check matrix to obtain shift codes E={E1,E2,K,Et-1,Et}, where t is equal to a quantity of rows of the target check matrix, obtaining, by the decoder, t*m groups of LDPC subcodes F1,F2,K,Ftm-1,Ftm according to the shift codes E and a bit length d of the decoder, where Ej is divided into m groups, Ej={(Ej)1d,(Ej)d+12d,K,(Ej)(m-2)d+1(m-1)d,(Ej)(m-1)d+1md}={F(j-1)m+1,F(j-1)m+2,K,Fjm-1,Fjm}, and m=┌l/d┐, and decoding, by the decoder, the m groups of LDPC subcodes to obtain a decoding result of the LDPC code C.
US10484004B2
A delta-sigma modulator comprising: a first loop filter for filtering a first signal to a second signal, a second loop filter for filtering a third signal, a comparator, a register coupled to the comparator, a first capacitor bank and a second capacitor bank parallelly coupled between the second loop filter and the comparator, a first path causing a delayed signal to be linearly combined with an input signal to form the first signal, and a second path causing the delayed signal to be linearly combined with the second signal to form the third signal, wherein the delayed signal may be formed by delaying an output signal of the register.
US10484000B2
A SAR DAC architecture is disclosed. In one aspect, the SAR DAC architecture uses two parallel DACs for performing a comparison and feedback simultaneously. While one DAC executes a feedback step, the output of the other DAC is used as input for a comparator. For fast operation, the comparator performs the comparison with a reference voltage that has a positive or negative offset from a mid-scale value. The sign of the offset is determined by a previous comparison step. As a result, the same delay can be used for each DAC feedback and comparison, reducing the total conversion time to the time needed for N comparisons for an N-bit architecture, which is a reduction of almost a factor of 2 compared to the conventional SAR architecture.
US10483990B2
A frequency compensator, an electronic device, and a frequency compensation method are disclosed. The frequency compensator includes a control circuit and a frequency compensation circuit. The control circuit is configured to generate a frequency control word according to an initial frequency and an target frequency. The frequency compensation circuit is configured to receive an input signal of an initial frequency, and to generate and output an output signal of a compensated frequency according to the frequency control word and the input signal of the initial frequency.
US10483987B1
A method for operating a clock product includes generating a quality determination for a reference clock signal based on frequency metrics for a plurality of independent clock signals. The frequency metrics are generated using the reference clock signal. The method includes generating an output clock signal by locking to an active clock signal selected from the plurality of independent clock signals in response to the quality determination satisfying a predetermined quality metric. For each input clock signal of the plurality of independent clock signals, the frequency metrics include a current average frequency count, a prior average frequency count, a standard deviation of prior average frequency counts, and a multiplicative constant corresponding to a number of samples used to determine the current average frequency count, prior average frequency count, and standard deviation.
US10483986B1
A signal phase aligning system includes a signal generator configured to generate a signal. The system further includes a phase locked loop circuit configured to generate a phase locked loop signal based on the signal generated by the signal generator. The system includes a phase aligning circuit configured to align a phase of the phase locked loop signal with a phase of the signal generated by the signal generator.
US10483984B2
A temperature compensated oscillation controller includes a temperature compensation circuit configured to provide a reference voltage through a first terminal and to receive an input voltage including temperature information through a second terminal, and an oscillation circuit configured to be connected to an external crystal resonator through third and fourth terminals and to output a clock signal in response to an oscillation signal from the external crystal resonator. The temperature compensation circuit is configured to perform a voltage controlled oscillator-based sensing operation to convert the input voltage into a temperature code and to adjust a frequency of the clock signal using the temperature code.
US10483982B2
An apparatus includes a first circuit, a second circuit and a third circuit. The first circuit may be configured to generate a first code by counting a number of cycles of an input clock signal during a period. The period may be determined by an output clock signal and a second code. The second circuit may be configured to generate a third code by a delta-sigma modulation of the first code. The third circuit may be configured to generate the output clock signal in response to the third code. An accuracy of a frequency of the output clock signal may be determined by a current value of the second code.
US10483980B2
In a general aspect, a quantum logic gate is performed in a quantum computing system. In some cases, a pair of qubits are defined in a quantum processor; the pair of qubits can include a first qubit defined by a first qubit device in the quantum processor and a second qubit defined by a tunable qubit device in the quantum processor. A quantum logic gate can be applied to the pair of qubits by communicating a control signal to a control line coupled to the tunable qubit device. The control signal can be configured to modulate a transition frequency of the tunable qubit device at a modulation frequency, and the modulation frequency can be determined based on a transition frequency of the first qubit device.
US10483976B1
In examples, an apparatus comprises a pin, an input buffer coupled to the pin at an output of the input buffer, a voltage divider circuit coupled to the input buffer at an input of the input buffer, a first current mirror coupled to the input buffer, and a second current mirror coupled to the input buffer. The apparatus also comprises a first output buffer coupled between the input buffer and the first current mirror, and a second output buffer coupled between the input buffer and the second current mirror.
US10483973B2
A circuit includes: a first type of swing reduction circuit coupled between an input/output pad and a buffer circuit; and a second type of swing reduction circuit coupled between the input/output pad and the buffer circuit, wherein the first type of swing reduction circuit is configured to increase a voltage received by respective gates of a first subset of transistors of the buffer circuit when a voltage applied on the input/output pad is equal to a first supply voltage, and the second type of swing reduction circuit is configured to reduce a voltage received by respective gates of a second subset of transistors of the buffer circuit when the voltage applied on the input/output pad is equal to a second supply voltage.
US10483970B2
Devices and methods include receiving a command at a command interface to assert on-die termination (ODT) during an operation. An indication of a shift mode register value is received via an input. The shift mode register value corresponds to a number of shifts of a rising edge of the command in a backward direction. A delay pipeline delays the received command the number of shifts in the backward direction to generate a shifted rising edge command signal. Combination circuitry is configured to combine a falling edge command signal with the shifted rising edge command signal to form a transformed command.
US10483968B2
An apparatus for determining an optimum stacking number of an RF switch, in which a gate-off voltage and a body-off voltage are used to control transistors stacked in series to enter an OFF state. The apparatus includes a memory configured to store a peak voltage of a high-frequency signal in a corresponding band, and a gate limiting voltage, a drain-source limiting voltage, and a body limiting voltage in a corresponding process for each of the transistors, and a processor configured to calculate a gate terminal voltage, a drain-source voltage, and a body terminal voltage using the peak voltage, the gate limiting voltage, the drain-source limiting voltage, and the body limiting voltage and to determine an optimum stacking number based on the gate terminal voltage, the gate limiting voltage, the drain-source voltage, the drain-source limiting voltage, the body terminal voltage, and the body limiting voltage.
US10483965B1
Examples of a semiconductor device includes a first switching element including a first gate, a first source connected to a common terminal via a first connection line, and a first drain, a second switching element including a second gate, a second source that is connected to the first source via a second connection line and connected to the common terminal via the first connection line and the second connection line, a first capacitor for connecting the first source and a high voltage side of a power supply, a first circuit element having first end connected between the high voltage side of the power supply and the first capacitor, and a second capacitor for connecting the second source and second end of the first circuit element.
US10483963B2
A control circuit includes a reset circuit and a determination circuit. The reset circuit is coupled to a digital frequency divider of a phase locked loop circuit and configured to perform a reset operation. The determination circuit is coupled to the reset circuit and configured to determine whether a first predetermined time interval has elapsed so as to control the reset circuit to stop performing the reset operation when the first predetermined time interval has elapsed.
US10483950B2
A device is disclosed that includes a level shifter and an output stage. The level shifter is configured to output a first output signal at a first output terminal in response to a first input signal having a first logic level, and is configured to output a second output signal at a second output terminal in response to the first input signal having a second logic level. The output stage is configured to receive and adjust the first output signal or the second output signal that is selected in response to the first input signal, and configured to generate a third output signal, wherein the third output signal has a logic value that is the same as a logic value of the first output signal or the second output signal.
US10483949B2
A driving circuit for driving a power switch. The driving circuit and the power switch are collaboratively defined as an equivalent circuit. The equivalent circuit includes a first equivalent capacitor corresponding to an input capacitor of the power switch, an equivalent inductor, and a second equivalent capacitor corresponding to a parasitic parameter of at least one driving switch. In the charging procedure or the discharging of the first equivalent capacitor, a change amount of charges in the first equivalent capacitor while a voltage of the input capacitor is changed from a voltage corresponding to no inductor current to a set voltage is larger than or equal to a change amount of charges in the second equivalent capacitor while the voltage of the input capacitor is changed from the voltage corresponding to no inductor current to a steady voltage.
US10483948B2
A RC oscillator comprises a resistor unit. The resistor unit can comprise at least one set of compensation resistor. Each set of compensation resistor comprises a positive temperature coefficient resistor and a negative temperature coefficient resistor coupled in series with the positive temperature coefficient resistor.
US10483936B2
A filter structure including a ground plane wherein the ground plane is in a first metal layer of an integrated circuit (IC) package. The filter structure further includes a plate in a second metal layer of the IC package. The filter structure further includes a dielectric layer between the ground plane and the plate, wherein the ground plane, the dielectric layer, and the plate are thereby configured as a capacitive device. The filter structure further includes an inductive device in a third metal layer of the IC package, wherein the inductive device is electrically connected to the plate.
US10483922B2
A photoelectric conversion device is provided. The device comprises a light receiving element, first and second transimpedance amplifiers configured to receive a signal of the light receiving element and output a voltage, a differential operation amplifier configured to perform a differential amplification for outputs of the first and second transimpedance amplifiers and a switching unit. The switching unit includes an output switching unit configured to switch connections between a first state where the light receiving element and the first transimpedance amplifier are connected and a second state where the light receiving element and the second transimpedance amplifier are connected, and a capacitance adjusting unit connected to an input terminal of each of the first and second transimpedance amplifiers and configured to adjust a capacitance value of the first and transimpedance amplifier and/or a capacitance value of the second transimpedance amplifier.
US10483920B2
Embodiments relate to a chopped amplifier system where a ripple reduction filter placed outside of a main signal path is disclosed. The chopped amplifier system includes a chopped amplifier having an input terminal and an output terminal, where the input terminal receives an input signal and the output terminal provides an output signal including a ripple that is based on an offset voltage of the chopped amplifier. The ripple reduction filter is placed in a feedback loop path that receives a portion of the chopped amplifier's output signal and provides a feedback signal to the chopped amplifier that reduces the ripple at the output of the chopped amplifier. The ripple reduction filter includes a digital controller and other circuits that can handle large disturbances such as large signal slew rate events and large common-mode steps without reducing the effectiveness of the ripple reduction filter in reducing the ripple.
US10483918B2
A power amplifier can include a carrier amplifier having first and second differential amplification cells with outputs coupled by a primary loop of a carrier transformer, and a peaking amplifier having first and second differential amplification cells with outputs coupled by a primary loop of a peaking transformer. The power amplifier can further include a combiner having a quarter-wave circuit implemented between the secondary loop of the carrier transformer and a secondary loop of the peaking transformer. The quarter-wave circuit can be configured to provide a characteristic impedance, such that the carrier and peaking amplifiers are presented with an impedance that is approximately the same as the characteristic impedance when both of the carrier and peaking amplifiers are turned on, and the carrier amplifier is presented with an impedance that is approximately twice the characteristic impedance when the carrier amplifier is turned on and the peaking amplifier is turned off.
US10483901B2
A method is presented for operating a power tool during installation of a deformable fastener. The method includes: receiving measures of current supplied to a motor of the power tool during operation of the power tool; determining rate of change of the current during operation of the power tool; determining occurrence of the power tool engaging the fastener based on the magnitude of the current supplied to the motor; determining occurrence of the power tool swaging the fastener based on the rate of change of the current; determining completion of the power tool swaging the fastener based on the magnitude of the current and the rate of change of the current; and verifying quality of the installation of the fastener using the determination of the occurrence of the power tool engaging the fastener and the determination of the completion of the power tool swaging the fastener.
US10483896B2
A system and method for reliable control of a high rotor pole switched reluctance machine (HRSRM) utilizing a sensorless reliable control system. The method comprising: energizing at least one of the plurality of stator phases; measuring a first current value and time taken by the first current value to reach a first peak value or preset threshold value of current; determining a self-inductance value; measuring a second current value and time taken by an adjacent un-energized stator phase to reach a second peak value of current; determining a mutual inductance value; and estimating a rotor position utilizing the self-inductance and mutual inductance values; and controlling the HRSRM based on the estimated rotor position.
US10483895B2
A system and method for wirelessly providing power to independent movers traveling along a track includes a sliding transformer to transfer power between the track and each mover. The sliding transformer includes a primary winding extending along the track and a secondary winding mounted to each mover. Each of the primary and secondary windings may be formed of a single coil or multiple coils. The primary and secondary windings are generally aligned with each other and extend along the track and along the mover in the direction of travel with an air gap present between the windings. A power converter on the mover may regulate the power supplied to the mover to control an actuator or a sensor mounted on the mover or to activate drive coils mounted on the mover to interact with magnets mounted along the track and, thereby, control motion of each mover.
US10483890B2
An engine generator, including a general purpose engine, an engine speed of the engine being variably controlled, a generator unit having a three-phase winding and driven by the engine to generate power, an inverter unit converting AC output from the generator unit to AC of a predetermined frequency to output to a load, a connection switching unit switching a connection configuration of the winding to one of a wye-connection and a delta-connection, a load detection unit detecting a size of the load, and a connection switching control unit controlling the connection switching unit to switch the connection configuration to the wye-connection when the size of the load is equal to or lower than a predetermined value, and to switch the connection configuration to the delta-connection when the size of the load is higher than the predetermined value.
US10483884B2
An electric tool control circuit includes a central control module, a motor drive module, a motor, and a working parameter detection module. The working parameter detection module is separately electrically connected to the motor and the central control module, and the working parameter detection module can return a parameter that is detected when the motor works to the central control module. The motor drive module is separately electrically connected to the motor by using first and second switch modules, and the motor drive module controls the first and second modules to be discontinuously on and off. The features of first switch module and the second switch module being on and off are always contrary, that is, when a first switch is on, a second switch is off, and when the first switch is off, the second switch is on.
US10483875B2
A surface elastic wave generator may include a substrate. A first conductivity type region is formed in the substrate. A second conductivity type doped region includes at least one doping pattern doped on surface of the first conductivity type region. Through applying reverse bias to junctions between the first conductivity type region and the second conductivity type doped region, a depletion capacitance region is formed. Also, through inputting signal to the first conductivity type region or the second conductivity type doped region, the surface elastic wave is generated on the substrate. In addition, a surface elastic wave transceiver and surface elastic wave generation method are also provided.
US10483853B2
A DC-DC converter may include a first lower FET and a first upper FET connected in series between a high potential output wiring and a low potential wiring, and a second lower FET and a second upper FET connected in series between the high potential output wiring and the low potential wiring. Diodes may be connected to the upper FETs in parallel. A main reactor may be connected to the high potential input wiring. A first sub-reactor may be connected between the main reactor and the first lower FET. A second sub-reactor may be connected between the main reactor and the second lower FET. The first upper FET and the second upper FET are not turned on during a zero-cross mode.
US10483850B1
Switched-mode power supply (SMPS) integrated circuit including direct current step-down converter, switch, and element for potential energy storage in electric field and having T-On voltage. SMPS configured to: receive DC input current and output through load; operate in boundary conduction mode applying pulse-width-modulated voltage to switch for controlling T-On/T-Off duty cycle; generate regulated T-On current setting maximum T-On; monitor input voltage by reduction to voltage signal range; convert signal voltage to signal current value within current signal range; output T-On modulation current including signal current; combine T-On modulation current with regulated T-On current during T-On period to store potential energy in element while monitoring T-On voltage of element; and initiate T-Off period when potential energy stored in element reaches maximum T-On voltage. Further SMPS's. Method of operating SMPS's.
US10483837B1
The present embodiments are directed to an improved switched capacitor (SC) converter topology that does not include an inductor. In particular, the topology includes a ladder SC circuit configured as a cap divider, with a gate driving signal being generated to initiate the charging and discharging of the capacitor. In this specific topology, an unregulated output voltage is produced that is a certain fraction of an input voltage of a power source such as a battery. The present embodiments further include a variable frequency modulation (VFM) scheme based on the current-sensing techniques for the gate driving signal generation of the switched capacitor converter.
US10483834B2
A ball spline shaft integral with a foremost and rearmost nozzle fits into a movable table for an actuator to make sure of high accuracy and high tact operation. A movable table is constituted with a movable table in which a ball spline shaft to provide a ball spline is inserted into a table body. The ball spline shaft having a through-hole has a foremost nozzle at the lower portion thereof and a rearmost nozzle at the top thereof. An outer shell is fastened to the opposite ends of the bed and the ball spline shaft is supported by a pair of the outer shells for reciprocating movement.
US10483830B2
A magnetic sensor integrated circuit and a motor component are provided. The integrated circuit includes a housing, a semiconductor substrate arranged inside the housing, input ports and an output port which extend out from the housing, and an electronic circuit arranged on the semiconductor substrate. The electronic circuit includes a magnetic field detection circuit configured to detect and output a magnetic field inductive signal corresponding to an external magnetic field, and a voltage detection circuit configured to detect a specific voltage and output, in a case that the specific voltage reaches a predetermined value, a control signal for controlling the magnetic sensor integrated circuit to perform a preset action. The voltage detection circuit and the magnetic field detection circuit operate simultaneously.
US10483819B2
Disclosed herein is a stator assembly for a motor. The stator assembly comprises a stator core having a plurality of teeth around each of which a stator coil is wound, a first insulator coupled to one side of the stator core to provide insulation between one tooth and an adjacent tooth, a second insulator coupled to the other side of the stator core to provide insulation between one tooth and an adjacent tooth, and a three-phase terminal inserted between the stator core and the second insulator and protruded partially to the outside of the second insulator to be electrically connected to an inverter. According to the present invention, there are advantageous effects that since the three-phase terminal is assembled between insulators, breakaway and breakage of the three-phase terminal can be prevented and that insulation effect and assembly capability thereof are enhanced.
US10483816B2
A motor includes a stator, a rotor including a rotor core having a magnet insertion hole, and a plurality of permanent magnets disposed in the magnet insertion hole of the rotor core and having two permanent magnets adjacent to each other. The rotor core has a first magnet holding portion in the magnet insertion hole, and a second magnet holding portion at an end of the magnet insertion hole in a circumferential direction. The rotor core has a plurality of electromagnetic steel sheets stacked in an axial direction. Relationships A>B and A>C are satisfied, where a number of the plurality of electromagnetic steel sheets is represented by A, a number of electromagnetic steel sheets having the first magnet holding portions is represented by B, and a number of electromagnetic steel sheets having the second magnet holding portions is represented by C.
US10483812B2
An electrical rotor machine and a method of manufacturing the same are disclosed. According to at least one aspect of the present disclosure, the method includes forming a stator core from two or more subcores and inserting the separate subcores into a housing before windings are wound through and around the subcores to form a stator. In such embodiments, the housing includes a locating feature structured to position and support the subcores such that a flow channel is formed between the subcores. The locating feature enables both radial and axial cooling of the stator core while reducing pressure losses within the cooling flow path.
US10483809B2
Foreign substance detection can be performed with a simple configuration in a power transmission system. A power transmitting apparatus that wirelessly transmits power to a power receiving apparatus, the power transmitting apparatus comprises: determination means for, in a case where an initial impedance value and the detected output impedance value do not match and there is no change in the output impedance value between before and after the transmission of a predetermined detection signal, determining that a foreign substance is present within a predetermined power transmission range, and, in a case where the initial impedance value and the detected output impedance value do not match and there is a change in the output impedance value between before and after the transmission of the predetermined detection signal, determining that a power receiving apparatus is present within the predetermined power transmission range.
US10483806B2
A device is provided that includes a processor configured to identify a power transferring device and to determine a range configuration relative to the power transferring device, and to determine a power status of the device. The device also includes a first antenna configured to receive an oscillating power signal from the power transferring device at a first selected frequency based on the range configuration relative to the power transferring device, and on the power status of the device, and a first rectifier circuit configured to convert the oscillating power signal from the first antenna at the first selected frequency into a direct-current signal to charge a device load. A method for using the above device is also provided.
US10483803B2
A wireless power transmitter includes: a converter including switching elements forming a bridge circuit, wherein the converter is configured to output an alternating current (AC) voltage including a frequency determined according to an operating frequency of at least one switching element among the switching elements; a resonator including an inductor and a capacitor, and configured to receive the AC voltage to wirelessly transmit power; and a controller configured to output control signals controlling the switching elements so that the converter performs a first mode operation in which an operating duty cycle is fixed and the operating frequency is varied, and an operation of the converter is switched from the first mode operation to a second mode operation in which the operating frequency is fixed and the operating duty cycle is varied, in response to the operating frequency reaching a first reference frequency.
US10483800B2
A portable device has an outer wall member exposed outside, and a power-receiving module at least a portion of which is arranged along the surface shape of the outer wall member to receive power by way of the resonance phenomenon. The power-receiving module has a power-receiving resonance coil and a power-drawing coil. The portable device creates a space portion with a weak magnetic field at the inner position or the peripheral position of the power receiving module during power feeding using the resonance phenomenon so that an electronic device is arranged in the space.
US10483799B2
The present invention relates to a power supply and pickup system capable of maintaining stability of transmission efficiency despite changes in a resonant frequency. More particularly, the present invention relates to a power supply and pickup system capable of maintaining the stability of efficiency of transmitting power to a pickup device from a power supply device even when a voltage or current changes by the variation in a resonant frequency. According to the power supply and pickup system of the present invention, Q-factor of a power supply and pickup system is set to a low value, a stability of efficiency of transmitting power to a pickup device from a power supply device is maintained even when a voltage of current changes by the variation in a resonant frequency.
US10483798B2
A wireless portable phone charger with display panel includes a housing with a rechargeable power source for delivering power to a wireless chargeable hand held device and improves the re-charging experience by allowing a person to wirelessly charge their phone or other electronic device while viewing a display.
US10483796B2
A power control system includes a socket module inserted into a wall socket, and a remote control module electrically connected to a switchable socket. The socket module provides mains electricity from the wall socket to an electric device connected thereto upon receiving a power-on signal, and does not provide mains electricity upon receiving a power-off signal. The remote control module is charged by mains electricity from the switchable socket that is in a conductive state, and operates with electricity stored therein to wirelessly transmit the power-on signal when the switchable socket is switched to the conductive state and to wirelessly transmit the power-off signal when the switchable socket is switched to a non-conductive state.
US10483795B2
A system and method for establishing communication between a controller and a plurality of inverters comprises determining a response time window length and broadcasting a response request to the array of inverters that includes the response time window length. Each inverter, in response to receiving the response requests, transmits a response to the controller at a randomly determined response time within the response time window. In response to receiving an acknowledgement from the controller, the responding inverter may ignore subsequent response requests. The controller may adjust the response time window and broadcasts the new response time window until no inverter response is received for a pre-determined number of response time windows.
US10483794B2
A power continuation control circuit includes a power supply circuit, a detection circuit, an energy storage circuit, a switch module, and a control circuit. The detection circuit is coupled to the power supply circuit. The switch module is coupled to the energy storage circuit. The control circuit is coupled to the switch module and the detection circuit. The power supply output terminal is coupled to the control circuit and the power supply circuit.
US10483792B2
Methods and apparatus for enhancing reserve power units are described. An example apparatus includes a power source to operate a process control component and a power conditioner to provide power during a disruption of power from the power source to prevent a false trigger of a shutdown function of the process control component.
US10483790B2
A solar or self-powered assembly includes a rechargeable battery and photo voltaic panel and/or wind turbine for supplying a battery charging current. A charge controller processor is controls charging current from the photovoltaic panel and/or wind turbine to maintain the battery in a substantially fully charged state of 80% or more state of charge over daily charge and discharge cycle charging is based on a projected target energy input based on the initial bulk energy charge, the level of discharge required to compensate for charging inefficiencies and the battery capacity factor representative of the projected natural charge in the battery over its lifespan.
US10483788B2
The present invention discloses a charging method for a sub-module based hybrid converter. By setting a half-controlled charging link of half-blocking all full bridge sub-modules in a charging process, and raising the voltages of half bridge sub-modules to reach the starting point of a half bridge sub-module based self-powered supply in an uncontrolled stage of the half bridge sub-modules, the starting point of the sub-module based self-powered supply is increased, and the design difficulty of the sub-module based self-powered supply is reduced. The present invention also discloses another charging method for a sub-module based hybrid converter. The above objective can also be achieved by setting a half-controlled charging link of bypassing all full bridge sub-modules in the charging process.
US10483785B2
There is provided a power information management device communicable with at least one another device and being able to perform one of mutual power supply and unidirectional power supply, comprising: a requesting unit configured to send a request for information concerning electric power to the at least one another device; a receiving unit configured to receive the power information from the at least one another device which has received the request; and a generating unit configured to generate power information concerning electric power of a plurality of devices including the power information management device and the at least one another device based on the information received from the at least one another device.
US10483783B2
A system and method for selecting a battery pack of a plurality of battery packs being wirelessly charged. The system includes a wireless charger having a power supply and a plurality of charging coils, each charging coil coupled to the power supply and configured to wirelessly charge a battery pack of the plurality of battery packs using power received via the power supply. The wireless charger communicates with each battery pack to receive battery information. The system further includes an optimal battery selection device configured to detect a battery pack request; select an optimal battery pack of the plurality of battery packs based on a battery pack request and battery information; and provide a notification indicative of the optimal battery pack selected.
US10483777B2
An auxiliary power supply device includes: a plurality of channels of auxiliary power supplies; a charging circuit; and an auxiliary power supply switching circuit disposed between the charging circuit and positive electrode terminals of the plurality of channels of auxiliary power supplies and configured to switch one channel of auxiliary power supply connected to the charging circuit among the plurality of channels of auxiliary power supplies and to simultaneously switch one channel of auxiliary power supply connected to a power supply destination so as not to match the channel of auxiliary power supply connected to the charging circuit.
US10483773B2
A portable information handling system power source has plural separate modules that removeably couple to each other to selectively provide external power from battery and AC power sources. A controller module includes logic to coordinate power transfer to and from an information handling system. An AC-to-DC adapter module couples to the controller module to provide power from an AC power source to the information handling system through the controller module, which coordinates power transfer with the information handling system. A battery power source module couples to the controller module to provide battery power, with the battery charged by power from either the information handling system or the AC-to-DC adapter module.
US10483770B2
The systems and methods disclosed herein are directed to a vehicle charging station having at least one energy storage unit in a degraded state. The station may provide power using the energy storage unit to an electric or hybrid vehicle. In an illustrative embodiment, power from the station is provided to the vehicle from the energy storage unit, power grid or a combination thereof. Logic or processes for providing power to the energy storage unit for the charging station may depend on a variety of factors including, but not limited to, capacity of the energy storage units, number of units, information about an incoming vehicle to charge, etc. After charging, the energy storage unit in its degraded state may be used for fast charging the vehicle.
US10483766B2
Systems and techniques are provided for a power receiver circuit. A power generating mechanism may include power generating elements that may generate alternating current signals. Rectifier circuit may include rectifiers that may generate a direct current signal from an alternating current signal, and diodes. Group circuits that may connect groups of rectifier circuits in electrical circuits to combine the direct current signals from the rectifier circuits in a group into a single direct current signal. A step down converter may be connected to the group circuits. The step down converter may convert a direct current signal to a direct current signal of a target voltage level. An output switch may be connected to the step down converter. A linear regulator may be connected to the step down converter. A microcontroller may be connected to the linear regulator and the output switch and may control the output switch.
US10483763B2
In a photovoltaic device or an operating point control circuit in which a current is output from a corresponding power supply cell or capacitor to between output terminals by periodically cutting off switching elements which are connected in series to a plurality of power supply cells and/or capacitors connected in series between the output terminals via inductors, cutoff duty ratios of all the switching elements are uniformly fixed to the same value in one cycle in which all the switching elements are cut off once.
US10483761B2
Power management device includes memory, classification portion, planning portion and indication portion. Classification portion classifies a change in monitoring power during a unit period with respect to each of buildings, stored in memory, into any one of kinds of electric power patterns. Planning portion determines pattern sets based on the kinds of electric power patterns, and determines control content for charging and discharging of electric storage apparatus with respect to each pattern set under condition of minimizing any one of amount of electric power to be received from power grid, compensation of amount of electric power to be received from power grid, and amount of carbon dioxide to be exhausted. Indication portion indicates control content corresponding to each of pattern sets determined by planning portion to electric storage apparatus of a building, which each pattern set conforms with, of the buildings.
US10483759B2
An integrated multi-mode, large-scale electric power support system supplies on demand at least 2,500 kW to an electrical grid with low harmonic distortion either from co-located solar or wind renewable energy DC power sources or in combination with, or alternatively, from system stored energy DC power sources via a plurality of DC-to-AC inverters with phase-shifted outputs. The power support system can also inject on demand grid power factor correcting reactive power. An alternative high voltage power support system can supply on demand at least 50 megawatts to the grid.
US10483749B2
A device for short-circuiting an electrical installation that includes at least two electrical conductors, the device including at least two connection terminals, each configured to be connected to a respective electrical conductor, an electromechanical unit configured to establish a short-circuit between the connection terminals, and at least one resistive element configured to connect one of the connection terminals to the corresponding electrical conductor. Each resistive element includes a first connection end connected to the corresponding connection terminal and a second connection end configured to be connected to the corresponding electrical conductor. The resistive element has an impedance, and variation in a value of the impedance is less than 1 mΩ for a temperature of the resistive element of 0° C. to 200° C.
US10483742B2
A cable/lead insertion unit for the insertion and passing-through of at least one lead into and through a wall opening of a housing wall. An insertion sleeve is used for insertion into the wall opening and a bearing flange at least in places protrudes therefrom radially outwards. Furthermore, a clamp part, in particular screwable onto the insertion sleeve in the direction of the bearing flange, is used, as well as a fastening portion of the insertion sleeve situated opposite the clamp part. The fastening portion on its outside has a partially circumferential thread turn, by which a clamping element can be brought into engagement for pressing the bearing flange onto a rim of the wall opening.
US10483740B1
A method for installing at least one junction box in an elevator hoistway of an elevator includes providing at least one junction box, the junction box including a plurality of knock-out portions, knocking out at least one of the plurality of knock-out portions of the at least one junction box to form a respective aperture, and affixing at least one PCB board to the respective aperture. An elevator includes at least one junction box, including at least one PCB board affixed to an aperture of at least one junction box via holders and an integrated multi-conductor coil wired to each PCB board; a duct connector connected to the at least one junction box; and a plurality of wiring ducts connected to the duct connector.
US10483738B2
An electrical connection box applied to a wire harness includes a substrate assembly and a housing the substrate assembly. The housing includes a first flexible rib that is extended along an extending direction Z, elastically deformable along a first support direction X, and supports the substrate assembly with respect to one side in the first support direction X, second flexible ribs that are extended along the extending direction Z, elastically deformable along the first support direction X, and supports the substrate assembly with respect to the other side in the first support direction X, and boss portions that are extended along the extending direction Z and position the substrate assembly with respect to the both sides in the first support direction X.
US10483735B1
A ninety degree snap fit electrical fitting for enabling rapid snap-fit insertion of an electrical cable to an electrical box. The ninety degree snap fit electrical fitting includes a connector body having a leading end, a trailing end, an internal bore, a box connection arrangement on the leading end, and a cable connection arrangement on the trailing end. A seat on the leading end of the connector body includes a snap ring with an outward extending locking tang. An internal snap ring is secured within the internal bore of the connector body at the trailing end. A cable retaining tang on the internal snap ring is adapted to engage and secure an electrical cable to the trailing end of the connector body.
US10483726B1
Power pedestals configured with a skeleton tower assembly that has a skeleton tower frame that supports electronic components and a first wall panel with a plurality of external power receptacles and an outer sleeve coupled to the skeleton tower frame to avoid the use of doors and provide an efficient assembly process.
US10483725B2
A carrier rail housing comprises: a carrier rail receiving opening into which the holding legs of a carrier rail are insertable; a locking mechanism to secure the holding legs in a desired mounting position and comprising locking slides to interlock with the carrier rail housing in a locking position; a plug-in contact element arranged inside the carrier rail housing to face the carrier rail receiving opening; and a bus connector into which plug-in contacts of the plug-in contact element are insertable, the bus connector being connectable to a plug-in contact element of at least one additional carrier rail housing, wherein each of the locking slides comprises a first end that comprises a holding section that extends in sections into the carrier rail receiving opening in the locking position, so that the bus connector is secured between the holding sections of the locking slides and the plug-in contact element.
US10483724B2
The invention relates to a panel holder for fastening a panel on a housing frame of a switchgear cabinet, wherein the panel holder is an open clip, which has two free push-in portions, which can be braced against one another for engagement in a recess of a housing frame, wherein the push-in portions are connected to one another by means of a fastening flange for a panel, said flange having a threaded passage, in particular a threaded bore, and wherein the fastening flange is arranged at a distance from one of the push-in portions and the threaded passage is arranged in alignment with the push-in portion, such that a screw screwed in through the threaded passage impinges on the push-in portion aligned with the threaded passage and thus braces the push-in portions against one another. A corresponding switchgear cabinet is also described.
US10483722B2
Devices with ultra-small vertical cavity surface emitting laser emitters incorporating beam steering
A laser array includes a plurality of laser emitters arranged in a plurality of rows and a plurality of columns on a substrate that is non-native to the plurality of laser emitters, and a plurality of driver transistors on the substrate adjacent one or more of the laser diodes. A subset of the plurality of laser emitters includes a string of laser emitters that are connected such that an anode of at least one laser emitter of the subset is connected to a cathode of an adjacent laser emitter of the subset. A driver transistor of the plurality of driver transistors is configured to control a current flowing through the string.
US10483717B2
An assembly (14) for analyzing a sample (15) includes a detector assembly (18); a tunable laser assembly (10); and (iii) a laser controller (10F). The detector assembly (18) has a linear response range (232) with an upper bound (232A) and a lower bound (232B). The tunable laser assembly (10) is tunable over a tunable range, and includes a gain medium (10B) that generates an illumination beam (12) that is directed at the detector assembly (18). The laser controller (10F) dynamically adjusts a laser drive to the gain medium (10B) so that the illumination beam (12) has a substantially constant optical power at the detector assembly (18) while the tunable laser assembly (10) is tuned over at least a portion of the tunable range.
US10483710B2
Systems and techniques for multilayer electrode assemblies are generally described. In some examples, a multilayer electrode assembly may comprise a first dielectric material. In some examples, the first dielectric material may be shaped so as to form a channel defined by an interior surface. In various examples the multilayer electrode assemblies may comprise a first metal layer disposed adjacent to a first portion of the exterior surface of the first dielectric material. In various further examples, the multilayer electrode assemblies may comprise a second metal layer disposed adjacent to a second portion of the exterior surface of the first dielectric material. In some examples, the first metal layer may be disposed in a first spaced relationship with the second metal layer. In various examples, a substantially uniform electric field may be generated in the channel of the first dielectric material when a voltage is applied to the multilayer electrode assembly.
US10483701B2
The present invention basically involves replacing all the mechanical protection (corrugated tube, cover) and sealing (annular seals) parts that are mechanically fitted in electrical connection solutions, in particular for coaxial connection, of the prior art with a joint directly overmolded on the conductive jacket (ferrule, shell or two half-shells), partly inside the connector housing and around the part of the outer sheath of the cable that is near the housing.
US10483689B2
Embodiments of the present disclosure provide a releasable connection, which may include a first housing to couple to a first cable. The housing may include a mating surface to couple with a mating surface of a second housing that may couple to a second cable. The transmission components of the first cable may extend to the mating surface, to provide connection with respective transmission components of the second cable in response to a mating of the first and second mating surfaces. The connection may further include a retention mechanism, which may include a magnet component disposed on or in proximity to the mating surface, to interact with a corresponding magnet component of the second housing. A magnetic force produced in response to the interaction may provide the releasable coupling of the first and second cables. Other embodiments may be described and/or claimed.
US10483688B2
A magnetic receptacle is described. The receptacle includes an electronic connector having an engagement feature on one or more sides of the electronic connector. The engagement feature is configured to engage a latching feature on a magnetic protrusion. The receptacle includes one or more receptacle magnets positioned adjacent the magnetic receptacle configured to deactivate the latching feature on the magnetic protrusion. In one implementation, a magnetic plug is described. The plug includes a plug tip. The plug includes one or more latching features. The plug includes one or more plug magnets positioned adjacent the plug tip. The one or more plug magnets are configured to cooperate with one or more receptacle magnets to transition the one or more latching features between an engaged state and a disengaged state.
US10483687B2
A tolerance absorbing structure of a first power supply distribution box includes a connection terminal to which one end part of a flat distribution member is connected and fixed; a storage case including a connection opening member into which the connection terminal is inserted and fixed to a vehicle body; an elastic support member configured to support the connection terminal freely movably in a three-dimensional direction with respect to the connection opening member; and a flexible conductor configured to connect a substrate connection part of a circuit conductor stored in the storage case and the connection terminal with an extra length.
US10483684B2
A housing for a USB connector plug includes a body for partly surrounding the USB connector plug. The body defines a forward aperture from which a plug head of the USB connector plug extends and a rearward aperture from which a cable of the USB connector plug extends. The body has an outer form, which defines on a first surface thereof, a thumb pad and on a second opposing surface, a finger pad. The outer form of the body is provided with a thumb push element that stands proud from a forward part of the thumb pad. The housing is configured as an over-housing for a conventional USB connector plug.
US10483681B1
A mobile peripheral adapter has plural data and plural video ports disposed along a perimeter of a circular housing having first and second rotationally coupled portions. One housing portion includes electronic components for adapting USB information into selected of plural outputs protocols, the electronic components interfaced with the data and video ports and a USB cable. The other housing portion includes a cable guide that engages with the USB cable to retract and extend the USB cable at the housing.
US10483677B2
A connector includes a housing body (11) having a reference surface (18) extending substantially along a front-rear direction, an arm body (21) extending substantially along the front-rear direction, and legs (22) coupling an intermediate location of the arm body (21) in the front-rear direction and the reference surface (18). The area of the arm body (21) before the location coupled to the legs (22) is a lock (31) and the area behind the location coupled to the legs (22) is a releasing portion (32). The releasing portion (32) is pressed toward the reference surface (18), thereby releasing a locked state of the lock (31) and a mating lock (94). The legs (22) are inclined forward from the side of the reference surface (18) toward the side of the arm body (21).
US10483670B2
Electrical connector for circuit boards provided with terminals having connecting portions configured to be connected to a circuit board at one end in the longitudinal direction of said terminals and contact portions configured to be placed in contact with a counterpart connector component at the other end, and a housing holding a plurality of said terminals in place in array form. Said housing having disposed therein the contact portions of the terminals, and formed such that it is divided into a receiving-side housing, which accommodates the contact portions and receives a counterpart connector component such that it is placed in contact with the contact portions, and a board-side housing, which holds the terminals in place in sections more proximal to the connecting portions than to the contact portions and which is mounted to a circuit board, and the receiving-side housing and the board-side housing are molded as a single unit.
US10483657B2
A manufacturing method for an electric wire having a terminal includes a step of connecting a plurality of core wires by an ultrasonic connection process to form a connected core wire. In the step, the core wires are formed into the connected core wire having a cross-sectional shape having a width and a height in a plane orthogonal to an axis of the connected core wire, the width is not longer than a length obtained by subtracting two times a thickness of the terminal from a width of an arch groove of a crimper of a crimping apparatus in a state that a space between a support surface of an anvil of the crimping apparatus and the arch groove defines a predetermined crimped shape.
US10483653B2
An apparatus includes a switching circuit and a plurality of registers. The switching circuit may be configured to generate a sequence of pulses in a plurality of control signals in response to a plurality of cycles of an enable signal. The registers may be hardwired as a plurality of subsets. Each of the subsets of the registers may be configured to (a) buffer a plurality of setting values received from a memory and (b) present the setting values from the registers to a plurality of transceiver circuits while a corresponding one of the control signals is in an active state. The transceiver circuits may be updated with the setting values from the registers within a predetermined time.
US10483644B2
An eight-frequency band antenna includes a carrier, a high-frequency segment, a low-frequency segment, a printed circuit board (PCB) and an inductor. The high-frequency segment is arranged on left side of the carrier and the low-frequency segment is arranged on right side of the carrier. The radiator on the bottom face of the carrier electrically connects with the micro strip of the PCB and the ground line of the ground metal when the carrier is fixed to the PCB. Moreover, the low-frequency segment is corresponding to a metal face with smaller area such that the low-frequency segment is at a free space to enhance the frequency response of the low-frequency segment and the bandwidth of the high-frequency segment. The area and the volume of blind hole on the carrier can adjust the effective dielectric constant to adjust the resonant frequency and bandwidth of the antenna.
US10483643B2
A small antenna includes: a first element having a pair of conductors with a power feeding point; and a second element as a conductor arranged to sandwich a dielectric body. A part of the first and second elements has an inductance shape. A first resonance mode with a same current direction of the first element as the second element has a first resonant frequency. A second resonance mode with an opposite current direction of the first element to the second element has a second resonant frequency. A length from each power feeding point to the inductance shape is determined to hold the first resonant frequency within a range from a frequency slightly higher than the second resonant frequency to a high anti-resonant frequency of the second resonance mode, or a range from a frequency slightly lower than the second resonant frequency to a low anti-resonant frequency of the resonance mode.
US10483641B2
Antenna switch modules and methods of making the same are provided. In one implementation, an antenna switch module includes a first transmit and first receive port that are respectively connected to at least one antenna series switches. The first receive and transmit port receive and transmit signals on a first frequency. In one implementation, a second transmit and second receive port are connected to the at least one antenna and transmit and receive signals on a second frequency. In this implementation, the second receive port is connected to the at least one antenna via a series switch but the second transmit port is connected to the at least one antenna via a inductive resonance circuit that provides impedance to isolate the second transmit port when the first transmit port or receive port is transmitting or receiving via the at least one antenna.
US10483638B2
An interchange mechanism for deploying at least one reflector for reconfiguration of a spacecraft antenna. The interchange mechanism includes a rotary actuator having a fixed section mounted on an antenna structure and a mobile section rotating relative to the fixed section about a rotation axis. At least one carrier supports a reflector and is freely rotatably mounted on the fixed section for rotation about the rotation axis between first and second angular positions. An arm mounted on the mobile section carries a carrier engaging mechanism that successively and releasably engages the at least one carrier and displaces the at least one carrier from the first to the second angular position when the arm and the mobile section rotate in a first direction.
US10483637B2
In one embodiment, an antenna assembly is described. The antenna assembly includes and antenna and an antenna positioner coupled to the antenna. The antenna positioner includes a single drive interface and a plurality of gears. The plurality of rotate in a first manner in response to a first drive direction applied through the single drive interface, and rotate in a second manner in response to a second drive applied through the single drive interface. The antenna positioner also includes a threaded rod that moves in a first rod direction and a second rod direction in response to rotation of the plurality of gears in the first manner and the second manner respectively. The antenna positioner also includes a tilt plate contacting the threaded rod. The tilt plate tilts about a pivot line in response to movement of the threaded rod to move a beam of the antenna in a spiral pattern.
US10483632B2
Apparatus for transmitting and/or receiving radiofrequency signals comprising at least a broadband antenna (310) and a substrate (410); the antenna (310) comprising at least a first radiating surface (318) and being superimposed on the ground plane, the ground plane being located on a first face of the substrate (410), at least a side tongue of power supply (314) and at least a side wall (316) connected to at least the first radiating surface (318), the apparatus being characterized in that the side wall (316) is connected to a coupling trace (416) located on a second face of the substrate (410), opposite to the first face of the substrate (410), and the side wall (316) and the coupling trace (416) being configured to act as a capacitive coupling between at least the first radiating surface (318) and the ground plane.
US10483625B2
There is disclosed a mobile terminal including a first case comprising a battery loading portion, a battery loaded in the battery loading portion, a second case coupled to the first case and configured to cover the battery, a coil antenna module arranged between the second case and the battery, and a controller electrically connected to the coil antenna module and configured to transmit and receive a signal or receive an electric power, wherein the coil antenna module includes an insulating sheet, a first coil arranged in a surface of the insulating sheet, a second coil arranged in the first coil, a third coil arranged in the second coil, and a magnetic sheet disposed on the surface of the insulating sheet, and ends of the first, second and third coils are arranged in the surface of the insulating sheet or dividedly arranged in both surfaces of the insulating sheet. The mobile terminal may realize the coil antenna module including a plurality of coils configured to perform diverse manners of wireless communication in a limited area.
US10483624B2
The present disclosure relates to the field of antenna technologies and, in particular, to an antenna system and a mobile terminal. The antenna system includes: a metal rear cover, a first feeding point, and a system ground, wherein a U-shaped slot is arranged at a bottom of the metal rear cover, and the U-shaped slot divides the metal rear cover into a radiation portion and a grounding portion, the grounding portion is connected to the system ground, the radiation portion includes a first end and a second end, and both the first end and the second end are connected to the grounding portion, a break is defined at the radiation portion, and the radiation portion is electrically connected to the first feeding point, so as to form a main antenna.
US10483621B2
An antenna assembly includes a support member having opposing first and second surfaces, and a set of electrical contacts; an antenna carried on the first surface of the support member and electrically connected to the set of electrical contacts; a conductive inner ring element carried on the first surface and surrounding the antenna; and a dielectric outer ring element mounted on the first surface and surrounding the conductive inner ring.
US10483616B2
An illumination device is provided. The illumination device includes a substrate including a light-emitter. An instrument main body includes a substrate arrangement surface, with the substrate being on the substrate arrangement surface. A cover is attached to the instrument main body, covers the substrate, and is transparent. An antenna is on the cover and configured to receive a signal from an outside of the illumination device. A driver is on the instrument main body and configured to supply power to the light-emitter. A controller is configured to control the power supplied from the driver to the light-emitter based on the signal received by the antenna. The cover includes a diffusion factor from 40% to 90%.
US10483614B2
Hinge assemblies that serve as conduits for guiding extremely high frequency (EHF) signals are disclosed herein. The hinge assembly can contain EHF signal energy as data is transmitted from one structure to the other and the hinge assembly can also include a one or more waveguides that define EHF signal pathways through which EHF signal energy is directed. Each hinge assembly may serve as a conduit structure for each coupled pair of contactless communication units (CCUs), and multiple hinge assemblies may be used as separate conduit structures each of several coupled pairs of contactless communication unit.
US10483613B2
An antenna system includes a base section; a plurality of movable antenna sections adapted to fit inside of the base section, each movable antenna section including an outside section and an inside section, wherein the outside section has a plurality of section locks penetrating through the inside and outside sections; and a lock pin to prevent the inside section from collapsing into the outside section in an extended mode.
US10483611B2
A metal member which allows a waveguide to extend inside a dielectric substrate and is adapted to hold a short-circuit metal layer at a potential same as a potential of the waveguide is made to remain along cross-sections of the two wide walls of the waveguide and is removed along cross-sections of two narrow walls of the waveguide so as to prevent an electromagnetic wave from unintendedly being radiated.
US10483605B2
A battery cooling system for a vehicle includes: a battery module supplying drive energy to a vehicle; a liquid supply unit supplying liquid to the battery module; and an injection unit configured such that a first side of the injection unit is connected to the liquid supply unit to be supplied with liquid from the liquid supply unit and a second side of the injection unit is adjacent to the battery module to supply the liquid supplied from the liquid supply unit to an outer surface of the battery module, thereby cooling the battery module by using latent heat of evaporation of the liquid.
US10483604B2
A battery pack includes: a battery assembly including a plurality of batteries; a fluid drive member driving a fluid which cools the battery assembly; a housing that houses the battery assembly and the fluid drive member; and a beam provided integrally with a bottom wall of the housing to support the battery assembly from a lower side. A circulation passage provided in the housing includes: a first fluid passage between the battery assembly and a side wall of the housing; a battery passage between the batteries; and a second fluid passage downstream of the battery passage and extending toward the fluid drive member. The second fluid passage is surrounded by at least the beams, the bottom wall, and a lower end of the battery assembly.
US10483601B2
A battery pack includes a cell stack including a plurality of battery cells arrayed in one direction, a housing case housing the cell stack, and a heater configured to increase temperature of the battery cells. The heater is arranged on top of a bottom part of the housing case inside the housing case such that the heater is separated from a cell bottom part of the battery cell vertically downwardly, and a space between the bottom part of the housing case and the cell bottom part of the battery cell is a closed space in a section in a direction orthogonal to an array direction of the plurality of battery cells.
US10483596B2
Provided is a secondary battery including a hydroxide-ion-conductive ceramic separator. The secondary battery includes a positive electrode; a negative electrode; an alkaline electrolytic solution; a ceramic separator that is composed of a hydroxide-ion-conductive inorganic solid electrolyte and separates the positive electrode from the negative electrode; a porous substrate disposed on at least one surface of the ceramic separator; and a container accommodating at least the negative electrode and the alkaline electrolytic solution, wherein the inorganic solid electrolyte is in the form of a membrane or layer densified enough to have water impermeability, and the porous substrate has a thickness of 100 to 1,800 μm. According to the secondary battery of the present invention, the thickness and resistance of the ceramic separator are decreased without concern for reduced strength, and a reduction in energy density and an increase in internal resistance are effectively prevented.
US10483588B2
The present disclosure provides a gel electrolyte membrane and a method for forming the same, an electrode assembly, a gel polymer lithium-ion battery and an electric vehicle. The gel electrolyte membrane is located between the cathode and the anode, and has adhesion of solid electrolyte and electrical conductivity of ion of liquid electrolyte. The gel electrolyte membrane obtained in the present disclosure has a porous mesh structure, a wide film forming temperature, a short required time, a high level of liquid electrolyte in the gel polymer, a high conductivity of 3.4 to 6.3*10−3 S·cm−1, a wide electrochemical window, a good compatibility with the cathode and the anode, and low requirements for the conditions of the synthesis. The gel polymer lithium-ion battery and electrode assembly and electric vehicle of the present disclosure has high safety, simple forming technique and low requirements for environment, thus is suitable for industrial production.
US10483584B2
A fuel cell device includes: a cell stack; a case including a cover portion that covers one of side surfaces of the cell stack along a stacking direction; an end plate connected to one end portion of the cover portion in the stacking direction; and a fastening member that extends in parallel with the stacking direction on an opposite side of the cell stack from the cover portion, that includes one end portion in the stacking direction connected to the end plate and another end portion in the stacking direction connected to the case, and that fastens the cell stack, the end plate, and the case to each other. A thermal expansion coefficient of the cover portion is larger than a thermal expansion coefficient of the fastening member.
US10483579B2
A solid oxide fuel cell includes a metal support which is formed from a porous metal substrate and which supports a power generation cell. The metal support includes a power generating area (GA) in which the power generation cell is disposed, and a buffer area (BA) which is formed on an outer side of the power generating area (GA) in an in-plane direction. A pore in the metal support in the buffer area (BA) is filled with a material with a thermal conductivity lower than that of a formation material of the metal support.
US10483574B2
A fuel cell system having a fuel cell using a fuel gas containing a combustible gas and an oxidant gas to generate power includes an exhaust gas route for an exhaust gas from the fuel cell to circulate, an air supplier absorbing air within the fuel cell system and supplying the air to the exhaust gas, an air supply route for the air to circulate, a merging part where the exhaust gas and the air merge, a discharge route discharging a mixed gas composed of the merged exhaust gas and the air to the atmosphere, and a combustible gas detector that detects the concentration of a combustible gas in the mixed gas. With respect to flow of the air circulating in the air supply route and the discharge route, from the upstream side, the air supplier, the merging part, and the combustible gas detector are disposed in this order.
US10483568B2
A module system of a redox flow battery is disclosed. The system includes a first redox flow battery module, through which first and second electrolytic solutions circulate, a second redox flow battery module, through which first and second electrolytic solutions circulate, first and second storage tanks storing the first electrolytic solutions of the first and second redox flow battery modules, a first main pipe connecting the first redox flow battery module fluidically to the first storage tank, and a first transfer pipe and a first equilibrium pipe which are configured to allow for fluid communication between the first electrolytic solutions of the first and second redox flow battery module. The first main pipe has a diameter greater than that of the first transfer pipe.
US10483565B2
The disclosure provides a fuel device for an automobile, an automobile with the fuel cell device and a method for operating the fuel cell device. The fuel cell device comprises a first pipe, a second pipe, and a pressure regulator. The first pipe connects a gas tank to a fuel cell. The second pipe connects the fuel cell with an open end of the second pipe. The fuel cell is arranged to be driven by evaporated liquefied gas contained the gas tank. The pressure regulator is arranged to control the evaporation of the liquefied gas.
US10483554B2
Disclosed is a carbon support for a fuel cell catalyst that supports a metal. The carbon support includes a conductive carbon support and nitrogen atoms doped into the conductive carbon support. Also disclosed is a method for preparing the carbon support. Also disclosed is a catalyst including the carbon support. The catalyst has greatly improved degradation resistance compared to conventional catalysts for fuel cells. In addition, the catalyst is not substantially degraded even when applied to a single cell.
US10483547B2
A lithium metal battery including: a lithium metal anode; a protective layer disposed on the lithium metal anode, the protective layer including: a polymer and at least one selected from a metal salt including a Group 1 and Group 2 element and a nitrogen-containing additive; a cathode; and a liquid electrolyte disposed between the protective layer and the cathode, the liquid electrolyte including an organic solvent, wherein the at least one selected from metal salt and a nitrogen-containing additive comprising a Group 1 element or Group 2 element is insoluble in the organic solvent of the liquid electrolyte.
US10483540B2
Disclosed is a lithium complex oxide and method of manufacturing the same, more particularly, a lithium complex oxide effective in improving the characteristics of capacity, resistance, and lifetime with reduced residual lithium and with different interplanar distances of crystalline structure between a primary particle locating in a internal part of secondary particle and a primary particle locating on the surface part of the secondary particle, and a method of preparing the same.
US10483538B2
The present invention relates to a mixed oxide containing a) a mixed-substituted lithium manganese spinel in which some of the manganese lattice sites are occupied by lithium ions and b) a boron-oxygen compound. Furthermore, the present invention relates to a process for its preparation and the use of the mixed oxide as electrode material for lithium ion batteries.
US10483533B2
Provided is particulate of a cathode active material for a lithium battery, comprising one or a plurality of cathode active material particles being embraced or encapsulated by a thin layer of a high-elasticity polymer having a recoverable tensile strain no less than 5%, a lithium ion conductivity no less than 10−6 S/cm at room temperature, and a thickness from 0.5 nm to 10 μm, wherein the polymer contains an ultrahigh molecular weight (UHMW) polymer having a molecular weight from 0.5×106 to 9×106 grams/mole. The UHMW polymer is preferably selected from polyacrylonitrile, polyethylene oxide, polypropylene oxide, polyethylene glycol, polyvinyl alcohol, polyacrylamide, poly(methyl methacrylate), poly(methyl ether acrylate), a copolymer thereof, a sulfonated derivative thereof, a chemical derivative thereof, or a combination thereof.
US10483529B2
Composite powder for use in an anode of a lithium ion battery, whereby the particles of the composite powder comprise silicon-based domains in a matrix, whereby the individual silicon-based domains are either free silicon-based domains that are not or not completely embedded in the matrix or are fully embedded silicon-based domains that are completely surrounded by the matrix, whereby the percentage of free silicon-based domains is lower than or equal to 4 weight % of the total amount of Si in metallic or oxidized state in the composite powder.
US10483523B2
A battery can include a separator, a first current collector, a protective layer, and a first electrode. The first current collector and the protective layer can be disposed on one side of the separator. The first electrode can be disposed on an opposite side of the separator as the first current collector and the protective layer. Subjecting the battery to an activation process can cause metal to be extracted from the first electrode and deposited between the first current collector and the protective layer. The metal can be deposited to at least form a second electrode between the first current collector and the protective layer.
US10483520B2
The invention relates to a battery cell (10) comprising a first terminal (1), which is electrically conductively connected to a first electrode, and a second terminal (2), which is electrically conductively connected to a second electrode, the first terminal (1) being arranged inside the second terminal (2). The invention further relates to a battery module (200) comprising corresponding battery cells (10), to a battery, to a method for producing the battery module (200), and to a use for the battery.
US10483518B2
A secondary battery includes a battery cell, a protection circuit module electrically connected to the battery cell, a top case covering the protection circuit module, and a bottom case covering a bottom surface of the battery cell. The bottom case includes a pull tab protruding to an outside of the bottom case.
US10483512B2
A battery pack is a battery pack that is configured by arranging plural chargeable-dischargeable single cells in a specified direction. Each of the plural single cells includes: an electrode body including a positive electrode and a negative electrode; and a box-shaped battery case accommodating the electrode body and an electrolyte. The two adjacent single cells in the battery pack are provided with gas discharge valves in mutually opposing surfaces of the battery cases, each of the gas discharge valves discharging gas that is produced in the battery case. In the battery cases provided in the two adjacent single cells, the gas discharge valves that are provided in the mutually opposing surfaces are disposed at positions that do not overlap each other when seen in an arrangement direction of the single cells.
US10483511B2
A method for insulating a battery module (100) which has a multiplicity of battery cells (10), having at least one foldable insulation element (20), having at least the following steps: a) forming a receptacle pocket (21) from the insulation element (20) for receiving at least one battery cell (10), b) closing the receptacle pocket (21) by means of attachment sections (22) which are arranged laterally on the insulation element (20), as a result of which the battery cell (10) is surrounded at least on five sides by the insulation element (20), as a result of which the individual battery cell (10) is insulated with respect to an adjacent battery cell (10).
US10483506B2
The present invention includes a battery pack for a cordless power tool including a plastic housing including a mechanical interface for mechanically coupling the battery pack to a corresponding mechanical interface of a cordless power tool. The mechanical interface includes a rail, a groove and a sliding surface. The battery pack also includes a bracket encased within the plastic housing wherein the bracket includes a first portion positioned within the rail of the mechanical interface.
US10483503B2
The purpose of the present invention is to provide a film-like battery packaging material in which a coating layer, which can be cured in a short time and exhibits superior chemical resistance, is provided to a substrate layer surface. In the battery packaging material, which comprises a laminate body that includes at least a coating layer, a substrate layer, an adhesive layer, a barrier layer, and a sealant layer, in that order, the use of a resin composition containing a heat-curable resin and a curing accelerator as the coating layer enables the formation of a coating layer that can be cured in a short time and contributes to electrolyte liquid, etc., resistance.
US10483501B2
A secondary battery includes an electrode assembly, a can housing the electrode assembly, the can having a long axis and a short axis, and a cap plate that seals an opening of the can. The can includes a first side surface and a second side surface that face each other so as to correspond to the short axis of the can, the first side surface and the second side surface having a first thickness, a third side surface and a fourth side surface that face each other so as to correspond to the long axis of the can, the third side surface and the fourth side surface having a second thickness, the second thickness being greater than the first thickness, and a bottom surface that is located opposite the opening of the can and contacts the first through fourth side surfaces, the bottom surface having a third thickness.
US10483495B2
A lighting device is provided. The lighting device may include an organic light emitting diode arranged on one surface of a first substrate, the organic light emitting diode including a first electrode, an organic light emitting layer and a second electrode, and the first electrode is made of a transparent conductive material having a resistance value of 2,800-5,500Ω in each pixel, and has light scattering particles dispersed therein. Thus, even when a resistor of the organic light emitting layer is removed from a pixel due to a contact between the first electrode and the second electrode, it is possible to prevent an over current from being applied to the corresponding pixel through a resistor of the first electrode.
US10483487B2
A first product may be provided that comprises a substrate having a first surface, a first side, and a first edge where the first surface meets the first side; and a device disposed over the substrate, the device having a second side, where at least a first portion of the second side is disposed within 3 mm from the first edge of the substrate. The first product may further comprise a first barrier film that covers at least a portion of the first edge of the substrate, at least a portion of the first side of the substrate, and at least the first portion of the second side of the device.
US10483484B2
Provided is an organic electroluminescence display device including a base member, a display member disposed on the base member and including an organic electroluminescent element; and an encapsulating member disposed on the display member and encapsulating the display member. The encapsulating member includes a first inorganic layer disposed on the display member; a first organic layer disposed on the first inorganic layer; and a second inorganic layer disposed on the first organic layer. The first inorganic layer has a multilayer structure in which first layers having a first refractive index and second layers having a second refractive index different from the first refractive index are alternately disposed. Each of the first organic layer and the second inorganic layer has a single layer structure.
US10483474B2
An organic light-emitting device includes: an anode, a hole transport layer over the anode, an electron blocking layer over the hole transport layer, an organic emitting layer contacting the electron blocking layer, an electron transport layer contacting the organic emitting layer, a cathode over the electron transport layer, and a trapping layer between the hole transport layer and the electron blocking layer, wherein a LUMO energy level of the trapping layer: differs from a HOMO energy level of the electron blocking layer within a range of 1 eV, or is equal to the HOMO energy level of the electron blocking layer.
US10483467B2
Disclosed herein is an organic light-emitting diode, comprising an anode, a hole transport layer, a light-emitting layer including a host and a dopant, an electron transport layer, and a cathode in that order, wherein an electron-density-controlling layer including an anthracene derivative represented by the following Chemical Formula A is disposed between the light-emitting layer and the electron transport layer, and wherein an affinity Ah (eV) of the host of the light-emitting layer, an affinity Aed (eV) of the electron-density-controlling layer, and an affinity Ae (eV) of the electron transport layer satisfy an relationship of Ah≥Aed≥Ae.
US10483464B1
Provided herein are resistive switching devices comprising a nanocomposite, an inert electrode and an active electrode. Also provided are methods for preparing and using the disclosed resistive switching devices.
US10483457B1
Aspects of the disclosure provide magnetoresistive random access memory (MRAM) and methods. The MRAM generally includes a first magnetic tunnel junction (MTJ) storage element comprising a first fixed layer, a first insulating layer, and a first free layer, and a second MTJ storage element comprising a second fixed layer, a second insulating layer, and a second free layer. The MRAM further includes a conductive layer connected to a source line, first bit line, and a second bit line, wherein the first MTJ storage element is disposed above and connected to the conductive layer and the first bit line at a first end and connected to the first bit line at a second end, and wherein the second MTJ storage element is disposed above and connected to the conductive layer and the second bit line at a first end and connected to the second bit line at a second end.
US10483448B2
The present disclosure relates to flexible thermoelectric devices. In some embodiments, such devices can comprise a flexible substrate with a first conductive component and a second, different conductive component deposited thereon so as to form a plurality of electrical junctions. The flexible substrate can be a fabric, and the conductive component can be deposited by methods such as stitching of conductive yarns or deposition of conductive inks. The present disclosure further relates to methods of preparing flexible thermoelectric devices and methods of utilizing flexible thermoelectric devices for producing electrical current from waste heat.
US10483435B2
A semiconductor light emitting device includes a conductive substrate and a first metal layer disposed on the substrate. The first metal layer is formed so as to be electrically connected with the substrate, and the first metal layer includes an Au based material. A joining layer is formed on the first metal layer. The joining layer includes a second metal layer including Au and a third metal layer including Au. A metallic contact layer and an insulating layer are formed on the joining layer. A semiconductor layer is formed on the metallic contact layer and the insulating layer and includes a red-based light emitting layer. An electrode is formed on the semiconductor layer and is made of metal. The insulating layer includes a patterned aperture, and at least a part of the metallic contact layer is formed in the aperture.
US10483428B2
The present invention comprises directionally solidified multicrystalline silicon ingots, a silicon masteralloy for increasing the efficiency of solar cells made from wafers cut from the silicon ingots, method for increasing the yield when producing multicrystalline silicon ingots from a silicon melt by directional solidification. Further the present invention comprises a method for preparing said silicon masteralloy.
US10483416B2
A semiconducting microbolometer sensor for detecting electromagnetic waves in the medium wavelength infrared (MWIR) and long-wavelength infrared (LWIR) is provided. A preferred embodiment provides a substrate layer, a bottom and top support structure with a strut-based mesh design, a meandered electrode layer that follows the top support structure design, a bolometer sensing material with a high TCR, and a disk-shaped absorber on top of the sensing material to maximize the heat flux absorption on the sensor. The bottom support of the sensor suspends the top support mesh, creating an air cavity. This air cavity along with the strut based mesh design and optimized thickness, dimension and shape of the layers contributed towards minimizing the thermal conductance of microbolometer and hence improved the figures of merits—responsivity, detectivity, noise equivalent power and noise equivalent temperature difference of microbolometer.
US10483413B2
A photoelectric module of the present disclosure includes an optical device including an optical function element array made of a first base material, and a plurality of light emitting/receiving elements made of a second base material, wherein the optical function element array includes an optical substrate and a plurality of optical function elements, the optical substrate having a first surface and a second surface, and the optical function elements being integrated with the optical substrate and being arranged one-dimensionally or two-dimensionally, and the light emitting/receiving elements and their respective optical function elements face each other with the optical substrate in between to be located on a same axis in a direction perpendicular to the optical substrate, and the light emitting/receiving elements are disposed on the second surface with a space in between while being separated in units of a smaller number than array number in the optical function element array.
US10483411B2
A solar cell includes: a first electrode; a first hole transport layer containing nickel; an inorganic material layer containing titanium; a light-absorbing layer converting light into electric charge; and a second electrode. The first electrode, the first hole transport layer, the inorganic material layer, the light-absorbing layer, and the second electrode are layered in that order. The light-absorbing layer contains a perovskite compound represented by a formula AMX3, where A is a monovalent cation, M is a divalent cation, and X is a monovalent anion.
US10483410B2
System and method of providing a photovoltaic (PV) cell having a cushion layer to alleviate stress impact between a front metal contact and a thin film PV layer. A cushion layer is disposed between an extraction electrode and a photovoltaic (PV) surface. The cushion layer is made of a nonconductive material and has a plurality of vias filled with a conductive material to provide electrical continuity between the bus bar and the PV layer. The cushion layer may be made of a flexible material preferably with rigidity that matches the substrate. Thus, the cushion layer can effectively protect the PV layer from physical damage due to tactile contact with the front metal contact.
US10483409B2
A solar cell includes a substrate formed of n-type single crystal silicon, an emitter region of a p-type which is positioned at a first surface of the substrate and includes a first emitter region having a first sheet resistance and a second emitter region having a second sheet resistance less than the first sheet resistance, a plurality of surface field regions of the n-type locally positioned at a second surface opposite the first surface of the substrate, a plurality of first electrodes which are positioned only on the second emitter region to be separated from one another and are connected to the second emitter region, and a plurality of second electrodes which are positioned on the plurality of surface field regions to be separated from one another and are connected to the plurality of surface field regions.
US10483406B2
High field-effect mobility is provided for a transistor including an oxide semiconductor. Further, a highly reliable semiconductor device including the transistor is provided. In a bottom-gate transistor including an oxide semiconductor layer, an oxide semiconductor layer functioning as a current path (channel) of the transistor is sandwiched between oxide semiconductor layers having lower carrier densities than the oxide semiconductor layer. In such a structure, the channel is formed away from the interface of the oxide semiconductor stacked layer with an insulating layer in contact with the oxide semiconductor stacked layer, i.e., a buried channel is formed.
US10483404B2
A transistor having high field-effect mobility is provided. In order that an oxide semiconductor layer through which carriers flow is not in contact with a gate insulating film, a buried channel structure in which the oxide semiconductor layer through which carriers flow is separated from the gate insulating film is employed. Specifically, an oxide semiconductor layer having high conductivity is provided between two oxide semiconductor layers. Further, an impurity element is added to the oxide semiconductor layer in a self-aligned manner so that the resistance of a region in contact with an electrode layer is reduced. Further, the oxide semiconductor layer in contact with the gate insulating layer has a larger thickness than the oxide semiconductor layer having high conductivity.
US10483399B2
An integrated circuit (IC) device includes a pair of fin-shaped active areas that are adjacent to each other with a fin separation area therebetween, the pair of fin-shaped active areas extend in a line, and a fin separation insulating structure in the fin separation area, wherein the pair of fin-shaped active areas includes a first fin-shaped active area having a first corner defining part of the fin separation area, and wherein the fin separation insulating structure includes a lower insulating pattern that covers sidewalls of the pair of fin-shaped active areas, and an upper insulating pattern on the lower insulating pattern to cover at least part of the first corner, the upper insulating pattern having a top surface at a level higher than a top surface of each of the pair of fin-shaped active areas.
US10483398B2
A semiconductor device is provided. The semiconductor device includes a gate stack over a semiconductor substrate. The semiconductor device also includes a protection element over the gate stack, and a top and a bottom of the protection element have different widths. The semiconductor device further includes a spacer over a side surface of the protection element and a sidewall of the gate stack. In addition, the semiconductor device includes a conductive contact electrically connected to a conductive feature over the semiconductor substrate.
US10483386B2
A semiconductor device includes a substrate, and a seed layer over the substrate, wherein the seed layer comprises carbon dopants. The semiconductor device further includes a channel layer over the seed layer, and an active layer over the channel layer, wherein the active layer has a band gap discontinuity with the channel layer. A method of making a transistor includes forming a seed layer over a substrate, and doping the seed layer, wherein doping the seed layer comprises introducing carbon dopants into the seed layer. The method further includes forming a channel layer over the seed layer, and forming an active layer over the channel layer, wherein the active layer has a band gap discontinuity with the channel layer.
US10483383B2
A semiconductor device includes a semiconductor body. The semiconductor body has a first surface and a second surface opposite to the first surface. A transistor cell structure is provided in the semiconductor body. A gate contact structure includes a gate line electrically coupled to a gate electrode layer of the transistor cell structure, and a gate pad electrically coupled to the gate line. A gate resistor structure is electrically coupled between the gate pad and the gate electrode layer. An electric resistivity of the gate resistor structure is greater than the electric resistivity of the gate electrode layer.
US10483379B2
A multilayer composite structure and a method of preparing a multilayer composite structure are provided. The multilayer composite structure comprises a semiconductor handle substrate having a minimum bulk region resistivity of at least about 500 ohm-cm; a semiconductor nitride layer in contact with the semiconductor handle substrate, the semiconductor nitride layer selected from the group consisting of aluminum nitride, boron nitride, indium nitride, gallium nitride, aluminum gallium nitride, aluminum gallium indium nitride, aluminum gallium indium boron nitride, and combinations thereof; a dielectric layer in contact with the semiconductor nitride layer; and a semiconductor device layer in contact with the dielectric layer.
US10483375B1
A method for fabricating a semiconductor device including a vertical transistor includes forming a fin structure from a substrate. The fin structure includes a fin. The method further includes forming a bottom source/drain region on the substrate adjacent to the fin, etching a longitudinal end portion of the fin to create a gap exposing the substrate, forming a gate and a top source/drain region, and forming a contact wrapping around a horizontal portion and a vertical portion of the bottom source/drain region in a region including a location where the longitudinal end portion of the fin was removed by the etching.
US10483373B2
A semiconductor device including a first insulating interlayer on a substrate; a second insulating interlayer on the first insulating interlayer; a gate structure extending through the first insulating interlayer and the second insulating interlayer on the substrate, a lower portion of the gate structure having a first width, and an upper portion of the gate structure having a second width that is greater than the first width and that gradually increases from a bottom toward a top thereof; and a spacer structure on a sidewall of the gate structure, a width of an upper portion of the spacer structure being less than a width of a lower portion of the spacer structure.
US10483372B2
Semiconductor device structures comprising a spacer feature having multiple spacer layers are provided. In one example, a semiconductor device includes an active area on a substrate, the active area comprising a source/drain region, a gate structure over the active area, the source/drain region being proximate the gate structure, a spacer feature having a first portion along a sidewall of the gate structure and having a second portion along the source/drain region, wherein the first portion of the spacer feature comprises a bulk spacer layer along the sidewall of the gate structure, wherein the second portion of the spacer feature comprises the bulk spacer layer and a treated seal spacer layer, the treated seal spacer layer being disposed along the source/drain region and between the bulk spacer layer and the source/drain region, and a contact etching stop layer on the spacer feature.
US10483361B1
A method is presented for forming a wrap-around-contact. The method includes forming a bottom source/drain region adjacent a plurality of fins, disposing encapsulation layers over the plurality of fins, recessing at least one of the encapsulation layers to expose top portions of the plurality of fins, and for forming top spacers adjacent the top portions of the plurality of fins. The method further includes disposing a sacrificial liner adjacent the encapsulation layers, recessing the top spacers, forming top source/drain regions over the top portions of the plurality of fins, removing the sacrificial liner to create trenches adjacent the top source/drain regions, and depositing a metal liner within the trenches and over the top source/drain regions such that the wrap-around-contact is defined to cover an upper area of the top source/drain regions.
US10483357B2
A semiconductor device including: a semiconductor substrate having a drift region of the first conductivity type; a cathode region formed on the lower surface of the semiconductor substrate; a diode portion having the cathode region formed on the lower surface of the semiconductor substrate; the first dummy trench portion provided from the upper surface of the semiconductor substrate to the drift region, including one part provided inside the diode portion and the other part provided outside the diode portion, and provided extending in series from inside the diode portion to outside the diode portion in a predetermined extending direction on the upper surface of the semiconductor substrate; and the first lead-out portion that is provided on the upper surface of the semiconductor substrate, and electrically connected to the first dummy trench portion outside the diode portion is provided.
US10483355B2
A finFET device includes an n-doped source and/or drain extension that is disposed between a gate spacer of the finFET and a bulk semiconductor portion of the semiconductor substrate on which the n-doped source or drain extension is disposed. The n-doped source or drain extension is formed by a selective epitaxial growth (SEG) process in a cavity formed proximate the gate spacer.
US10483347B2
A semiconductor device includes a p-type semiconductor substrate; an n-type drift layer on the substrate; an n-type drain region in contact with the drift layer to be provided on the semiconductor substrate at a center of the drift layer; a p-type gate region on the substrate in an outer side of the drift layer, the gate region including U-shaped first and second concave patterns in a planar pattern, each having entrances of the U-shapes located with equal distances from the drain region, the bottoms of the U-shapes protruding toward an outer side of the planar pattern; n-type source regions in an inner side of the first concave patterns, each of the source regions contacts with the drift layer and the gate region; and n-type surge-current guiding-regions in an inner side of the second concave patterns, each of the surge-current guiding-regions contacts with the drift layer and the gate region.
US10483341B2
A display device includes first pixels in a first pixel area and coupled with first scan lines, first scan stage circuits in a first peripheral area outside the first pixel area, and configured to supply a first scan signal to the first scan lines, second pixels in a second pixel area having a width that is less than a width of the first pixel area, and coupled with second scan lines, second scan stage circuits in a second peripheral area outside the second pixel area, and configured to generate a second scan signal, and first load matching units respectively between the second scan stage circuits, and configured to delay the second scan signal, and to supply the delayed second scan signal to the second scan lines.
US10483334B1
A display panel comprising a first substrate, a second substrate, a color conversion layer, and an image sensing layer. A plurality of display units are between the first substrate and the second substrate. At least one of the plurality of display units has at least three sub-pixels. Each of the sub-pixels at least has one display region and a light shielding region disposed on at least one side of the display region. The color conversion layer is disposed in the display unit. Each of the color conversion elements is disposed in at least one portion of the light shielding region of each of the sub-pixels. The image sensing layer is disposed on the display unit and at least partially overlaps the color conversion layer. Each of the image sensing elements is disposed in at least one portion of the light shielding region of each of the sub-pixels to serve as an image sensing region.
US10483332B2
A flexible display device includes a first base having an active area and a dead area surrounding the active area, the first base including a pad portion provided in the dead area on one side of the active area; an array in the active area of the first base; an encapsulation layer configured to cover the array; a second base opposite to the first base; a touch electrode array on the second base to be opposite to the active area of the first base; a plurality of path holes in the dead area on at least one of the other sides of the active area on which the pad portion is not located; an inorganic dummy pattern spaced apart from the encapsulation layer among the path holes in a plane; and an adhesive layer between the encapsulation layer and the touch electrode array to fill the path holes.
US10483331B2
A method of fabricating an organic light emitting diode display device, includes forming a thin film transistor on a first substrate, forming an organic light emitting element electrically connected to the thin film transistor, on the first substrate, forming a black matrix, in which openings are formed, on one surface of a second substrate opposite to the first substrate, forming a color filter layer in the openings, forming a transparent insulation layer having a first surface and a second surface opposing the first surface on the second substrate, with the first surface of the transparent insulating layer in direct contact with the color filter layer, forming a plurality of optical patterns at the second surface of the transparent insulation layer, and attaching the first substrate and the second substrate such that the second surface of the transparent insulating layer is closer to the thin film transistor than the first substrate.
US10483330B2
There is provided an electro-optical device including a first pixel, a second pixel, a third pixel, a first light shielding portion provided between the first pixel and the second pixel, a second light shielding portion provided between the second pixel and the third pixel, in which a width of the first light shielding portion and a width of the second light shielding portion are different.
US10483329B2
The present disclosure relates to a hole transporting material having a structure of formula (I). The present disclosure provides a hole transporting material having at least one fluorenyl ring and having one non-hydrogen substituent on at least one benzene ring in the formula and being capable of obtaining a suitable mobility rate without occurrence of crosstalk between pixels. And the hole transporting material provided by the present disclosure is capable of satisfying the requirements on mask cleaning with solubility (in NMP solvent).
US10483327B2
A light-emitting diode includes a first electrode, a second electrode overlapping the first electrode, a first emission layer and a second emission layer provided between the first electrode and the second electrode, and a first charge generating layer provided between the first emission layer and the second emission layer, the first charge generating layer including a p-type charge generating layer and an n-type charge generating layer. The n-type charge generating layer may include an organic material and an inorganic material doped to the organic material, and the inorganic material may include a lanthanide metal or an alkali earth metal, and an alkali halide.
US10483321B2
A microelectronic memory having metallization layers formed on a back side of a substrate, wherein the metallization layers on back side may be used for the formation of source lines and word lines. Such a configuration may allow for a reduction in bit cell area, a higher memory array density, and lower source line and word line resistances. Furthermore, such a configuration may also provide the flexibility to independently optimize interconnect performance for logic and memory circuits.
US10483317B2
The present disclosure provides an image sensor and a method of manufacturing the same. An image sensor includes a first substrate, a barrier structure, a first structure, a second substrate, and a second structure. The first substrate includes a device region in which unit pixels are disposed and a first residual scribe lane region surrounding the device region. The first substrate has a first surface and a second surface. The barrier structure penetrates the first substrate in the first residual scribe lane region. The first surface of the first substrate is on the first structure. The second substrate includes a second residual scribe lane region facing the first residual scribe lane region. The second substrate has a front surface and a rear surface. The second structure is on the front surface of the second substrate and faces the first surface of the first substrate. The second structure is bonded to the first structure.
US10483314B2
An imaging device including an electronic shutter and a pixel array with color pixels with different characteristics of spectral sensitivity arranged. The pixel array part has at least one clear pixel, the plurality of color pixels including at least two of (i) a first color filter pixel having a peak of spectral sensitivity characteristics for red, (ii) a second color filter pixel having a peak for blue, and (iii) a third color filter pixel having a peak for green. The clear pixel has a high transmittance arranged in an oblique pixel array system at a given position of a given row and a given column with respect to the first color filter pixel, the second color filter pixel, and the third color filter pixel. An electronic shutter is separately driven for the at least one clear pixel and for the plurality of color filter pixels.
US10483311B2
The disclosure is related to a solid-state image pickup device in which an impurity concentration has a first peak including a local minimum value in a depth direction of a semiconductor substrate in an isolation region arranged between adjacent photoelectric conversion portions, the impurity concentration has a second peak including a local maximum value in the depth direction in a charge accumulation region of the adjacent photoelectric conversion portions, and a region that indicates the first peak and a region that indicates the second peak have a portion overlapped in a direction perpendicular to the depth direction.
US10483309B1
An image sensor may include an array of imaging pixels. Each imaging pixel may have a photosensitive area that is covered by a respective multipart diffractive lens to focus light onto the photosensitive area. The multipart diffractive lenses may have multiple portions with different indices of refraction. The portions of the diffractive lenses closer to the center of the diffractive lenses may have higher indices of refraction to focus light. Alternatively, the portions of the diffractive lenses closer to the center of the diffractive lenses may have lower indices of refraction to defocus light. The multipart diffractive lenses may have stacked layers with the same refractive indices but different widths.
US10483306B2
A photoelectric conversion element according to one embodiment of the disclosure includes a photoelectric conversion region inside a semiconductor layer. The photoelectric conversion region includes a region in which a depletion region is to be formed by voltage application to the semiconductor layer. The semiconductor layer has a first main surface and a second main surface. The depletion region converts light into a photoelectron, in which the light enters from side on which the first main surface is disposed. The photoelectric conversion element further includes an isoelectronic trap region in the region in which the depletion region is to be formed.
US10483295B2
An oxide semiconductor film with a low density of defect states is formed. In addition, an oxide semiconductor film with a low impurity concentration is formed. Electrical characteristics of a semiconductor device or the like using an oxide semiconductor film is improved. A semiconductor device including a capacitor, a resistor, or a transistor having a metal oxide film that includes a region; with a transmission electron diffraction measurement apparatus, a diffraction pattern with luminescent spots indicating alignment is observed in 70% or more and less than 100% of the region when an observation area is changed one-dimensionally within a range of 300 nm.
US10483292B2
The present disclosure provides an array substrate and a display device. The array substrate includes a plurality of signal lines, a plurality of secondary discharging lines arranged substantially parallel to each other, each of the plurality secondary discharging being arranged to cross the plurality of signal lines, a plurality of first electrostatic discharging units arranged in one-to-one correspondence with the plurality of signal lines, and a primary discharging line connected to the plurality of secondary discharging lines. One end of each first electrostatic discharging unit is connected to its corresponding signal line, and the other end thereof is connected to one of the plurality of secondary discharging lines.
US10483283B2
A flash memory device and its manufacturing method are presented. The flash memory device includes a substrate; a memory unit on the substrate, comprising a channel structure, wherein the channel structure comprises, sequentially from inner to outer of the channel structure, a channel layer comprising a first component substantially perpendicular to an upper surface of the substrate and a second component on the first component, a tunnel insulation layer wrapped around the channel layer, a charge capture layer wrapped around the tunnel insulation layer, and a blocking layer wrapped around the charge capture layer; a plurality of gate structures wrapped around the channel structure and arranged along a symmetry axis of the channel structure with a topmost gate structure wrapped around the second component; and a channel contact component connecting to, and forming a Schottky contact with, the second component of the channel layer. This device reduces the leakage current.
US10483282B2
Embodiments of the present disclosure generally relate to an improved method for forming a dielectric film stack used for inter-level dielectric (ILD) layers in a 3D NAND structure. In one embodiment, the method comprises providing a substrate having a gate stack deposited thereon, forming on exposed surfaces of the gate stack a first oxide layer using a first RF power and a first process gas comprising a TEOS gas and a first oxygen-containing gas, and forming over the first oxide layer a second oxide layer using a second RF power and a second process gas comprising a silane gas and a second oxygen-containing gas.
US10483279B2
A method of manufacturing a semiconductor device, comprising the steps of: forming a gate dielectric layer and a first amorphous channel layer on a substrate; thinning the first amorphous channel layer; etching the first amorphous channel layer and the gate dielectric layer until the substrate is exposed; forming a second amorphous channel layer on the first amorphous channel layer and the substrate; annealing such that the first amorphous channel layer and the second amorphous channel layer are converted into a polycrystalline channel layer; and thinning the polycrystalline channel layer. According to the method of manufacturing semiconductor device of the present invention, the grain size of the polycrystalline thin film is increased by depositing a thick amorphous film and then annealing and thinning it. An additional protective layer is used to avoid etching damage on the sidewalls, effectively reducing the interface state and damage defects of the polycrystalline channel layer, thereby enhancing the reliability of the device.
US10483278B2
Provided are nonvolatile memory devices and methods of forming the same. The nonvolatile memory device includes a plurality of word lines, a ground select line, string select line, and a dummy word line. Each of distances between the dummy word line and the ground select line and between the dummy word line and the word line is greater than a distance between a pair of the word lines adjacent to each other.
US10483277B2
According to one embodiment, a semiconductor memory device includes a substrate, interconnect portions, a conductive layer, a stacked body, and columnar portions. At least one portion of the interconnect portions is provided inside the substrate, each of the interconnect portions extends in a first direction along a surface of the substrate, and the interconnect portions are arranged along a second direction crossing the first direction. The conductive layer is provided on the interconnect portions. The stacked body is provided on the conductive layer and includes electrode layers stacked to be separated from each other, and each of the electrode layers extends in the second direction. The columnar portions are provided inside the stacked body, each of the columnar portions includes a semiconductor portion extending in a stacking direction of the electrode layers and a charge storage film provided between the semiconductor portion and the stacked body.
US10483276B2
To provide a semiconductor device capable of having an ONO-film-configuring second oxide film with an optimized thickness. The semiconductor device has a semiconductor substrate having a first surface, a first gate insulating film placed on the first surface located in a first transistor formation region, and a second gate insulating film placed on the first surface located in a second transistor formation region. The first gate insulating film has a first oxide film, a first nitride film placed thereon, and a second oxide film placed thereon. The second oxide film includes a first layer and a second layer placed thereon. The height of the first surface in a region where the second insulating film is placed is lower than that in a region where the first gate insulating film is placed. The nitrogen concentration in the first layer is higher than that in the second layer.
US10483271B2
A non-volatile memory structure including memory cells, at least one isolation layer, and at least one shield electrode is provided. The memory cells are disposed on a substrate. The isolation layer is located between the memory cells. The shield electrode is disposed on the isolation layer and electrically connected to a source line.
US10483254B2
An electronic module includes a first sub-module and a second sub-module. The first sub-module includes a first substrate, a first electronic component disposed on the first substrate and a first electrode. The second sub-module includes a second substrate, a second electronic component disposed on the second substrate and a second electrode spaced from the first electrode. The second electrode faces the first electrode to form a capacitor for transmitting an alternating current (AC) signal between the first sub-module and the second sub-module.
US10483253B1
Embodiments describe a display integration scheme in which an array of pixel driver chips embedded front side up in an insulator layer. A front side redistribution layer (RDL) spans across and is in electrical connection with the front sides of the array of pixel driver chips, and an array of light emitting diodes (LEDs) is bonded to the front side RDL. The pixel driver chips may be located directly beneath the display area of the display panel.
US10483249B2
Embodiments are generally directed to integrated passive devices on chip. An embodiment of a device includes a semiconductor die; a semiconductor die package, a first side of the package being coupled with the semiconductor die; and one or more separate dies to provide passive components for operation of the semiconductor die, wherein the passive components for operation of the semiconductor die includes inductors.
US10483238B2
An integrated circuit package with improved reliability and methods for creating the same are disclosed. More specifically, integrated circuit packages are created using one or more sacrificial layers that provide support for ink printed wires prior to package processing, but are removed during package processing. Once each of the sacrificial layers is removed, molding compound is placed around each ink printed wire, which may have a substantially rectangular cross section that can vary in dimension along a length of a given wire. While substantially surrounding each wire in and of itself improves reliability, removing non-conductive paste, fillets, or other adhesive materials also minimizes adhesion issues between the molding compound and those materials, which increases the bond of the molding compound to the package and its components. The net result is a more reliable integrated circuit package that is less susceptible to internal cracking and wire damage.
US10483234B2
Chip packages and method of manufacturing the same are disclosed. In an embodiment, a chip package may include: a redistribution layer (RDL); a first chip including a plurality of first contact pads, the plurality of first contact pads facing the RDL; a second chip disposed between the first chip and the redistribution layer (RDL) wherein a portion of the first chip is disposed outside a lateral extent of the second chip; and a conductive via laterally separated from the second chip, the conductive via extending between the RDL and a first contact pad of the plurality of first contact pads, the first contact pad located in the portion of the first chip disposed outside the lateral extent of the second chip.
US10483233B2
A multi-chip module, and method of fabricating the multi-chip module. The multi-chip module includes: a substrate containing multiple wiring layers, each wiring layer having first pads on a top surface of the substrate and second pads on a bottom surface of the substrate, wherein the second pads include split pad and a conventional pad; a first solder ball in direct physical contact with a contiguous bottom surface of the conventional pad and connected to a next level of packaging under the conventional pad, wherein the first solder ball has a first height; and a second solder ball in direct physical contact with first and second sections of the split pad separated by a gap, wherein the second solder ball has a second height that is sufficiently less than the first height such that the second solder ball is not connected to the next level of packaging.
US10483225B2
A packaging assembly includes a semiconductor device. The semiconductor device includes a conductive pad having a first width, and an under-bump metallization (UBM) layer on the conductive pad, wherein the UBM layer has a second width greater than the first width. The semiconductor device further includes a conductive pillar on the UBM layer, and a cap layer over the conductive pillar, wherein the cap layer exposes sidewalls of the UBM layer. The packaging assembly further includes a substrate. The substrate includes a conductive region, and a mask layer overlying the substrate and exposing a portion of the conductive region. The packaging assembly further includes a joint solder structure between the conductive pillar and the conductive region.
US10483223B2
A slit is formed along a coupling portion at which a second interconnect is connected to a relatively large area interconnect or pad. Since tensile stress of a resist that is caused due to baking, UV curing, or other treatments in photolithography can be dispersed, contraction and deformation of the resist at an end of the second interconnect can be alleviated, and dimensions and shape of a interconnect, which is formed by etching, can be stabilized.
US10483220B2
In one embodiment, a method manufactures a semiconductor device including metallizations having peripheral portions with one or more underlying layers having marginal regions extending facing the peripheral portions. The method includes: providing a sacrificial layer to cover the marginal regions of the underlying layer, providing the metallizations while the marginal regions of the underlying layer are covered by the sacrificial layer, and removing the sacrificial layer so that the marginal regions of the underlying layer extend facing the peripheral portions in the absence of contact interface therebetween, thereby avoiding thermo-mechanical stresses.
US10483208B2
A semiconductor device includes a semiconductor substrate comprising a contact region, a silicide present on the contact region, a dielectric layer present on the semiconductor substrate, the dielectric layer comprising an opening to expose a portion of the contact region, a conductor present in the opening, a barrier layer present between the conductor and the dielectric layer, and a metal layer present between the barrier layer and the dielectric layer, wherein a Si concentration of the silicide is varied along a height of the silicide.
US10483204B2
The semiconductor structure includes a plurality of FETs disposed on a semiconductor substrate, the FETs including gates with elongated shape oriented in a first direction; a first metal layer of first metal lines disposed over the gates and oriented in a second direction perpendicular to the first direction; a second metal layer of second metal lines disposed over the first metal layer and oriented in the first direction; and a third metal layer of third metal lines oriented in the second direction and disposed over the second metal layer. The first metal lines have a first pitch P1; the second metal lines have a second pitch P2; the third metal lines have a third pitch P3; and the gates have a fourth pitch P4, wherein a ratio of the second pitch over the fourth pitch P2:P4 is about 3:2.
US10483203B2
Provided herein is a semiconductor memory device. The semiconductor memory device may include channel layers protruding away from a substrate. The semiconductor memory device may include a plurality of pads respectively coupled to the channel layers. The widths of the pads may or may not be increased depending on a bending of the channel layers.
US10483194B2
The invention provides an interposer substrate and a method of fabricating the same. The method includes: etching a carrier to form a recessed groove thereon; filling a dielectric material in the recessed groove to form a first dielectric material layer, or forming a patterned first dielectric material layer on the carrier; forming a first wiring layer, a first conductive block and a second dielectric material layer on the carrier and the first dielectric material layer sequentially, with the first wiring layer and the first conductive block embedded in the second dielectric material layer; and forming a second wiring layer and a second conductive block on the second dielectric material layer. A coreless interposer substrate having fine pitches is thus fabricated.
US10483191B2
A MEMS pressure sensor packaged with a molding compound. The MEMS pressure sensor features a lead frame, a MEMS semiconductor die, a second semiconductor die, multiple pluralities of bonding wires, and a molding compound. The MEMS semiconductor die has an internal chamber, a sensing component, and apertures. The MEMS semiconductor die and the apertures are exposed to an ambient atmosphere. A method is desired to form a MEMS pressure sensor package that reduces defects caused by mold flashing and die cracking. Fabrication of the MEMS pressure sensor package comprises placing a lead frame on a lead frame tape; placing a MEMS semiconductor die adjacent to the lead frame and on the lead frame tape with the apertures facing the tape and being sealed thereby; attaching a second semiconductor die to the MEMS semiconductor die; attaching pluralities of bonding wires to form electrical connections between the MEMS semiconductor die, the second semiconductor die, and the lead frame; and forming a molding compound.
US10483185B2
A semiconductor device includes a semiconductor chip including a substrate and an element region on the substrate, a heat transfer body made of diamond, and a metal layer between the semiconductor chip and the heat transfer body, wherein the substrate includes an amorphous region on a back surface thereof, the amorphous region and the metal layer are bonded to each other, and the metal layer and the heat transfer body are bonded to each other.
US10483184B1
A recursive metal-embedded chip assembly (R-MECA) process and method is described for heterogeneous integration of multiple die from diverse device technologies. The recursive aspect of this integration technology enables integration of increasingly-complex subsystems while bridging different scales for devices, interconnects and components. Additionally, the proposed concepts include high thermal management performance that is maintained through the multiple recursive levels of R-MECA, which is a key requirement for high-performance heterogeneous integration of digital, analog mixed signal and RF subsystems. At the wafer-scale, chips from diverse technologies and different thicknesses are initially embedded in a metal heat spreader surrounded by a mesh wafer host. An embodiment uses metal embedding on the backside of the chips as a key differentiator for high-density integration, and built-in thermal management. After die embedding, wafer-level front side interconnects are fabricated to interconnect the various chips and with each other. The wafer is then diced into individual metal-embedded chip assembly (MECA) modules, and forms the level one for multi-scale R-MECA integration. These modules are subsequently integrated into another wafer or board using the same integration approach recursively. Additional components such as discrete passive resistors, capacitors and inductors can be integrated at the second level, once the high-resolution, high-density integration has been performed at level zero. This recursive integration offers a practical solution to build very large scale integrated systems and subsystems.
US10483179B2
To enhance the reliability of a semiconductor device. A semiconductor device is provided that includes a semiconductor element having a first pad, a frame member having a second pad, a connection member that contains at least one of copper and silver and connects the first pad and the second pad, and a sealing portion that is formed of resin composition containing no sulfur and seals the semiconductor element, the frame member, and the connection member, wherein arithmetic mean roughness of an upper surface of the first pad is equal to or greater than 0.02 μm. Arithmetic mean roughness of an upper surface of the second pad may be greater than the arithmetic mean roughness of the first pad. Sulfur content contained in the resin composition may be less than NH4 ion content contained in the resin composition.
US10483171B2
Methods and apparatuses relate to implanting a surface of a semiconductor substrate with dopants, making undoped semiconductor material directly on the surface implanted with the dopants, and making a transistor with a transistor channel in the undoped semiconductor material, such that the transistor channel of the transistor remains undoped throughout manufacture of the integrated circuit.
US10483165B2
A method includes forming an ILD to cover a gate stack of a transistor. The ILD and the gate stack are parts of a wafer. The ILD is etched to form a contact opening, and a source/drain region of the transistor or a gate electrode in the gate stack is exposed through the contact opening. A conductive capping layer is formed to extend into the contact opening. A metal-containing material is plated on the conductive capping layer in a plating solution using electrochemical plating. The metal-containing material has a portion filling the contact opening. The plating solution has a sulfur content lower than about 100 ppm. A planarization is performed on the wafer to remove excess portions of the metal-containing material. A remaining portion of the metal-containing material and a remaining portion of the conductive capping layer in combination form a contact plug.
US10483150B2
An apparatus for stacking semiconductor chips includes a push member configured to apply pressure to a semiconductor chip disposed on a substrate. The push member includes a push plate configured to contact the semiconductor chip, and a push rod connected to the push plate. The push plate includes a central portion having an area smaller than an area of an upper side of the semiconductor chip, and a plurality of protrusions disposed at respective ends of the central portion.
US10483134B2
A substrate treatment device includes: a substrate holding unit including a plate-shaped holding table that rotatably holds a substrate so that a surface of the substrate on which the fine patterns are formed faces downward, and a plurality of holding pins provided on the holding table to hold an outer periphery of the substrate at a plurality of points; a heater that heats the substrate; a cover that internally houses the substrate holding unit and the heater, and forms a treatment chamber; a pump that exhausts the treatment chamber to make a negative-pressure atmosphere; an inert gas supply port that faces an opposite side surface opposite to the surface with the fine patterns formed thereon, and supplies inert gas into the treatment chamber; and a nozzle to jet a cleaning solution toward the surface with the fine patterns formed thereon and a gas exhaust port to communicate with the pump.
US10483131B2
Provided are an electronic-device-protecting film used when semiconductor parts obtained by segmentation are to be sealed in the form of an array using a sealant after the semiconductor parts are rearranged, wherein the curing temperature of the sealant does not need to be adjusted downward; an electronic-device-protecting member; a method for manufacturing an electronic device; and a method for manufacturing a package. The electronic-device-protecting film includes a base layer and an adhesive layer, and the method includes: bonding the adhesive layer to one surface of a frame having an opening, the adhesive layer being bonded so as to cover the opening; subsequently bonding a plurality of semiconductor parts to the surface of the adhesive layer that is exposed via the opening with the semiconductor parts set apart from each other; subsequently covering the semiconductor parts and the surface of the adhesive layer with a sealant; and heat-curing the sealant.
US10483128B2
Epitaxial wafers with a high concentration of BMD nuclei or developed BMDs just below a denuded zone, and having low surface roughness, are produced by forming an oxynitride layer on a purposefully oxidized epitaxial layer by a short RTA treatment in a nitriding atmosphere, removing the oxynitride layer, and then polishing the epitaxial surface.
US10483124B2
According to one embodiment, a semiconductor device includes: a first stack above a substrate and including insulation layers and conductive layers alternately stacked in a first direction, the first stack including a staircase-shaped portion in an end portion of the first stack in a second direction parallel to a main face of the substrate, the staircase-shaped portion including steps and terraces corresponding to the conductive layers, at least a part of the steps having arc shape curved along a third direction crossing the second direction; and a second stack above the substrate and including first and second layers stacked in the first direction. In the second and/or third direction, a dimension of the first stack is larger than a dimension of the second stack.
US10483121B2
A low-k dielectric layer, such as SiCOH, with high and stable chemical mechanical polishing (CMP) removal rate (RR) is disclosed. The polishing rate enhancer (PRE) is disposed on the low-k dielectric layer. The PRE increases the CMP RR during CMP. Furthermore, the PRE stabilizes the increases CMP RR. This is particularly useful, for example, for memory applications in which the storage unit is formed in a low-k back-end-of-line (BEOL) dielectric layer. For example, the topography created can be quickly planarized by CMP while producing a uniform polished surface of the low-k dielectric layer due to the shortened processing time.
US10483119B1
The present disclosure relates to integrated circuit device manufacturing processes. A self-aligned double patterning method is provided. In the method, a lithography process for line cut that determines the locations of line termini is performed after forming a spacer layer alongside the mandrel and prior to stripping the mandrel. The lithographic mask for the line cut is aligned to the mandrel and the spacer layer using a mark made of the mandrel material and the spacer material. Compared to the previous approach where the line cut process is performed after the mandrel removal, in the disclosed approach, the line termini mask is made of the mandrel material and the spacer material, and is more distinguishable compared to a mark made of just the spacer material. Thereby, the methods provide robust photo alignment signal for the line cut photolithography and precise positioning of the line termini mask.
US10483116B2
Processing methods comprising exposing a substrate to an optional nucleation promoter followed by sequential exposure of a first reactive gas comprising a metal oxyhalide compound and a second reactive gas to form a metal film on the substrate.
US10483113B2
There is provided a TFT substrate that prevents corrosion of a gate electrode and a method for manufacturing the TFT substrate. The TFT substrate comprises a substrate; a gate comprising a gate electrode and a gate wiring, the gate comprising copper and formed on one surface of the substrate; a protection film to cover the gate; an insulation film formed on the protection film; a semiconductor film formed on the insulation film; and a source and a drain formed on the semiconductor film and facing each other with a space therebetween above the gate electrode, wherein the protection film covers entire exposed surface of the gate.
US10483101B2
Disclosed herein are glass-based articles having a first surface having an edge, wherein a maximum optical retardation of the first surface is at the edge and the maximum optical retardation is less than or equal to about 40 nm and wherein the optical retardation decreases from the edge toward a central region of the first surface, the central region having a boundary defined by a distance from the edge toward a center point of the first surface, wherein the distance is ½ of the shortest distance from the edge to the center point.
US10483083B2
In this invention, information of material composition, process conditions and candidates of crystal structure either known or imported from material database is used to determine sample stage tilt angle and working distance (WD). Under these determined tilt angle and WD, the intensity of the electrons emitted at different angles and with different energies is measured using a scanning electron microscope (SEM) system comprising: a use of materials database containing materials composition, formation process, crystal structure and its electron yield; a sample stage that is able to move, rotate and tilt; an processing section for calculating optimum working distance for an observation from material database and measurement condition; means for acquiring an image of crystal information of a desired area of a sample based on an image obtained from SEM observation.
US10483081B2
Methods and systems for determining parameter(s) of a process to be performed on a specimen are provided. One system includes one or more computer subsystems configured for determining an area of a defect detected on a specimen. The computer subsystem(s) are also configured for correlating the area of the defect with information for a design for the specimen and determining a spatial relationship between the area of the defect and the information for the design based on results of the correlating. In addition, the computer subsystem(s) are configured for automatically generating a region of interest to be measured during a process performed for the specimen with a measurement subsystem based on the spatial relationship.
US10483077B2
This specification describes an anode for an X-ray tube with multiple channels, where each channel defines an electron aperture through which electrons from a source pass to strike a target and a collimating aperture through which X-rays produced at the target pass out of the anode as a collimated beam. At least a portion of the walls of each channel are lined with an electron absorbing material for absorbing any electrons straying from a predefined trajectory. The electron absorbing material has a low atomic number, high melting point and is stable in vacuum. Graphite may be used as the electron absorbing material.
US10483072B2
An interrupter device for interrupting a direct current between a direct current source and an electrical device, for example, between a photovoltaic generator and an inverter. The interrupter device has a mechanical switch which has a first fixed contact, a second fixed contact, and a contact bridge that can be moved between a first position and a second position. The contact bridge and the first fixed contact are electrically contacted to a semiconductor switch which blocks a current when the contact bridge is in the first position. A control input of the semiconductor switch is connected to the mechanical switch such that an arc voltage generated as a result of an arc across the switch connects the semiconductor switch so as to conduct a current when the contact bridge is moved into the second position.
US10483061B2
A protection device including: (i) a protection component having a first thermal fuse and a resistive body, the resistive body being supplied with a current in an abnormal state to generate heat, the heat activating the first thermal fuse to cut off the current; (ii) a PTC component; and (iii) a second thermal fuse, the second thermal fuse being electrically connected in series to the PTC component, the first thermal fuse of the protection component being electrically connected in parallel to the PTC component and to the second thermal fuse, and the protection component being activated in the abnormal state so that the PTC component trips to generate heat, the heat blowing the second thermal fuse.
US10483060B2
A powered surgical tool with a switch for regulating tool operation. A pair of opposed arms extend outwardly from opposed sides of the switch. The arms move between safety and run states. When the arms are in the safety state, the arms engage a static surface to prevent movement of the switch. When in the arms are in the run state the arms are spaced from the static surface so movement is allowed. The arms are connected together so that the movement of one arm results in simultaneous movement of the other arm.
US10483052B2
A method for cleaning electrical contacts of an electrical switching device includes displacing a first electrical contact element and a second electrical contact element of an electrical contact relative to each other so that the first electrical contact element and the second electrical contact element are in a closed position; and when the first and second electrical contact elements are in the closed position applying a waveform on the electrical contact so that the first contact element and the second contact element are excited to undergo a mechanical vibration relative to each other.
US10483048B2
A capacitor-type power supply unit including: a positive bus to which a plurality of capacitor is connected in parallel at each positive-electrode terminal thereof with maintaining equal intervals therebetween, and extends in a parallel direction; and an negative bus to which the plurality of capacitor is connected in parallel, at each negative-electrode terminal thereof with maintaining equal intervals therebetween, and extends in the parallel direction, in which the positive bus has a positive-electrode-side external connection part that is set at a position (SD) separated from the positive-electrode first end by a range of 20% to 30% of the total length in the longitudinal direction thereof, and the negative bus has an negative-electrode-side external connection part that is set at a position (SD) separated from the negative-electrode second end by a range of 20% to 30% of the total length in the longitudinal direction thereof.
US10483046B2
Embodiments of the present disclosure provide for single crystal organometallic halide perovskites, methods of making, methods of use, devices incorporating single crystal organometallic halide perovskites, and the like.
US10483036B2
An audio speaker including a bobbin-less voice coil having epoxy-bound winding layers is disclosed. More particularly, a voice coil may include a first winding layer and a second winding layer coaxially arranged about a central axis. The winding layers may include respective wire turns coiled about the central axis in a longitudinal direction. The winding layers may be bound by an epoxy matrix. For example, the epoxy matrix may be disposed radially between the first winding layer and the second winding layer to bond first wire turns to second wire turns, and to bond the winding layers to a speaker diaphragm.
US10483030B2
A coil unit includes ferrite cores; and a coil disposed to face the ferrite cores, the coil including a plurality of curve portions. Each curve portion is wound across a virtual straight line extending through a curvature center of the curve portion. The ferrite cores include curve portion ferrite cores disposed to face the curve portions, respectively. Each of the curve portion ferrite cores is provided such that a width of a region with a highest magnetic flux density is larger than a width of a region other than the region with the highest magnetic flux density, in a region that faces the coil, in a case where a length direction is defined as a direction in which the virtual straight line extends, and a width direction is defined as a direction perpendicular to the virtual straight line.
US10483022B2
A device for the production of cable sensors that each have at least one sensor and a cable trimmed to a variably pre-definable length includes at least two processing units, and at least one conveying unit. The processing units are configured to load and cut a cable blank, and are further configured to sequentially convey the cable blank along a pre-defined motion track. At least one deflection unit is positioned between adjacent processing units. Each deflection unit includes at least one deflection element that is in contact with or is configured to contact the cable blank. A displacement unit is assigned to and is configured to modify a position of the deflection element in order to influence a length of the motion track of the cable blank so as to obtain variable lengths of cable.
US10483021B2
A cable is specified, specifically for a signal line, which extends in a longitudinal direction and which includes an inner conductor and also an outer conductor. Between the inner conductor and the outer conductor there is formed an insulating material which surrounds the inner conductor and which has a surface that has been at least partially carbonized. Furthermore, a production method for such a line is specified.
US10483012B1
Nanocomposite films comprising carbon nanotubes dispersed throughout a polymer matrix and further comprising at least two surfaces with differing amounts of carbon nanotubes and differing electrical resistivity values are provided. Nanocomposite films comprising a polymer layer, a conductive nanofiller layer, and a polysaccharide layer having antistatic properties are provided. In particular, nanocomposites comprising polyvinyl alcohol as the polymer, graphene as the conductive nanofiller and starch as the polysaccharide are provided. In addition, processes for forming the nanocomposites, methods for characterizing the nanocomposites as well as applications in or on electrical and/or electronic devices are provided.
US10483008B2
Chromatography columns for the purification of eluates from 68Ge/68Ga generators comprising silica as stationary phase and purification processes that use said columns are described.
US10483005B2
Methods and systems for estimating patient-specific cardiac electrical properties from medical image data and non-invasive electrocardiography measurements of a patient are disclosed. A patient-specific anatomical heart model is generated from medical image data of a patient. Patient-specific cardiac electrical properties are estimated by simulating cardiac electrophysiology over time in the patient-specific anatomical heart model using a computational cardiac electrophysiology model and adjusting cardiac electrical parameters based on the simulation results and the non-invasive electrocardiography measurements. A patient-specific cardiac electrophysiology model with the patient-specific cardiac electrical parameters can then be used to perform virtual cardiac electrophysiology interventions for planning and guidance of cardiac electrophysiology interventions.
US10483000B2
Methods, systems, and devices are disclosed for administering a medicament to a patient. In one aspect, a system includes an injection pen device in wireless communication with a mobile communication device. The injection pen device includes a housing including a chamber to encase a cartridge containing medicine, a dose setting and dispensing mechanism to set the mechanism to dispense a particular dose of the medicine from the loaded cartridge, a sensor unit to detect a dispensed dose based on positions and/or movements of the dose setting and dispensing mechanism, and an electronics unit in communication with the sensor unit to process the detected dispensed dose and time data associated with a dispensing event and to wirelessly transmit the dose data to a user's device. The mobile communication device provides a software application to provide the user with health information using the processed dose data.
US10482996B2
Systems, media, and methods for determining relative geochemical data are provided. Measurement data may be received that is indicative of relative yields of a plurality of chemical components in a rock formation. First absolute yields of at least a portion of the plurality of chemical components in a presence of 100% of a first volumetric component in the rock formation may be determined. Second absolute yields of at least a portion of the plurality of chemical components in a presence of 100% of a second volumetric component in the rock formation may also be determined. A volume of the first volumetric component, a volume of the second volumetric component, and a sum of yields of the plurality of chemical components may be determined using the first and second absolute yields and the relative yields.
US10482989B1
Systems and methods disclosed herein provide for improved diagnostics for memory built-in self-test (“MBIST”). Embodiments provide for a two-pass diagnostic test of the target memory, wherein, in the first pass, a data compare unit provides clock cycle values associated with detected mis-compares to a tester, and, in the second pass, the data compare unit extracts data vectors associated with the clock cycle values. Embodiments further provide for a bit fail map report that is generated based on the extracted data vectors.
US10482975B2
An integrated circuit device may at least one memory cell configured for dual erase modes. Each memory cell may be configured to be erased via two different nodes, which may be selectively used (e.g., in any switched or alternating manner) to reduce the erase cycling at each individual node and thereby increase (e.g., double) the lifespan of the cell. For example, the device may include flash memory cells having a pair of program/erase nodes (e.g., an erase gate and a word line) formed over each respective floating gate, wherein the program/erase nodes are selectively used (e.g., in any switched or alternating manner) for the cell erase function.
US10482973B2
A memory device can include: a memory cell array including a memory cell and a word line that is connected to the memory cell; a clock generator configured to generate a first pumping clock signal from a system clock signal; a charge pump configured to provide a pumping voltage signal using a power supply voltage and the first pumping clock signal; a compensation circuit configured to compensate for variations in a first reference clock signal in accordance with variations in the power supply voltage, and provide a compensated first reference clock signal; and a pass/fail (P/F) determining circuit configured to determine whether the word line is defective by comparing the first pumping clock signal and the compensated first reference clock signal while the pumping voltage signal is provided to the word line.
US10482966B2
A block decoder of nonvolatile memory includes a level shifter and a decoder. A first transistor has a control terminal coupled to a first control node, a first terminal coupled to an output node, and a second terminal coupled to a first supply voltage. A second transistor has a control terminal coupled to a second control node, a first terminal coupled to a ground voltage, and a second terminal coupled to the output node. A third transistor has a control terminal coupled to the output node, a first terminal coupled to a first node, and a second terminal coupled to second supply voltage. A fourth transistor has a control terminal coupled to the second control node, a first terminal coupled to the first node, and a second terminal coupled to the output node.
US10482965B1
A system includes a memory device storing a set of start voltage values, wherein the set of start voltage values each represent voltage levels used to initially store charges in performing operations to corresponding one or more memory locations of the memory device; and a processing device, operatively coupled to the memory device, to: determine whether a quantity of start voltage values in the set of start voltage values stored in the memory device meets a threshold; modify the set of start voltage values stored in the memory device to remove one or more start voltage values from the set in response to a determination that the quantity of start voltage values in the set meets the threshold; and add a new start voltage value to the modified set of start voltage values.
US10482950B2
The present application relates to an improved static random access memory (SRAM) device having a plurality of storage cells and a separate read/write circuit. Each of the plurality of storage cells is connected to a read/write data node of the read/write circuit by a dedicated connection, and an access switch which permits read/write access to the storage cell. The dedicated connection exhibits a greater capacitance than the read/write data node of the read/write circuit, such that the primary read mechanism of the SRAM is charge equalization. The SRAM write data connection to the read/write node of the read/write circuit, to permit data to be written to the plurality of storage cells. Write assist techniques are disclosed which assist writing of a ‘1’ to the plurality of storage cells.
US10482948B2
The present disclosure includes apparatuses and methods for data movement. An example apparatus includes a memory device that includes a plurality of subarrays of memory cells and sensing circuitry coupled to the plurality of subarrays. The sensing circuitry includes a sense amplifier and a compute component. The memory device includes a latch selectably coupled to a column of the memory cells and configured to store a data value moved from the sensing circuitry. The memory device includes a controller configured to direct movement of the data value from the sensing circuitry to the latch.
US10482947B2
A multi-die memory device having fixed bandwidth interfaces can selectively connect portions of the interfaces of the multiple memory dies as a memory channel for the multi-die device. The selective application of the interface bits of the memory dies enables the application of ECC (error checking and correction) in memory devices that otherwise have insufficient connectors to exchange ECC information. The device includes circuitry to selectively apply CAS (column address select) signals to the memory dies to selectively connect the connectors of the memory dies. CAS selection can provide various configurations in which selected bits of a first memory die interface are combined with selected bit or bits of a second memory die interface to provide the device interface. The memory dies can operate in byte mode to apply only half of their data I/O (input/output) interface, with CAS doubled up to provide access to the memory arrays.
US10482945B2
Memory devices, systems including memory devices, and methods of operating memory devices in which multiple counters are provided to permit memory refresh commands greater freedom in targeting subsets of the memory device for data refresh operations. In one embodiment, a memory device is provided, comprising a plurality of memory banks, and circuitry configured to (i) store a plurality of values, each of the plurality of values corresponding to one of the plurality of memory banks; (ii) refresh first data stored in a first one of the plurality of memory banks; and (iii) update a first one of the plurality of values corresponding to the first one of the plurality of memory banks based at least in part on refreshing the first data.
US10482943B2
Systems and methods are disclosed for error correction control (ECC) for a refreshable memory device coupled to a system on a chip SoC. The memory device including a parity region and a user data region. A method includes determining with the SoC a first refresh rate for the user data region of the memory device and a second refresh rate for the parity region of the memory device, where the second refresh rate is different than the first refresh rate. Parity data is generated for a write operation of a user payload data (UPD) to the user data region of the memory device. The user data region of the memory device is refreshed at the first refresh rate and the parity region is refreshed at the second refresh rate.
US10482933B2
The present disclosure relates to a structure including a column multiplexor circuit with a plurality of bit line groups to perform a read operation of data using half of a plurality of column selection signals in the column multiplexor circuit, and each of the bit line groups comprises a reference bit line column, a plurality of transistors, and a plurality of bit lines.
US10482929B2
Non-volatile (NV) memory (NVM) matrix circuits employing NVM circuits for performing matrix computations are disclosed. In exemplary aspects disclosed herein, an NVM matrix circuit is provided that has a plurality of NVM storage string circuits each comprising a plurality of NVM bit cell circuits each configured to store a memory state. Each NVM bit cell circuit has a stored memory state represented by a resistance, and includes a transistor whose gate node is coupled to a word line among a plurality of word lines configured to receive an input vector of 1×m size for example. Activation of the gate of a given NVM bit cell circuit controls whether its resistance is contributed to a respective source line. This causes a summation current to be generated on each source line based on the weighted summed contribution of each NVM bit cell circuit's resistance to its respective source line.
US10482925B1
A system and method for selecting portions of video data from preview video data is provided. The system may extract image features from the preview video data and discard video frames associated with poor image quality based on the image features. The system may determine similarity scores between individual video frames and corresponding transition costs and may identify transition points in the preview video data based on the similarity scores and/or transition costs. The system may select portions of the video data for further processing based on the transition points and the image features. By selecting portions of the video data, the system may reduce a bandwidth consumption, processing burden and/or latency associated with uploading the video data or performing further processing.
US10482924B2
At least one video stream that is encoded video information, and a management information file indicating attributes relating to the entire recording medium, are recorded in a recording medium. The management information file includes attribute information indicating whether the dynamic range of luminance of an initial video stream, which is played first out of the at least one video stream when the recording medium is inserted into a playback device, is a first dynamic range, or a second dynamic range that is broader than the first dynamic range.
US10482911B1
A first drive volume formed on a disk within a drive enclosure. The first drive volume is read from and written to by a first head that is moved by a first actuator, A second drive volume is formed on the one or more disks. The second volume is read from and written to by a second head that is moved via a second actuator within the drive enclosure. The second actuator is separate and independent from the first actuator. Data of the first drive volume is duplicated onto the second drive volume, Background validation operations are performed on the second drive volume instead of the first volume.
US10482908B2
An apparatus comprises a laser diode configured to generate light during a write operation. A slider comprises a near-field transducer (NFT) and an optical waveguide. The slider is configured for heat-assisted magnetic recording and to communicate the light to the NFT via the waveguide. A writer heater of the slider is configured to receive power during the write operation. A thermal sensor is situated at or near an air bearing surface of the slider. The thermal sensor is configured to produce a sensor signal in response to sensing back-heating from the medium while the NFT generates heat during a write operation. Circuitry, coupled to the thermal sensor, is configured to compare the sensor signal to a threshold and generate an output signal indicative of degradation of NFT performance in response to the sensor signal exceeding the threshold.
US10482896B2
The present invention relates to a multi-band noise reduction system for digital audio signals producing a noise reduced digital audio output signal from a digital audio signal. The digital audio signal comprises a target signal and a noise signal, i.e. a noisy digital audio signal. The multi-band noise reduction system operates on a plurality of sub-band signals derived from the digital audio signal and comprises a second or adaptive signal-to-noise ratio estimator which is configured for filtering a plurality of first signal-to-noise ratio estimates of the plurality of sub-band signals with respective time-varying low-pass filters to produce respective second signal-to-noise ratio estimates of the plurality of sub-band signals. A low-pass cut-off frequency of each of the time-varying low-pass filters is adaptable in accordance with a first signal-to-noise ratio estimate determined by a first signal-to-noise ratio estimator and/or the second signal-to-noise ratio estimate of the sub-band signal.
US10482890B2
Methods, apparatus, systems and articles of manufacture (e.g., physical storage media) to determine media device activation based on frequency response analysis are disclosed. Example methods disclosed herein include reusing first frequency values of audio sensed with a microphone to determine a first frequency response of the sensed audio, the first frequency values having been determined to perform watermark detection during a first monitoring time interval. Disclosed example methods also include comparing the first frequency response to a reference frequency response to determine whether the media device was active during the first monitoring time interval.
US10482880B2
A first communication path for receiving a communication is established. The communication includes speech, which is processed. A speech pattern is identified as including a voice-command. A portion of the speech pattern is determined as including the voice-command. That portion of the speech pattern is separated from the speech pattern and compared with a second speech pattern. If the two speech patterns match or resemble each other, the portion of the speech pattern is accepted as the voice-command. An operation corresponding to the voice-command is determined and performed. The operation may perform an operation on a remote device, forward the voice-command to a remote device, or notify a user. The operation may create a second communication path that may allow a headset to join in a communication between another headset and a communication device, several headsets to communicate with each other, or a headset to communicate with several communication devices.
US10482877B2
Examples described herein include systems, methods, and devices for transmitting a media signal to the remote sensor, receiving a sound signal from the remote sensor, and monitoring the sound signal and the media signal to recognize voice commands.
US10482875B2
A language model may be used in a variety of natural language processing tasks, such as speech recognition, machine translation, sentence completion, part-of-speech tagging, parsing, handwriting recognition, or information retrieval. A natural language processing task may use a vocabulary of words, and a word hash vector may be created for each word in the vocabulary. A sequence of input words may be received, and a hash vector may be obtained for each word in the sequence. A language model may process the hash vectors for the sequence of input words to generate an output hash vector that describes words that are likely to follow the sequence of input words. One or words may then be selected using the output word hash vector and used for a natural language processing task.
US10482874B2
Systems and processes for operating a digital assistant using a hierarchical belief state are disclosed. In an example process, a user utterance of a dialog is received. A belief state for the dialog is determined. The belief state comprises a plurality of dialog slots. Each dialog slot of the plurality of dialog slots includes a respective marginal certainty for a concept or property represented by the respective dialog slot. A first dialog slot of the plurality of dialog slots further includes one or more joint certainties for one or more interpretations arising from the first dialog slot. Based on the marginal certainty of each dialog slot of the plurality of dialog slots and the one or more joint certainties of the first dialog slot, a policy action is selected from a plurality of candidate policy actions that correspond to the belief state. The selected policy action is performed.
US10482871B2
A method for processing signals, a terminal device, and a non-transitory computer-readable storage medium are provided. The method includes the following. A sound signal of external environment is recorded via a microphone of a headphone when the headphone is in a playing state. Feature audio in the sound signal is identified and reminding information corresponding to the feature audio is acquired. Inquire of a user whether recorded sound signal is critical according to the reminding information in response to the headphone being paused. An input operation of the user is detected and the sound signal is processed according to the input operation of the user.
US10482855B2
To provide a change of sound in response to a player's operation that is close to the change of sound of real hi-hat cymbals. A hi-hat cymbal sound generation apparatus according to the present invention includes an input part, a recording part, a trigger part and a sound volume control part. The input part acquires state information and vibration information. The recording part records data on a foot close sound, data on a foot open sound, and data on a hit sound in each state indicated by the state information. The trigger part checks whether the vibration indicated by the vibration information falls within a predetermined range in which a sound generation procedure is to be started, and starts sound generation procedures for at least all the hit sounds when the trigger part determines that the vibration falls within the range in which a sound generation procedure is to be started.
US10482851B2
A keyboard instrument includes a plurality of key blocks, and an instrument case. Each key block includes, a plurality of key main bodies, an area of the top surface abutting one edge side of the key main body in a longitudinal direction is pressed by a user; a plurality of connecting sections, the connecting section is deformed in response to be pressed by the user; and a supporting section which supports the plurality of key main bodies as one key block through the plurality of connecting sections. The plurality of supporting sections included in the plurality of key blocks are piled up in a direction intersecting with the longitudinal direction in the instrument case. The plurality of connecting sections included in one key block and the plurality of connecting sections included in another key block are overlapped each other in the instrument case.
US10482846B2
A display device includes a communication section configured to perform communication with an external display device, a display section configured to display an image corresponding to image information, and a control section configured to cause the communication section to transmit first information to the external display device and, when receiving second information from the external display device via the communication section after causing the communication section to transmit the first information to the external display device, prohibit the display section from displaying the image for a first period and thereafter cause the display section to display the image.
US10482845B2
An electronic apparatus of the present disclosure includes: a communicator comprising communication circuitry configured to wirelessly communicate with one or more external apparatuses; a signal processor configured to process data; and a controller configured to control an external apparatus to be designated as a transmitter for transmitting data and the electronic apparatus to be designated as a receiver for receiving the data from the transmitter if it is determined that the external apparatus is within a preset distance of the electronic apparatus and the external apparatus is moving.
US10482843B2
In an embodiment, a user equipment (UE) coupled to a display screen enters into a reduced blue light (RBL) mode. The UE determines, while operating in accordance with the RBL mode, a degree of blue light reduction in at least a portion of a display frame to be output on the display screen using at least one RBL rule from a set of RBL rules that is based upon one or more of (i) application-specific information of an application that is contributing image data to the portion of the display frame, and (ii) content-specific information that characterizes the image data in the portion of the display frame. The UE selectively reduces the blue light in the at least a portion of the display frame based on the determining. The UE sends the display frame with the selectively reduced blue light portion to the display screen for output.
US10482839B2
A liquid crystal display apparatus includes a plurality of sub-pixels configured to be operated by a gate signal transmitted from a gate driver and passing through a gate line and an image signal transmitted from a data driver and passing through a data line, a gamma voltage generator configured to supply gamma reference voltages for expressing gray levels to the data driver, a power supply unit configured to supply a first VDD signal to the gamma voltage generator and a second VDD signal to the data driver and a crosstalk compensation unit positioned between the power supply unit and the gamma voltage generator and configured to filter a ripple of the first VDD signal such that voltage of the first VDD signal is stabilized thereby reducing a level of crosstalk between the sub-pixels adjacent to one another.
US10482833B2
An operation method of a display device with high visibility is to be provided. The display device is an electronic device including a first display element, a second display element, an optical sensor, and a gain calculation circuit. In the electronic device, the illuminance of external light is obtained with the optical sensor, and depending on the illuminance, images displayed using the first display element and the second display element are corrected. The gain calculation circuit obtains the illuminance and calculates a gain value depending on the illuminance. In particular, the gain value is calculated for each of the first display element and the second display element. Furthermore, the gain calculation circuit performs dimming and toning on image data displayed using the first display element and the second display element by multiplying the image data by the gain values or values corresponding to the gain values.
US10482832B2
A display apparatus includes a display panel, a gate driving part, and a data driving part. The display panel is configured to display an image, and includes a gate line and a data line. The gate driving part is configured to output a gate signal to the gate line. The data driving part is configured to output a data signal to the data line. A transition time of the data signal is a time when the data signal transitions from a low level to a high level, and the transition time of the data signal increases according to a decrease of a load of the display panel.
US10482826B2
The present disclosure relates to a GOA driving circuit including N number of cascaded GOA units, wherein N is a natural number not smaller than four. The GOA unit at the i-th level includes a first controllable transistor (T1), a second controllable transistor (T2), a third controllable transistor (T3), a first capacitor (C1), and a first pull-down maintain unit, wherein 1≤i≤a and “a” is a natural number smaller than or equal to N/2. The GOA unit at the j-th level includes a fourth controllable transistor (T4), a fifth controllable transistor (T5), a second capacitor (C2), and a second pull-down maintain unit 20, wherein a+1≤j≤N. The GOA driving circuit may reduce the line buffer so as to reduce the cost of the GOA driving circuit.
US10482824B2
A voltage generator configured to generate a plurality of voltage groups, each of the plurality of voltage groups including a plurality of reference voltages, and a decoder having an output node configured to output one of the plurality of reference voltages is disclosed. The decoder includes switch blocks that correspond to the plurality of voltage groups. Each of the switch blocks includes transistors that are turned on or off by or in response to a control signal, and each transistor in one of the switch blocks has a channel width different from a channel width of each transistor in another one of the switch blocks.
US10482820B2
A method of compensating luminance of an organic light-emitting diode (OLED) operated with a transistor in a pixel cell of a display panel includes measuring a first parameter of the transistor and a parameter of the OLED, and generating a lookup table accordingly; converting original display data to target display data according to the lookup table; outputting the target display data to the pixel cell; and compensating a second parameter of the transistor when the target display data is received by the pixel cell.
US10482816B2
In driving a display element including an n-channel drive transistor in which a voltage is applied to one source/drain region and a light-emitting unit is connected to another source/drain region, and a capacitor connected between a gate electrode and the other source/drain region, processing is performed to: apply a drive voltage to the one source/drain region in a state where a reference voltage is applied to the gate electrode of the drive transistor, to bring a potential of the other source/drain region closer to a potential obtained by subtracting a threshold voltage of the drive transistor from the reference voltage; and subsequently, set the gate electrode in a floating state, and change a potential of the gate electrode in the floating state via parasitic capacitance and cause a current to flow via the drive transistor to increase a voltage between the other source/drain region and the gate electrode, and then apply the reference voltage to the gate electrode.
US10482813B2
A power off method of a display device includes: detecting a power off operation on the display device; setting, when the power off operation is detected, a same potential in one electrode and an other electrode of a capacitance element in each of a plurality of pixel circuits; and stopping power supply to a display panel immediately after the same potential is set.
US10482811B2
A display apparatus includes a substrate, a display unit on the substrate and including a display region including a first display region having a plurality of first pixel circuits configured to drive a plurality of first light-emitting devices, and a second display region having a plurality of second pixel circuits configured to drive a plurality of second light-emitting devices, a plurality of scan lines crossing the display region in a first direction, and a plurality of data lines crossing the display region in a second direction, wherein resolutions of the first and second display regions are different, wherein a total number of the first light-emitting devices driven by one of the first pixel circuits is different from a total number of the second light-emitting devices driven by one of the second pixel circuits, and wherein the display unit and the substrate define at least one through portion in the second display region.
US10482810B2
A portable information handling system display integrates a MIMO antenna configuration that cooperates with a radio to adapt display operations for supporting wireless communication. For example, plural antenna nanowires integrated with display pixel control wires selectively interface with a MIMO radio with the antenna wires selected based upon display operational characteristics, such as the presentation of visual information at the display and the enablement or disablement of touch detection circuits.
US10482805B2
A display controller comprises a buffer configured to store first pixel data input to a source line during a first period, and second pixel data input to the source line during a second period, subsequent to the first period, and a data generating unit configured to generate control data by comparing each of the first pixel data and the second pixel data with desired reference data, and transfer the second pixel data and the control data to a source driver driving the source line.
US10482803B2
A display driver integrated circuit is provided. The display driver integrated circuit includes a source driver configured to receive a power voltage from a power management integrated circuit and a logic circuit configured to control the power management integrated circuit. Display data or a command from an application processor is received, and the display data or the command is analyzed. A voltage level of the power voltage is controlled based on the analysis.
US10482801B2
In one embodiment, a vehicle mirror includes an on-board diagnostics (OBD) transceiver and one or more processors. The processors access OBD data received by the OBD transceiver from an OBD port of a vehicle. The processors further monitor the OBD data to determine whether communications with the OBD port have been lost, determine an OBD speed of the vehicle, and determine an RPM of an engine of the vehicle. The processors further determine a GPS speed of the vehicle from a GPS transceiver. When communications with the OBD port are lost, the processors transition the vehicle mirror to a sleep power state. When communications with the OBD port have not been lost, the processors transition the vehicle mirror to the sleep power state when the OBD speed is determined to be zero for at least a first predetermined amount of time and the RPM of the engine is determined to be less than a threshold RPM amount.
US10482800B2
A dynamic sign, and method for manufacture thereof, is provided. The sign comprises a display comprising at least one dynamic display surface configured for projecting dynamic graphical elements. The sign also comprises a perforated mask superposed on the at least one dynamic display surface of the display, the mask comprising at least one opening formed therein. The sign further comprises at least one optical guide inserted into the at least one opening, the at least one optical guide positioned for carrying light from the display through the at least one opening and allowing the dynamic graphical elements to be seen therethrough.
US10482796B2
A sheet stretching device is provided which is capable of preventing a sheet from being slacked, with the sheet stretched over a frame, by possibly preventing unnecessary motions of a retaining member for fixedly drawing the sheet into the frame.A retaining groove (2a) is formed along the length direction of the frame on the front surface side of a frame (2). Retaining plates (4), with a rectangular cross section, to be fitted into the retaining groove are attached to the peripheral edge portion of a sheet (3). The retaining plate is formed of an elastic material and substantially equal in thickness to the width of the retaining groove. A plurality of projections (4a) at certain intervals in the depth direction of the retaining groove are formed on at least one of the inner wall surface of the retaining groove and the side surface of the retaining plate.
US10482793B2
A personal article identification system includes a substrate having a top surface and a bottom surface, where the bottom surface is configured to be secured to a personal article and the top surface of the substrate having a first indicia. The system also includes a top layer having a top surface and a bottom surface, where the top layer overlaying the substrate and has a second indicia. The second indicia is different than the first indicia. An intermediary layer is between the substrate and the top layer. In addition, the system includes a plurality of dots forming a two dimensional patterned array in the top layer, where each of the dots is removably attached to the substrate via the intermediary layer, and when removed expose the underlying first indicia of the top surface of the substrate to create a design element in the two dimensional patterned array.
US10482776B2
A landing zone evaluation and rating sharing system includes a central processor unit (CPU), at least one sensor input operatively connected to the CPU, a communication controller operatively connected to the CPU, the communication controller being operable to pass data to other systems associated with the aerial vehicle, and a landing zone (LZ) evaluation controller operatively coupled to a non-volatile computer readable storage medium having computer readable program instructions embodied therewith. The computer readable program instructions are executable by the central processor unit to receive data received through the at least one sensor input, evaluate the data to determine a LZ rating for a particular landing zone, and communicate the LZ rating to one or more systems associated with the aerial vehicle.
US10482775B1
A location marker that may be used to provide information to a vehicle, such as an unmanned aerial vehicle (UAV). The location marker may include a plurality of retroreflectors that may form a pattern readable by a vehicle or other device. The pattern may be read to extract an identifier of a location, such as an address or an identifier of a person. A global positioning system (GPS) device may transmit a general location of the location marker to the vehicle, while the location marker may provide a unique visual location identifier to a device within visual range of the location marker. In some embodiments, the location marker may also include lights that may be individually sequenced on and off at different times to create a time domain signal sequence that is readable by the vehicle.
US10482760B2
A method for linking a second remote control unit of an industrial truck to a first remote control unit of the industrial truck comprises linking the first remote control unit to a transceiver unit using a bidirectional radio connection. The unique address of the second remote control unit is transmitted to the transceiver unit by near field communication. The unique address of the second remote control unit is transmitted by the transceiver unit to the first remote control unit via the bidirectional radio connection. The first remote control unit is linked to the second remote control unit using the unique address of the second remote control unit. A command is transmitted from the second remote control unit to the first remote control unit and the first remote control unit transmits the command by radio to the transceiver unit.
US10482759B2
A unified presence detection and prediction platform that is privacy aware is described. The platform is receives signals from plural sensor devices that are disposed within a premises. The platform produces profiles of entities based on detected characteristics developed from relatively inexpensive and privacy-aware sensors, i.e., non-video and non-audio sensor devices. The platform using these profiles and sensor signals from relatively inexpensive and privacy-aware sensors determines specific identification and produces historical patterns. Also described are techniques that allow users (persons), when authorized, to control remote devices/systems generally without direct interaction with such systems merely by the systems detecting and in instances predicting the specific presence of an identified individual in a location within the premises.
US10482742B2
A universal proximity wireless system for a potential victim to disengage a dangerous power device to inhibit accidental injury to a potential victim includes: a) a wireless transmitter to transmit a predetermined distance; b) a transmitter attachment mechanism adapted for attachment to the potential victim; c) a receiver and a dangerous power device shutdown mechanism. The shutdown mechanism is attached to said dangerous power device at an operation mechanism of said power device and said shutdown mechanism is adapted to shut down said operation mechanism when said receiver receives a signal from said transmitter.
US10482739B2
Security systems and methods for protecting retail display merchandise from theft are provided. For example, a security system includes a sensor configured to be secured to an item of merchandise, and a monitoring component configured to wirelessly communicate with the sensor, wherein the monitoring component and the sensor are configured to communicate with one another to determine a proximity of the item of merchandise relative to the monitoring component, wherein the monitoring component and/or the sensor is configured to initiate a security signal when the proximity between the monitoring component and the sensor is within a predetermined range or distance.
US10482738B2
A system and method for operating a network security system implementing security cameras, motion sensors, access control systems, security door locks, and mobile panic button devices within a monitored area. Security cameras transmit video to a network video recorder and the video is analyzed by a video analytics system to determine if a security event is occurring. If a security event occurs, a security control system calls a dispatch service, which transmits a notification to only those security guards who are within a given area of the event.
US10482737B2
Parcel theft deterrence for audio/video (A/V) recording and communication devices, such as video doorbells and security cameras. When an A/V recording and communication device captures image data that includes a parcel, a parcel boundary may be created for monitoring the parcel within. In various embodiments, when the parcel is removed from the parcel boundary, a user alert may be generated to notify a user of a client device associated with the A/V recording and communication device that the parcel has been removed.
US10482728B2
A light indicator is comprised of six segments or slices that may each be individually and vividly lit with various colors and at various intensities in order to provide information in a point-of-use context, while also minimizing or entirely eliminating bleeding of colored light from one segment to another during use. The light indicator comprises a case containing a processor, memory, and LED controller, and is capable of lighting one or more segments based partially or wholly upon instructions from a remote controller or based entirely on instructions stored in its own memory. In addition to being able to simultaneously light any combination of segments to a desired color and intensity, the indicator is also capable of performing special modes including directional indication, a run mode indication, and a gauge mode indication.
US10482727B2
An electronic device includes a housing. A semi-rigid polymer light pipe ring is positioned along the housing. A portion of the semi-rigid polymer light pipe ring extends outwardly beyond a convex major surface of the housing. A substantially planar housing member is coupled to and seals an interior of the semi-rigid polymer light pipe ring.
US10482720B2
A gaming system, gaming device, and method using a deck of cards containing statistics and identifying information from real-world sports players is described. The cards in the deck may contain the player scores for a set of games or matches as well as other player-related information. The gaming system and device randomly generate a hand and randomly select one of the player's pre-determined scores for each of the cards. The user's score may be determined through a variety of methods utilizing the player scores on the cards in the user's hand. The outcome of the user's hand may be determined by matching the user's score with a pay table, or for a multi-user game, the outcome may be determined by finding the highest scorer among the participating users.
US10482717B2
A system for generating an optimized wagering strategy is disclosed. The system may include a communication device configured for receiving a wagering budget associated with the pari-mutuel event from a user device associated with a user account, receiving wagering data from at least one wagering data source, receiving prediction data from at least one handicapper device associated with at least one handicapper account, transmitting an optimized wagering strategy to the user device, and transmitting the optimized wagering strategy to an advance deposit wagering account associated with the user device. Further, the wagering data may include money wagered on each competitor of the plurality of competitors for each type of wager. Further, the user device may be configured for presenting the optimized wagering strategy. Further, the system may include a processing device configured for generating the optimized wagering strategy based on each of the wagering budget, wagering data and the prediction data.
US10482710B2
Time required for exchanging game media for another type of game media can be shortened. A game medium exchange device includes: a display device; an arranging mechanism configured to hold one or more convertible game media and one or more inconvertible game media in such a manner that the convertible game media and the inconvertible game media are arranged in their respective sections of the arranging mechanism; an information acquiring mechanism configured to acquire game medium information including the currency values of the convertible game media and the inconvertible game media arranged in the arranging mechanism; and a control device configured to obtain total amounts of the currency values of the convertible game media and the inconvertible game media acquired by the information acquiring mechanism, and to display these total amounts on the display device in association with the convertible game media and the inconvertible game media.
US10482705B2
A gaming system includes one or more input devices, audio output devices, visual display devices, and information processors. At least one visual display device visually depicts a plurality of visual presentations and at least one audio output device renders audio selectively mixed from corresponding audio components of the visual presentations. At least one processor receives and processes information from at least one input device to determine a region of focused attention by the player with respect to the visual display devices. Using the region of focused attention, a corresponding primary visual presentation is determined from the plurality of visual presentations. The corresponding audio components of the plurality of presentations are selectively mixed such that the audio component of the primary visual presentation is dominant on at least one audio output device. The plurality of visual presentations may also be rearranged or altered to visually highlight the primary visual presentation.
US10482700B2
A supply chain system is provided. The supply chain system includes a server that manages at least a right of ownership of an article. The article is an actual object. A container is provided with a lock. The lock is configured to at least open through an electronic process. The container is capable of physically storing the article. At least one of a processor or a circuit, when an opening request to open the lock is received, determines whether a user who has issued the opening request and a user who has the right of ownership of the article match. When the user who has issued the opening request and the user who has the right of ownership of the article match, the lock is opened for allowing the article to be removed from the container. The server is notified that the lock has been opened.
US10482691B1
A passenger tracking system that combines fobs carried by passengers and a passenger detector that detects when a fob is nearby. The fobs are battery powered and consume very little power; therefore, they can be sealed and waterproof, and may last for years before replacement. A fob is asleep until awakened by a short-range magnetic field broadcast by the passenger detector. After awakening, the fob listens for an encrypted message from the passenger detector, and responds with an encrypted response that contains the fob's identity. Tracking is secure because a fob is completely invisible unless and until it receives a magnetic field of the correct frequency and time-varying pattern, and an encrypted request message from an authorized sender; responses are also encrypted so that listeners cannot discover the fob's identity. The system is suitable for example for tracking schoolchildren entering or exiting a school bus.
US10482683B2
A ticket validation device that is protected from debris ingression includes a validator housing defining a ticket entry bezel. The ticket entry bezel defines a first and second major sides and shorter connecting regions that connect the two major sides. The device includes an acceptor assembly that transports a ticket to a ticket reader device and at least one flap positioned between the acceptor assembly and the ticket entry bezel. The flap is biased against one of the first major side or the second major side of the entry bezel. A ticket-side of the flap is pushed away from the one of the major sides by the ticket when inserted into the ticket entry bezel such that the ticket scrapes between a distal end of the flap and the one of the major sides to remove any loose debris from the ticket prior to the ticket reaching the acceptor assembly.
US10482682B2
Systems, methods, and computer-readable media are provided for placing an asset on a three-dimensional model. Each asset can be associated with a pivot point and with an asset normal. A contact point on the surface of a model where an asset is to be positioned may be identified, and a surface normal that may be perpendicular to the surface at the contact point may also be identified. Then, the asset can be placed on the model such that the position of the pivot point of the asset may coincide with the position of the identified contact point on the surface of the model, and such that the orientation of the asset normal may match the orientation of the identified surface normal.
US10482673B2
Provided herein are methods and systems for role negotiation with multiple sources. A method for role negotiation can comprise rendering a common field of interest that reflects a presence of a plurality of elements, wherein at least one of the elements is a remote element located remotely from another of the elements. A plurality of role designations can be received, each role designation associated with one of a plurality of devices, wherein at least one of the plurality of devices is a remote device located remotely from another of the plurality of devices. The common field of interest can be updated based upon the plurality of role designations, wherein each of the plurality of role designations defines an interactive functionality associated with the respective device of the plurality of devices.
US10482672B2
An electronic device and method are disclosed herein. The electronic device includes a communication circuit, a memory and a processor. The processor implements the method including: receiving first data of a first quality, and second data of a second quality, the second quality different from the first quality, controlling a display device to display the first data and the second data, the first data corresponding to a first field of view of a user, transmitting information indicating a second field of view of the user through the communication circuit to the external electronic device, receiving third data of the second quality corresponding to the first field of view and fourth data of the first quality corresponding to the second field of view from the external electronic device, and controlling the display device to display the fourth data corresponding to the second field of view of the user.
US10482666B2
Embodiments of the present application disclose various display control methods and apparatuses. One of the methods comprises: determining at least local virtual enhancement information of an expected display environment of virtual content according to optical parameters of the virtual content; and controlling a display device to display the virtual content and the at least local virtual enhancement information of the expected display environment. The present application is favorable for enhancing a fusion display effect and improving user experience.
US10482662B2
An immersive video display system includes a video display to display an image and a processor coupled with the video display. The displayed image includes an augmented reality image and a virtual reality image at different moments in time. The processor is to modify one of the augmented reality image and the virtual reality image to more closely correspond to the other of the augmented reality image and the virtual reality image, and control the video display to gradually transition from displaying the one of the augmented reality image and the virtual reality image to the other of the augmented reality image and the virtual reality image.
US10482656B2
A three-dimensional (3D) face modeling method and apparatus is disclosed. The 3D face modeling apparatus may generate a personalized 3D face model using a two-dimensional (2D) input image and a generic 3D face model, obtain a depth image and a texture image using the generated personalized 3D face model, determine a patch region of each of the depth image and the texture image, and adjust a shape of the personalized 3D face model based on a matching relationship between the patch region of the depth image and the patch region of the texture image.
US10482634B2
An imaging system is provided that includes at least one detector configured to acquire imaging information, a processing unit, and a display unit. The processing unit is operably coupled to the at least one detector, and is configured to reconstruct an image using the imaging information. The image is organized into voxels having non-uniform dimensions. The processing unit is configured to perform a penalized likelihood (PL) image reconstruction using the imaging information. The PL image reconstruction includes a penalty function. Performing the penalty function includes interpolating a voxel size in at least one dimension from an original size to an interpolated size before determining a penalty function, determining the penalty function using the interpolated size to provide an initial penalty, interpolating the initial penalty to the original size to provide a modified penalty, and applying the modified penalty in the PL image reconstruction.
US10482632B2
The disclosure relates to a system and method for determining and pre-fetching projection data in image reconstruction. The method may include: determining a sequence of a plurality of pixels including a first pixel and a second pixel relating to the first pixel; determining a first geometry calculation used for at least one processor to access a first set of projection data relating to the first pixel from a first storage; determining a second geometry calculation based on the first geometry calculation; determining a first data template relating to the first pixel and a second data template relating to the second pixel based on the second geometry calculation; and pre-fetching a second set of projection data based on the first data template and the second data template, from a storage.
US10482626B2
Calibration methods for calibrating image capture devices of an around view monitoring (AVM) system mounted on vehicle are provided, the calibration method including: extracting local patterns from images captured by each image capture device, wherein each local pattern is respectively disposed at a position within the image capturing range of one of the image capture devices; acquiring an overhead-view (OHV) image from OHV point above vehicle, wherein the OHV image includes first patterns relative to the local patterns for the image capture devices; generating global patterns from the OHV image using the first patterns, each global pattern corresponding to one of the local patterns; matching the local patterns with the corresponding global patterns to determine camera parameters and transformation information corresponding thereto for each image capture device; and calibrating each image capture device using determined camera parameters and transformation information corresponding thereto so as to generate AVM image.
US10482622B2
Techniques for locating features of interest in warped images are described. For example, a destination image is generated from a source image based on warping a portion of the source image according to a backward map. Each of the two images is associated with a mesh having a tile-based geometry. The backward map maps points from the destination mesh to pixels in the source image. Triangles are formed from the tiles of the destination mesh. A forward map is generated based on the triangles and the backward map. The forward map maps points from the source mesh to pixels in the destination image. A point from the source mesh is identified that corresponds to a pixel of a feature of interest. The forward map is applied to this point to locate a pixel in the destination image. This pixel corresponds to the location of the feature in the destination image.
US10482620B2
According to an embodiment, a method for producing depth information comprises obtaining a plurality of images of an object from a plurality of lens modules, the plurality of images including at least two monochromatic images forming a monochromatic stereo image, producing two complemented monochromatic images by performing a complementary image enhancing process on at least part of the two monochromatic images, the complementary image enhancing process including comparing the plurality of images with each of the two monochromatic images and increasing a resolution of each of the two monochromatic images using an image having a higher resolution in the at least part, selecting a region of interest of the object from the two complemented monochromatic images, and calculating a depth of the region of interest by stereo-matching the two complemented monochromatic images.
US10482617B2
A distance estimation method based on a handheld light field camera is disclosed and includes: S1: extracting parameters of the light field camera; S2: setting a reference plane and a calibration point; S3: refocusing a collected light field image on the reference plane, to obtain a distance between a main lens and a microlens array of the light field camera, and recording an imaging diameter of the calibration point on the refocused image; and S4: inputting the parameters of the light field camera, the distance between the main lens and the microlens array, and the imaging diameter of the calibration point on the refocused image to a light propagation mathematical model, and outputting a distance of the calibration point. The present application has high efficiency and relatively high accuracy.
US10482610B2
An automated motion-blur detection process can detect frames in digital videos where only a part of the frame exhibits motion blur. Certain embodiments programmatically identify a plurality of feature points within a video clip, and calculate a speed of each feature point within the video clip. A collective speed of the plurality of feature points is determined based on the speed of each feature point. A selection factor is compared to a selection threshold for each video frame. The selection factor is based at least in part on the collective speed of the plurality of feature points. Based on this comparison, at least one video frame from within the video clip is selected. In some aspects, the selected video frame is relatively free of motion blur, even motion blur that occurs in only a part of the image.
US10482607B1
Systems and methods for generating synthetic video are disclosed. For example, the system may include one or more memory units storing instructions and one or more processors configured to execute the instructions to perform operations. The operations may include generating a static background image and determining the location of a reference edge. The operations may include determining a perspective of an observation point. The operations may include generating synthetic difference images that include respective synthetic object movement edges. The operations may include determining a location of the respective synthetic object movement edge and generating adjusted difference images corresponding to the individual synthetic difference images. Adjusted difference images may be based on synthetic difference images, locations of the respective synthetic object movement edges, the perspective of the observation point, and the location of the reference edge. The operations may include generating texturized images based on the adjusted difference images.
US10482598B2
A cell analysis system according to the present disclosure includes a motion information extracting unit and a motion characteristics calculating unit. The motion information extracting unit extracts motion information arising from a movement of ions or molecules across a cell membrane, out of a cell image obtained from imaging a cell in time series. The motion characteristics calculating unit calculates motion characteristics of the motion information.
US10482593B2
An inspection method includes generating first layout data including information on a shape of a first pattern group, generating second layout data including information on a shape of a second pattern group, obtaining a target image including images of the first and second pattern groups, and detecting a defect pattern from the target image by comparing the first and second layout data with the target image. The first pattern group, the second pattern group, and the defect pattern are provided at different heights from each other, from a top surface of a substrate.
US10482592B2
An object is to measure the shape of an object to be measured under a more appropriate condition. A shape measuring device includes a projection unit configured to project a pattern onto a measurement target by light, an image capturing unit configured to capture a picture image of the measurement target onto which the pattern is projected by the projection unit, a movement unit capable of moving a projected position of the pattern on the measurement target by relatively moving the projection unit and the measurement target, and a region-of-interest setting unit configured to set a region of interest for acquiring information used to measure the measurement target to be in at least part of a region captured by the image capturing unit, so as to include an image of the pattern.
US10482581B2
A system and method for providing an image with antialiasing. By way of example, the image may be rendered by dividing an object to be rendered into portions defined by scan lines, where the locations of the scan lines coincide with the endpoints of the object's line segments, intersections between line segments and pixel boundaries. The value of pixels having regions located between two consecutive scan lines may be based on the area of trapezoidal and triangular shapes that are defined by the scan lines, the line segments, and pixel boundaries.
US10482575B2
An apparatus and method for efficiently improving virtual/real interactions in augmented reality. For example, one embodiment of a method comprises: capturing a raw image including depth data; identifying one or more regions of interest based on a detected spatial proximity of one or more virtual objects and one or more real objects; generating a super-resolution map of the one or more regions of interest using machine-learning techniques or results thereof; detecting interactions between the virtual objects and the real objects using the super-resolution map; and performing one or more graphics processing or general purpose processing operations based on the detected interactions.
US10482573B2
A method and a mobile device to display a specific image at the highest layer of a screen are provided. The mobile device displays moving images at a first region of a screen and, if an event to perform a function in a second region of the screen is received, determines a second region for displaying a specific image associated with the event. The mobile device determines whether the second region is overlapped with the first region. If the second region is overlapped with the first region, the mobile device determines a third region not overlapped with the second region. Thereafter, the mobile device displays the specific image at the second region and displays the moving images at the third region.
US10482565B1
A multistage neural network system can store neural networks as shader programs on GPU memory. Neural network weights can be stored as shader objects or textures on the GPU memory. The GPU can receive a number of neural network image processing tasks to perform on images captured by a client device. The GPU can execute the tasks per driver parameters and display results in real time or near real time on the client device.
US10482560B2
A method and a system secure a remote video transmission. A marker digitally encoded in bits is generated for an image. The encoded marker contains an identifier of the camera and a time variable. The encoded marker is inserted into the image. The insertion is carried out by adding, for each bit of the encoded marker, a pattern to the image in the spatial domain. The conversion of the pattern into the spectral domain is a predefined sub matrix of which a frequency coefficient encodes the bit of the marker. The encoded marker is extracted from the secure image. The time variable is verified by comparing with the time reference and the identifier of the camera to check the temporal freshness of the secure image and the origin of same. A failure is flagged if one of the items of information included in the encoded marker violates a security criterion.
US10482549B2
A daily electricity generation planning method of a cascade hydropower plants is disclosed, and the method is comprised of the steps as follows: step 1, regardless of the constraints for opening and closing the generator, taking the power similarity between the power plant group and the typical demand as one of optimization objectives, and performing a first optimization to obtain a daily electricity generation plan; step 2, according to the derived daily electricity generation plan, determining an opening and closing status for the generator; and step 3, considering the constraints for opening and closing the generator, taking the power similarity between the power plant group and the typical demand as the optimization objective, performing a second optimization to obtain the daily electricity generation plan.
US10482529B1
Identification information for a first account holder at a financial institution is received. The first account holder is authenticated based on the identification information. A second account holder at the financial institution is identified as being known to the first account holder. Inputs are received from the first account holder to configure a message to be displayed to the second account holder. The message is displayed to the second account holder from the first account holder.
US10482528B2
A philatelic online search system and method is disclosed, comprising a unified catalog and a search system that quickly filters out irrelevant search results.
US10482514B1
Systems and methods directed to the purchase of articles formed of precious metals are disclosed. Precious metal content is analyzed using an x-ray fluorescence (“XRF”) analysis instrument to determine alloy content, in combination with an ultrasound or electrical conductivity instrument to confirm uniformity of cross-sectional content. The present method thus advances the art of precious metals transactions by precisely analyzing and determining precious metal content and purity, and combining said data with real-time pricing and a digital record of the transaction including the identity of the seller. An automated system is disclosed for fully automating the purchasing of article of precious metals.
US10482510B2
A vehicle sales matching system may include a vehicle sales lead data database, a vehicle sales information database, and a sales matching system embodied on a non-transitory computer readable medium and communicatively connected to the vehicle sales lead data database and the vehicle sales information database. The vehicle sales lead data may include validated customer data and third party customer data. The vehicle sales information may include sales data from vehicle dealers, data extract services, and sales data sources. The sales matching system may be configured for applying one or more matching rules for matching a vehicle sales lead from the vehicle sales lead database to a vehicle sale from the vehicle sales information database.
US10482506B2
Embodiments are directed towards employing multiple profiles to track identification of users across multiple domains. Multiple application-domain profiles and multiple web-domain profiles may each include a statistical identifier. A profile enrichment store may be generated from the application-domain profiles and web-domain profiles, where each entry in the profile enrichment store may be based on statistical identifiers. The profile enrichment store may be utilized to determine categories associated with a statistical identifier for a request from a client device. A targeted advertisement may be determined based on the determined category and may be provided to the client device. A client caching identifier may be used in a mobile web domain, in combination with the statistical identifier, to track mobile web users. If a request is associated with a profile that includes an affirmative opt-out flag, categories in the profile enrichment store for a corresponding statistical identifier may be cleaned up.
US10482503B2
Targeting information (also referred to as ad “serving constraints”) or candidate targeting information for an advertisement is identified. Targeting information may be identified by extracting topics or concepts from, and/or generating topics or concepts based on, ad information, such as information from a Web page to which an ad is linked (or some other Web page of interest to the ad or advertiser). The topics or concepts may be relevant queries associated with the Web page of interest, clusters, etc.
US10482501B2
A system and method for directing self-targeted advertising to users who are interested in receiving it. A user creates or adopts one or more personas that define a number of characteristics that the user has or wants to be associated with. The characteristics of the personas can be used by advertisers to define members of a target audience. Each persona included in a target audience has an address or identifier to which ads are sent. In one embodiment, users are shown a user interface screen with icons representing a number of brands. The user provides input that indicates whether they have different opinions of the brands. Based on the input received, an estimate is made of the likelihood that the user has a number of characteristics. In one embodiment, the user can arrange the icons representing the brands on the user interface screen to indicate if the user likes or dislikes the brand.
US10482494B2
Connections (e.g., click-throughs) for online campaigns are steered. A plurality of UIOs and parameters for configuring a campaign (e.g., advertisement campaign) for the plurality of UIOs is received. UIOs comparable to each of the plurality of UIOs of the campaign are automatically identified and displayed in as an array of options that can be selected for more detailed information. A distribution of connections is predicted from resulting from displays for the plurality of UIOs of the campaign, based on historical information of connections for the identified comparable UIOs.
US10482493B2
Embodiments are disclosed for a method that may include accessing events in a field-searchable data store. The events may include raw machine data associated with a timestamp. The raw machine data may represent interactions between a mobile device and one or more network devices at a locale. The method may further include determining, based on the interactions, one or more geographic positions of the mobile device, and calculating a metric for the locale using the geographic positions.
US10482486B2
Methods, systems, and computer programs for generating revenue in an online game are presented. One method includes an operation for executing a first video game having a first currency enabling a user to achieve advancement in the first video game. The method also includes an operation for executing a second video game that is an autonomous game module within the first video game, the second video game enables the user to select one or more assets from the first video game for use in the second video game but limits the number of assets such that the one or more assets are insufficient to complete the second video game. The method further includes operations for detecting completion of the second video game and selecting one or more reward assets for use in the first video game and for transferring the one or more reward assets to the first video game for the user to use to achieve the advancement in the first video game.
US10482485B2
Endogenous and exogenous variables associated with an item for sale by an affiliate may be displayed to a user of an affiliate decision-making tool. In response to the user selecting one of the endogenous variables, the affiliate decision-making tool may compute a number of introductions, a number of leads, and a number of sales for each of a plurality of possible values of the endogenous variable. The computation may be done utilizing a display position algorithm. A visualization of effects of setting the endogenous variable at different levels may be presented. The user may interact with the display position algorithm to vary one or more of the plurality of possible values of the endogenous variable such that the affiliate is eligible or disqualified to be displayed by an intermediary in response to a search for the item by a visitor of a network site owned and operated by the intermediary.
US10482484B2
Items—including gourmet products—are evaluated and rated by participants in a controlled event, which can be coordinated by software locally or at a dedicated website. Event data, including item scores and participant scores can be shared with vendors, merchants and other commercial entities associated with the products. Promotional incentives from such entities for the products (and related products) can then be directly targeted and provided to participants and other members of the public. The participant's activities can also be collected and disseminated to affiliates/friends of the participants through social networking sites, personalized web pages, etc.
US10482479B2
Embodiments of the present invention disclose a method, computer program product, and system for performing a total unduplicated reach and frequency analysis that analyzes a large set of variables practically. A plurality of variables are received. A subset of the plurality of variables is identified as variables of interest. Variables are partitioned randomly into groups. Each of the groups of variables contains fewer than a predetermined maximum number of variables for each group. The best combination of variables within each group is found through a total unduplicated reach and frequency analysis of each group. The winning variable or variables within each group are identified based on the highest reach score. The winners from each group analysis are then pooled into a group, and the process is repeated. The combination from the second stage with the best reach is then reported. Additional variable combinations ranked by reach may also be reported.
US10482471B2
An unauthorized-product detection system may compare data representing various authentication markers of items presumed to have been produced or sourced by a particular entity with stored data representing valid authentication markers of items produced or sourced by the particular entity. The authentication markers may represent inherent physical characteristics of the items or their packaging, or may be generated and applied to the items or their packaging to facilitate counterfeit detection and/or for other purposes. The data (some of which may be encrypted) may be captured using high-resolution cameras, scanners, or other devices, and then communicated to the unauthorized-product detection system for analysis. The system may maintain a data store of data representing captured or valid authentication markers and may store tracking information reflecting the use of various authentication markers. The system may provide various unauthorized product detection services to consumers, retailers, or members of a supply-chain.
US10482468B2
A method of electronic user message protocol extension for a transaction requiring delivery is provided. The method is implemented using a message protocol extension (MPE) computing device. The method comprises receiving, from a merchant computing device, transaction data including a merchant identifier identifying a merchant as a default liable party, receiving, from a delivery computing device, an authorization advice data message including recipient account data for an account of the recipient, extracting an issuer identifier, reallocating transaction liability by replacing the merchant identifier with the issuer identifier in a liable party transaction record, generating an updated authorization advice data message by inserting, into the authorization advice data message, a liability update flag indicating message protocol extension to the issuer, transmitting the updated authorization advice data message to an issuer computing device associated with the issuer, thereby completing message protocol extension for the item from the merchant to the issuer.
US10482467B1
Systems and methods are provided for blocking charges from a merchant to a payment account of a user. An exemplary system may include one or more memory devices storing instructions and one or more processors configured to execute the instructions to perform various operations. The operations may include receiving, from the user, a dispute request to dispute a charge to the payment account applied by the merchant. In response to the dispute request, the operations may include determining whether to block subsequent charges applied by the merchant to the payment account, based on a history of charging activities of the merchant. Responsive to a determination to block subsequent charges, the operations may include adding the merchant to a block-charge list associated with the payment account.
US10482458B2
Provided are user equipment, a service providing device, a payment system including the same, a control method thereof, and a non-transitory computer-readable storage medium storing a computer program recorded thereon. According to the present invention, when one or more payment cards related with a user of user equipment registered in the user equipment are used, the user equipment collects various types of position information related with the user equipment and then provides the various types of collected position information to the service providing device, the service providing device compares current position information of the user equipment with various types of position information collected in the user equipment to determine whether the payment card is illegally used. Therefore, it is possible to verify illegal usage which steals the user equipment or steals position information of a store and increase reliability of determining illegal usage.
US10482455B2
Disclosed embodiments include methods, systems, and computer-readable media configured to, for example, enable parties conducting transactions to identify a financial institution and payment network for a financial account associated with a pre-provisioned payment token using existing payment protocols. The method may include receiving from a third-party device a request for funding account information that identifies a token that does not identify a financial service provider or a payment network. The method may further include accessing a database to retrieve token information associated with the token, the token information include a link account number that indicates a funding account, a financial service provider associated with the funding account, and a payment network, and user preferences associated with the token. The method may further include providing the link account number to the third-party device in response to the request for funding account information according to the one or more user preferences.
US10482454B2
A system and method is provided for generating a sensory indication on a transaction card, whereby a user is rewarded with a visual, audial, haptic, or olfactory experience. The method comprises executing a purchase transaction on the card, the transaction relating to an event, charging a power source on the card, receiving an input signal by the card, the signal indicating an output indication relevant to the event, and generating an output signal using power from the power source, based on the input signal. The card comprises a security component enabling a purchase relating to an event, a power source receiving charging energy at the time of the purchase, an input component receiving an input signal comprising information specifying a desired indication relevant to the event, an output component for generating the desired indication, one or more memories storing instructions and one or more processors executing the instructions to perform the method.
US10482451B2
Systems and methods for authenticating payment transactions using a payment card processing system are disclosed. A method for processing one or more payment transactions using a payment processing system in communication with a computer readable storage medium includes receiving a push or pull request from a first device associated with a first user, wherein the push or pull request relates to a transaction with a second device associated with a second user, receiving a first biometric measurement from the first device, and receiving a second biometric measurement from the second device. The method further includes, responsive to determining that the first biometric measurement identifies the first user, determining that the second biometric measurement identifies the second user, and determining that the first device and second device are within a predetermined relative proximity, effecting the transaction based on the push or pull request. A payment network can be configured to store or access a database including a plurality of biometric parameters that identify a plurality cardaccount holders and other transaction requirement parameters.
US10482450B2
A method for processing, by a processing entity, of an authorization to implement a service and/or access an item. The method includes: reception, from a requesting device, of a request for implementing a service and/or accessing an item; searching for an indicator of dependency from at least one piece of data of said request for implementation; when an indicator of dependency is present, obtaining an authorization from a verification device to implement said service and/or access said item.
US10482447B2
In one embodiment, a recognition system has an imaging device, a storage device, and a first processor. The first processor extracts a feature amount of an article contained in image data outputted by the imaging device. The first processor recognizes a commodity to which the detected article corresponds, based on similarities between feature amounts for collation of a first commodity and a second commodity stored in the storage device and the extracted feature amount, and selects the recognized commodity from the storage device, as the commodity to which the detected article corresponds, provided that the recognized corresponding commodity is not the first commodity.
US10482445B2
A checkout system includes at least one input apparatus and at least one controller. The input apparatus receives an input indicating that a plurality of transactions are consecutively performed by a single customer. The input apparatus receives input of merchandise information for the plurality of transactions. The input apparatus also receives an input of a user code corresponding to a service. The at least one controller generates payment information indicating a total amount to be paid for each transaction of the plurality of transactions based on the input merchandise information. The user code is applied in connection with payment processing for each of the plurality of transactions without requiring the user code to be input more than once. Payment processing is performed with respect to each of the plurality of transactions based on the corresponding payment information, in accordance with a payment operation of the single customer.
US10482443B2
Embodiments described herein relate to a universal vending machine closed-loop sales optimization device. The vending machine device may be configured to be installed within a vending machine, and be communicatively coupled with a vending machine controller. The vending machine device may be configured to receive data and transmit data.
US10482436B2
The disclosed embodiments include systems and methods for executing a point of sale deposit. In one embodiment, a system may include one or more memory devices storing software instructions, and one or more processors configured to execute the software instructions to receive deposit information related to a point of sale deposit from a mobile device, and generate a deposit token retaining at least the deposit information and deposit authorization information. The one or more processors may also be configured to transmit the deposit token to the mobile device for displaying a readable code generated based on the deposit token, receive a point of sale deposit authorization notification from the merchant device indicating at least receipt by the merchant device of the deposit token from the mobile device, and transfer funds to a financial service account based on the received deposit information and authorization notification.
US10482433B1
A transaction processing system for performing one or more steps of a method is disclosed. The system may receive user receipt preferences including rules specifying whether or not a user wants a receipt. The system may also receive (i) a purchase authorization request associated with an attempted purchase and (ii) user device location data. The system may further set a receipt flag corresponding to the receipt status. If the system determines that the transaction is to be authorized, it attaches the receipt flag to the authorization message and transmits the authorization message to the merchant. Alternatively, if the system determines that the transaction is not to be authorized, it attaches the receipt flag to the cancellation message and transmits the cancellation message to the merchant.
US10482422B2
In one embodiment, a system, method, and apparatus to generate a merged record comprises a client server configured to generate a first report; and a recovery server configured to: receive the first report, the first report including first report information including at least one first descriptive term and a customer ID; match the at least one first descriptive term to one of a plurality of descriptive terms in a descriptive term list; determine if a weighted percentage associated with the matched at least one first descriptive term is greater than a predetermined weighted percent; match the at least one first descriptive term to at least one second descriptive term in at least one second report if it is determined that the weighted percentage associated with the matched at least one first descriptive term is greater than the predetermined weighted percent.
US10482415B1
Various embodiments of the present invention involve systems, methods, and computer program products that provide enhanced messages. In embodiment, a method for sending messages is provided that includes receiving shipping data that includes a destination address for delivery of an item, a message address for sending a notification message, customized data and a trigger event. In response to an occurrence of the triggering event, a notification message is sent to the message address and providing access to the customized data.
US10482411B2
An interface is provided for a user to create a custom dashboard for providing application performance data. The dashboard may be created from one or more widgets, such as graphs, charts, and other display components, and each widget may be individually configured with parameters. The dashboard may be configured to display data for one or more particular transactions, transaction types, or transactions that meet specified criteria. Once created, the dashboard may be shared through a website URL, e-mail, or other method.
US10482402B2
A method for providing notifications related to service information of a machine located at a worksite is provided includes detecting, by a worksite management system, an entry of the machine in a first predefined service zone based on machine location data and machine identification data. The first predefined service zone is defined in the worksite management system corresponding to a first service area at the worksite. The method also includes generating, by the worksite management system, a first notification based on at least one predefined parameter and the machine identification data upon the entry of the machine in the first predefined service zone. The first notification includes information related to a service to be performed at the first service area. The method further includes detecting, by the worksite management system, an exit of the machine from the first predefined service zone based on the machine location data.
US10482401B2
A method includes obtaining, by a management module, an inventory unpacking sequence for a remote facility. The inventory unpacking sequence indicates a sequence for unpacking a shipment at the remote facility. An order associated with the remote facility is received that includes inventory items. The management module determines an order packing arrangement for the inventory items based on the inventory unpacking sequence. Mobile drive units are instructed to transport one or more inventory holders storing the inventory items to an inventory station, where the inventory items are packed into a shipment according to the order packing arrangement. The shipment is arranged to be unpacked at the remote facility according to the inventory unpacking sequence.
US10482400B2
Techniques facilitating cognitive route planning for unit replenishment in a distributed network are provided. In one example, a computer-implemented method can include determining, by a system operatively coupled to one or more processors, a time limit for unit replenishment at a unit dispensing device based on a unit depletion rate for the unit dispensing device. The computer-implemented method can also include generating, by the system, a route plan for the unit replenishment based on the unit depletion rate, the time limit, and respective unit depletion rates and respective time limits for other unit dispensing devices of a set of unit dispensing devices. The unit depletion rate can be based on historical and projected withdrawal data. Further, the unit dispensing device can be included in the set of unit dispensing devices located within a defined area. The time limit can indicate time remaining until the unit dispensing device is depleted of units.
US10482397B2
A method, system or computer usable program product for managing attributes including obtaining a unique mutable identifier for storage in memory in response to a request to a service provider; utilizing a processor to provide a selected set of attributes to the service provider for association with the unique mutable identifier and storage at the service provider; and providing the unique mutable identifier to an application whereby the application can obtain the set of attributes by inquiring the service provider.
US10482396B2
A compliance computer creates compliance documents referencing one or more rules with which an entity must comply and/or a jurisdiction and topic related to rules with which the company must comply. For example, the compliance documents may identify one or more jurisdictions in which the company operates, one or more topics associated with the company, and/or specific provisions set by specific rules. A transmission object is created based on the compliance documents. The transmission object includes general information pertinent to the rules and/or the entity (e.g., jurisdictional or topical information). An operator server receives one or more transmission objects from one or more compliance computers. The operator server identifies rules pertinent to each transmission object and conducts a search to determine whether any of those rules have been modified. The operator server sends a signal that is associated with the one or more compliance rules to the compliance computer.
US10482394B2
The present disclosure provides systems and methods for in-database generation of generalized linear models within a relational database. Generalized linear models form the basis of many machine learning algorithms and applications. In particular, in some implementations, the database commands that enable generation and use of the models include only pure SQL queries, thereby eliminating the need for user defined aggregates (UDAs), which are not offered by many cloud database service providers. For example, a set of client-side driver scripts can implement respective sets of pure SQL queries to import training data, generate and train the generalized linear model, and employ the model to generate inferences.
US10482391B1
Systems and method for remote intervention are disclosed herein. The system can include a memory including: a user profile database; and a model database. The system can include a user device and a supervisor device, each of which including: a network interface; and an I/O subsystem. The system can include a content management server that can: receive data identifying a user of the user device; retrieve user data for the user from the user profile database; retrieve a risk model from the model database; generate a risk value based on the risk model; generate an action recommendation identifying an action for completion; and generate and send an alert to the supervisor device, which alert includes the action recommendation and includes computer code to trigger activation of the I/O subsystem of the supervisor device to provide the action recommendation.
US10482386B2
Systems and methods for predicting an identity of a person are provided. In some aspects, a list of subject activities accessed by a subject person is received. For each of a plurality of stored persons, a stored list of activities accessed with by the stored person is accessed in one or more data repositories. An intersection is calculated between the list of subject activities and the stored list of activities for at least one stored person from the plurality of stored persons. That the subject person is likely to correspond to the at least one stored person from among the plurality of stored persons is predicted, based on the calculated intersection. An indication that the subject person is likely to correspond to the at least one stored person from among the plurality of stored persons is provided.
US10482384B1
The present disclosure relates to a computer-implemented method of generating a semantic triple for building a knowledge base to include data patterns associated with semantic triples derived from unstructured text. The method includes providing a sentence associated with unstructured text including a main verb and a taxonomic verb, generating a first frame, generating a second frame, identifying a common sub-string in the first subject and either the second subject or the second object, or a common sub-string in the first object and either the second subject or the second object; generating a semantic triple using the first frame and replacing the first subject or the first object having the common sub-string with the second subject or the second object having the common sub-string; and transmitting the semantic triple for inclusion as a data pattern in the knowledge base.
US10482383B2
An information analytic system including a plurality of automation units each connected to a plurality of monitoring and control devices and connected to a network and configured to collect environmental information, a facility information unit connected to the network and configured to store information relating to locations of devices related to the facility, an information gathering unit connected to the network and communicatively coupled to at least one of the automation units and the facility information unit that retrieves a listing of all monitoring and control devices connected to each automation unit and relates each monitoring and control device to at least one device in at least one facility, an information analysis unit that analyzes the information from the facility information unit and logically relates the devices in the facility based on physical locations of the devices in the facility.
US10482382B2
Systems and methods are provided for reducing failure rates of a manufactured products. Manufactured products may be clustered together according to similarities in their production data. Manufactured product clusters may be analyzed to determine mechanisms for failure rate reduction, including adjustments to test quality parameters, product formulas, and product processes. Recommended product adjustments may be provided.
US10482378B1
In some embodiments, noise data may be used to train a neural network (or other prediction model). In some embodiments, input noise data may be obtained and provided to a prediction model to obtain an output related to the input noise data (e.g., the output being a prediction related to the input noise data). One or more target output indications may be provided as reference feedback to the prediction model to update one or more portions of the prediction model, wherein the one or more portions of the prediction model are updated based on the related output and the target indications. Subsequent to the portions of the prediction model being updated, a data item may be provided to the prediction model to obtain a prediction related to the data item (e.g., a different version of the data item, a location of an aspect in the data item, etc.).
US10482377B1
A system includes a plurality of tracking devices, such as RFID tags, affixed to items, such as vehicles, a data collection engine, client devices and backend devices. The backend devices include trained machine learning models, business logic, and attributes of a plurality of events. A plurality of data collection engines and systems send attributes of new events to the backend devices. The backend devices can track the items and predict particular outcomes of new events based upon the attributes of the new events utilizing the trained machine learning models.
US10482376B1
The computing device generates a classification model providing prediction data indicating predicted users in a target population who will respond to a target stimulus according to a predefined user response category. The computing device displays in GUI a graphical representation of a generated classification model and a plurality of options each specifying one of different objectives for determining a proportion of users in the target population to expose to the target stimulus. The computing device predicts proportion data indicating the proportion of users in the target population to expose to the target stimulus based on the determined location of the cut-off. The computing device issues one or more indications as to whether to use the classification model as a basis for exposing the proportion of users in the target population to the target stimulus according to the proportion data.
US10482365B1
A transaction instrument comprises a plastic and one or more metal inclusions embedded or encased in the plastic. The one or more metal inclusions are in a non-particle form and is selected from the group consisting of a bit, a piece, a strand, a strip, a mesh, a web, and a combination thereof. The metal inclusion is comprised of a metal selected from the group consisting of tungsten, silver, zinc, bismuth, molybdenum, iron, steel, tin, copper, titanium, or a combination thereof.
US10482362B2
Methods pertaining to encoding and decoding binary identifiers within a cell array are described. A binary identifier received by computing device can be encoded according to an encoding scheme. The cell array can include multiple encoded cells, each of which indicates a predetermined sequence of two or more bits, and which includes a perimeter, and both an alignment mark and a line pattern within the perimeter. The line pattern can be one of an empty-cell line pattern, a pattern including one or more asymmetrical radial vectors, one or more diametrical vectors, a symmetric cross, or a symmetrical star, or some other line pattern. The encoding scheme can define a plurality of cell colors that correspond to a predetermined sequence of two or more bits. The bits corresponding to a cell color can be redundant to bits corresponding to a line pattern for confirming accuracy of decoding a cell.
US10482358B2
An apparatus that operates with a detachable unit mounted therein, includes: a storage unit configured to store a public key; and a verification unit configured to verify data held by the mounted unit, based on the public key. The data includes attribute information indicating an attribute of the unit, and authentication information generated from target information including the attribute information with a secret key paired with the public key and from which the target information is restorable, and the verification unit is further configured to detect an anomaly in the attribute information or the authentication information included in the data, by determining whether the attribute information included in the target information restored from the authentication information using the public key matches the attribute information included in the data.
US10482356B2
In one implementation, a method for generation of a soft-proof file is described. A ticket template and a job definition are associated with input contents. Print-ready data is caused to be generated based on the input content, the job definition, and the ticket template. A soft-proof file is caused to be generated based on the print-ready data, the ticket template, and the job definition.
US10482352B2
Information processing including, a first data acquirer that acquires first observational data; a second data acquirer that acquires second observational data; and a processor that performs machine learning by semi-supervised learning to output an emotion of a person as a latent factor using training data of the first observational data and the second observational data, and that infers and outputs the emotion from at least one of the first observational data and the second observational data using a trained model.
US10482351B2
Provided are a feature transformation device and others enabling feature transformation with high precision.The feature transformation device includes receiving means for receiving training data and test data each including a plurality of samples, optimization means for optimizing weight and feature transformation parameter based on an objective function related to the weight and the feature transformation parameter, the optimization means including weight derivation means for deriving the weight assigned to each element included in the training data and feature transformation parameter derivation means for deriving the feature transformation parameter that transforms each of the samples included in the training data or the test data, objective function derivation means for deriving a value of the objective function, the objective function derivation means including a constraint determination means for determining whether the weight satisfies a prescribed constraint and regularization means for regularizing at least one of the weight or the feature transformation parameter, and transformation means for transforming an element included in at least one of the training data or the test data based on the feature transformation parameter.
US10482348B1
A system and method are provided for discriminating and tracking a coherently structured feature dynamically defined in evolving manner within a migratory medium. A data set is captured for a plurality of physical points defined within a multi-dimensional physical space, in terms of a plurality of scalar parameter values. At least one pre-selected target feature type is established, as is a scalar field predefined by at least one of the scalar parameters. A sparse set of key points is selectively generated a within the scalar field. Each key point is associated with one of the physical points and descriptive information adaptively determined therefor from the data content within a neighborhood of the physical point coinciding therewith. At least one predetermined feature-based operation is executed responsive to the descriptive information of the key points as a surrogate for execution generally on the data set.
US10482342B2
A search apparatus includes a division unit configured to perform division into areas for respective angle regions in space coordinates with an imaging apparatus set as an origin thereof, a calculation unit configured to calculate an importance level of a subject for each of the areas obtained by division, and a changing unit configured to change a center position of a field angle of a captured image in which to search for a subject based on the importance level of a subject calculated for each of the areas.
US10482338B2
An image reading apparatus includes a character recognition processing unit, an incorrect recognition index calculator, a certainty calculator, a direction determining unit, and an image processing unit. The incorrect recognition index calculator calculates incorrect recognition indexes. The incorrect recognition index is set based on a count of incorrect recognition characters. The count of incorrect recognition characters is a count of candidates for characters possibly incorrectly recognized when the documents are read. The incorrect recognition index is set such that recognition certainty indicative of accuracy of the recognition becomes smaller as the count of incorrect recognition characters increases. The certainty calculator adjusts the recognition certainty using the incorrect recognition index. The direction determining unit that determines a direction of the documents based on the adjusted recognition certainty. The image processing unit corrects the image data based on the determined document direction to align image directions of the plurality of documents.
US10482336B2
Systems and methods are provided for performing automated face recognition and comparison. An input image of a face may be received and cropped, and the image may be processed through a deep neural network (DNN) to produce a k-dimensional feature vector. The k-dimensional feature vector may be converted to a k-dimensional binary vector by transforming each value in the vector to either 1 or 0. To search for nearest matches of the image in a database of gallery images of faces, the system may compare sub-strings of the binary vector to hash tables created from sub-strings of the gallery images, enabling sub-linear searching that allows locating the closest matches from among the entire gallery without requiring an exhaustive linear search of the entire gallery.
US10482334B1
Driver behavior recognition may be provided using a processor and a memory. The memory may receive an image sequence and a corresponding vehicle data signal sequence. The processor may generate or process features for each frame of the respective sequences. The processor may generate a first feature vector based on the image sequence and a first neural network. The processor may generate a second feature vector based on a fully connected layer and the vehicle data signal sequence. The processor may generate a fusion feature by performing data fusion based on the first feature vector and the second feature vector. The processor may process the fusion feature using a long short term memory layer and store the processed fusion feature as a recognized driver behavior associated with each corresponding frame. The processor may, according to other aspects, generate the fusion feature based on a third feature vector.
US10482331B2
Methods and systems are provided for detecting an object. In one embodiment, a method includes: receiving, by a processor, image data from an image sensor; receiving, by a processor, radar data from a radar system; processing, by the processor, the image data from the image sensor and the radar data from the radar system using a deep learning method; and detecting, by the processor, an object based on the processing.
US10482328B2
A system and methodology provide for annotating videos with entities and associated probabilities of existence of the entities within video frames. A computer-implemented method identifies an entity from a plurality of entities identifying characteristics of video items. The computer-implemented method selects a set of features correlated with the entity based on a value of a feature of a plurality of features, determines a classifier for the entity using the set of features, and determines an aggregation calibration function for the entity based on the set of features. The computer-implemented method selects a video frame from a video item, where the video frame having associated features, and determines a probability of existence of the entity based on the associated features using the classifier and the aggregation calibration function.
US10482322B2
A monitor apparatus includes a camera that captures a three-dimensional image and an image processing device that processes the output signal of the camera. A part of an image capturing region of the camera is set as a monitor region. The image processing device includes a region setting unit that sets a plurality of spatial regions by dividing the monitor region. The region setting unit divides the monitor region at a plurality of cutting planes radially extending from the camera serving as a start point. The region setting unit sets the spatial region on one end as a precaution region and sets the spatial region on the other end as a limit region.
US10482320B2
A device for providing moving body information for a vehicle, according to one embodiment, includes an image acquisition unit acquiring a peripheral image of the vehicle, an image extraction unit extracting at least one of a first image of an upper body of at least one moving object or a second image of a lower body of the moving object from the peripheral image of the vehicle, and a moving object information determination unit determining at least one of presence/absence or a position of the moving object using at least one of the extracted first image or second image, wherein the image extraction unit extracts as the first image at least one of a ‘1-1’-st image of an entirety of the upper body or a ‘1-2’-nd image of a part of the upper body, and extracts as the second image at least one of a ‘2-1’-st image of an entirety of the lower body or a ‘2-2’-nd image of a part of the lower body.
US10482319B2
A path and/or orientation of object approaching an athlete is tracked using two or more cameras. At least two sets of images of the object are obtained using at least two different cameras having different positions. Motion regions within images are identified, and candidate locations in 2D space of the object are identified within the motion region(s). Based thereon, a probable location in 3D space of the identifiable portion is identified, for each of a plurality of instants during which the object was approaching. A piecewise 3D trajectory of at least the identifiable portion of the object is approximated from the probable locations in 3D space of the object for multiple instants during which the object was approaching the athlete. A graphical representation of the 3D trajectory of the object is incorporated into at least one of the sets of images.
US10482313B2
A method and system for classification of endoscopic images is disclosed. An initial trained deep network classifier is used to classify endoscopic images and determine confidence scores for the endoscopic images. The confidence score for each endoscopic image classified by the initial trained deep network classifier is compared to a learned confidence threshold. For endoscopic images with confidence scores higher than the learned threshold value, the classification result from the initial trained deep network classifier is output. Endoscopic images with confidence scores lower than the learned confidence threshold are classified using a first specialized network classifier built on a feature space of the initial trained deep network classifier.
US10482307B2
A fingerprint sensing system for sensing a fingerprint pattern of a finger, comprising: a sensor array including a plurality of electrically conductive sensing structures; read-out circuitry connected to each of the sensing structures for providing sensing signals indicative of a capacitive coupling between the sensing structures and the finger; first signal providing circuitry for providing a first time-varying voltage signal to at least a portion of the sensor array; at least one electrically conductive edge-compensating structure arranged outside the sensor array; and second signal providing circuitry for providing a second time-varying voltage signal to the at least one edge-compensating structure.
US10482306B2
According to a first aspect of the present disclosure, a fingerprint sensing system is provided, comprising: a sensing unit configured to measure a physical property of a sensing cell and to produce a voltage in dependence on said physical property; and an analog-to-digital converter configured to convert said voltage into a digital signal, wherein said analog-to-digital converter implements a non-linear conversion function. According to a second aspect of the present disclosure, a corresponding fingerprint sensing method is conceived. According to a third aspect of the present disclosure, a corresponding computer program product is provided.
US10482305B1
An electronic device may have transparent structures. The transparent structures may include a transparent member such as a transparent button member. The transparent member may have an inner surface that is covered with an opaque masking layer. The opaque masking layer may be white and may include a white porous inorganic layer covered with an opaque layer that increases the optical density of the opaque masking layer. The white porous inorganic layer may be formed by depositing a metal or other material using physical vapor deposition followed by an annealing process in the presence of oxygen. The opaque layer may be an optically dense inorganic layer such as a metal oxide layer. The button member may be located within an opening in a display cover layer. A fingerprint sensor may be attached to the opaque layer on the button member.
US10482297B2
An electronic device includes an electronic device body and a strap. A protruding portion protruding in a direction of thickness of the electronic device body is provided on a back surface of the electronic device body. The protruding portion is formed on the back surface so as to extend in a direction of a length of the electronic device body. The strap has belt-like two-folded form and is attached on the protruding portion at a position on or vicinity of a gravity center of the electronic device body. A closed open surface of the strap is defined in the direction of the length of the electronic device body and in a direction substantially orthogonal to the back surface. The open surface has an area where a plurality of fingers of an operator are insertable.
US10482295B2
A sensor system for counting cards includes an optical sensor assembly configured to detect edges of cards in a card stack. The optical sensor assembly includes at least an optical sensor, and a light element coupled with the optical sensor. The light element is configured to reflect light from a card stack toward the optical sensor. A remote light element is spaced from the optical sensor assembly. The remote light element is configured to direct light toward the card stack.
US10482291B2
Method and systems using stateful encryption for non-bypassable FPGA configuration including receiving, at an FPGA, FPGA-configuration data comprising a cryptographic state to initialize a cryptographic state of the FPGA, and decrypting, at the FPGA, the FPGA-configuration data, wherein decrypting the FPGA-configuration data yields at least a second cryptographic state and decrypted FPGA-configuration data. Embodiments can include receiving, at the FPGA, a challenge message, processing, at the FPGA, the challenge message to yield at least a third cryptographic state and a response, and transmitting the response from the FPGA.
US10482287B2
The present disclosure is directed toward systems and methods for managing electronic documents. For example, systems and methods described herein can enable parties to an agreement outlined in an electronic document to add, track, and save electronic signatures associated with the electronic document. Furthermore, systems and methods described herein automatically identify expiration information associated with the electronic document and generate alerts for the electronic document based on the expiration information.
US10482286B2
A request is received from a trusted application to authorize a client application that requests a service offered by the trusted application. In view of the request, it is determined whether the client application is authorized to access the trusted application in view of an authorization policy. An authentication of a user of the client application is caused in response to determining the client application is authorized to access the trusted application. An authorization result is returned to the trusted application in view of the determining and the authentication.
US10482285B2
User events of a platform are processed to extract aggregate information about users of the platform at an event processing system. A query relating to the user events is received at the system and at least one query parameter is determined from the query. Various privacy controls are disclosed for ensuring that any information released in response to the query cannot be used to identify users individually or to infer information about individual users.
US10482282B1
A social networking system wherein an individual may set up a personal profile to share with a select group of friends and/or family. The system and method of the present invention implements embedded limitations that maintains a core group of contacts specific to the user's profile.
US10482279B2
In an embodiment, data that is associated with one or more parameters that describe information corresponding to the data is accessed. The data is organized into data sets having the same combination of parameters. Each data set includes a data value determined by the combination of the parameters. The data values that are unique in relation to the other data values are determined. The likelihood that the accessed data includes PII data for the combination of parameters is determined based on the data values that are determined to be unique.
US10482269B1
Various embodiments are generally directed to techniques for generating updating, and/or validating one or more aspects of an access policy for a data bucket, such as based on usage data corresponding to the data bucket, for instance. Some embodiments are particularly directed to automatically generating, updating, and/or validating an access policy for a data bucket based on analysis of log data corresponding to the data bucket. In some embodiments, log data comprising access records to a data bucket may be analyzed to determine access requirements for a set of entities. In some such embodiments, the access requirements for the set of entities may then be used to generate an access policy for the data bucket.
US10482266B2
Systems, methods, and devices configured to build and utilize an intelligent cipher transfer object are provided. The intelligent cipher transfer object includes a set of participants protected by cloaking patterns. A portable dynamic rule set, which includes executable code for managing access to the protected set of participants, is included within the intelligent cipher transfer object. For a given user, the intelligent cipher transfer object may provide access to some of the participants while preventing access to other participants, based on the portable dynamic rule set therein.
US10482262B2
An application analysis platform enables automatic generation of abstract program representations (APRs) that are amenable to static analyses for finding security vulnerabilities. The APR is generated automatically, preferably from an existing build system or a source repository, and then encapsulated into a binary archival format for consumption by a static analysis tool, which operates on-premises or in the cloud. The abstract program representation is a highly compact version of the actual source code it represents. The archival format obfuscates the source code that is subjected to the analysis, thus protecting it from being reverse-engineered when moved off-premises or otherwise shared with other users, teams and even organizations. Binary archive files generated separately from different source code components may be readily merged and analyzed together to provide more effective static data-flow analysis, even with respect to components that are built on different machines by different teams and at different times.
US10482259B2
A method, system, and computer program product includes receiving, in a booted state of a computing system, a request to load an operating system configuration. The method further includes storing, automatically in response to receiving the request, a digital key to authenticate the operating system configuration. The method further includes restarting the computing system. In response to restarting the computing system and while the computing system is in a pre-boot state, the method includes: validating that the digital key stored is one for a valid operating system configuration; receiving, from a user interface physically coupled to the computing system, a signal confirming the received request; authenticating, in response to receiving the signal, the operating system configuration using the digital key; and booting, in response to the authenticating, the operating system configuration.
US10482257B2
A method to enforce secure boot policy in an IHS configured with a plurality of virtual machines. The method includes detecting a request for a virtual machine to access a service processor. In response to detecting the request, the method includes triggering a handshake request between a hypervisor boot emulator and the service processor to initiate a sequence of authentication steps to access a corresponding secure partition of memory from among a plurality of secure partitions of memory associated with the service processor. Each secure partition of memory has a corresponding virtual platform key for preserving secure access to the corresponding secure partition of memory stored in a secure platform. The method further includes dynamically generating unlock keys, derived in part by the corresponding virtual platform key, to authenticate a requesting virtual machine as a valid virtual machine to obtain access to a corresponding secure partition of memory.
US10482255B2
Systems, methods, circuits and computer-readable mediums for controlled secure code authentication are provided. In one aspect, a method performed by a host device includes transmitting a request to a client device, the request including a challenge for a property of a code stored within the client device, receiving a response to the request, the response comprising information associated with the property of the code, verifying correctness of the response based on the received information, and based on the verifying of the correctness of the response, determining that the code is an authorized code.
US10482245B2
A computer implemented method to determine a configuration of a target virtual machine (VM) in a virtualized computing environment to protect against a security attack exhibiting a particular attack characteristic.
US10482242B2
A respective node in a linear communication orbit receives an instruction packet through the linear communication orbit, where the instruction packet has been propagated from a starting node to the respective node through one or more upstream nodes along the linear communication orbit, and the instruction packet includes an instruction for establishing a direct duplex connection between the respective node and a respective server. In response to receiving the instruction packet, the respective node sends an outbound connection request to the respective server to establish the direct duplex connection. The respective node then uploads local data to the respective server through the direct duplex connection (e.g., in response to one or more queries, instructions, and requests received from the respective server through the direct duplex connection), where the respective server performs analysis on the local data received from the respective node through the direct duplex connection.
US10482240B2
An anti-malware device 50 includes: a risk information storage unit 51 in which risk information 510 is stored, in which there are associated a value indicating an attribution of an information processing device 60 for executing software 600, a value indicating an attribution of the software 600, and a value that indicates the degree of risk when the software 600 is executed; a subject attribution collection unit 53 for collecting the value indicating the attribution of the information processing device 60; an object attribution collection unit 54 for collecting the value indicating the attribution of the software 600; and a determination unit 55 for determining that the software 600 is malware when the value indicating the degree of risk obtained by comparing the risk information 510 and the values collected by the subject attribution collection unit 53 and object attribution collection unit 54 satisfies a criterion.
US10482230B2
Techniques for implementing face-controlled liveness verification are provided. In one embodiment, a computing device can present, to a user, a sequential series of targets on a graphical user interface (GUI) of the computing device, where each target is a visual element designed to direct the user's attention to a location in the GUI. The computing device can further determine whether the user has successfully hit each target, where the determining comprises tracking movement of a virtual pointer controlled by the user's gaze or face pose and checking whether the user has moved the virtual pointer over each target. If the user has successfully hit each target, the computing device can conclude that the user is a live subject.
US10482223B1
The disclosed computer-implemented method for selecting questions for knowledge-based authentication based on social entropy may include (1) identifying a potential question to ask a user of a computing system during a KBA process in an attempt to verify the user's identity, (2) determining whether any information suggestive of a correct answer to the potential question is available to anyone other than the user of the computing system, (3) calculating a social entropy of the potential question based at least in part on the determination of whether any information suggestive of the correct answer is available to anyone other than the user, and then (4) selecting the potential question to be asked to the user during the KBA process based at least in part on the social entropy of the potential question. Various other methods, systems, and computer-readable media are also disclosed.
