Abstract: A semiconductor device package includes a substrate, a first antenna and a second antenna. The substrate has a first surface and a second surface opposite to the first surface. The first antenna pattern is disposed over the first surface of the substrate. The first antenna pattern has a first bandwidth. The first antenna pattern has a first port configured to generate a magnetic field. The second antenna pattern is disposed over the first surface of the substrate. The second antenna pattern has a second bandwidth different from the first bandwidth. A prolonged line of an edge of the first antenna pattern parallel to the magnetic field generated by the first port of the first antenna pattern is spaced apart from the second antenna pattern.

Abstract: A vertically integrated circuit assembly may include a substrate including a plurality of electrical traces, and a first circuit assembly layer disposed on the substrate. In embodiments, the first circuit assembly layer includes a first set of integrated circuit components, and a plurality of electrical interconnects configured to route signals through the first circuit assembly layer. In embodiments, the vertically integrated circuit assembly further includes a second circuit assembly layer coupled to the top surface of the first circuit assembly layer. The second circuit assembly layer may include a second set of integrated circuit components, and a plurality of electrical interconnects configured to route signals through the second circuit assembly layer. In embodiments, an electrical interconnect arrangement on a top surface of the first circuit assembly layer is configured to interface with an electrical interconnect arrangement on the bottom surface of the second circuit assembly layer.

Abstract: An environment includes one or more clients, a game mediator server, and a game server connected by a network. The clients include a game mediator and a game. The game server executes game playing sessions of the games. The game mediator server and the game mediators form a game mediation infrastructure to mediate game playing sessions. For example, the game mediation infrastructure creates “lobbies” for game playing sessions and enables clients connected to lobbies to communicate with one another. The games receive interactions at the client and communicate with the game server to impact execution of game playing sessions. The game mediator server sends deep links to clients, e.g., to initiate game installation, or to start the game at a particular portion of the game. The game mediation infrastructure may also enrich gameplay by customizing gameplay and/or the lobby, e.g. based on events that occur during execution of the game playing session, or locations of the clients.

Abstract: A system may include a receiver configured to receive sensor data from one or more aerial vehicles, the sensor data including map data including sensed data related to an aerial view from one or more aerial vehicles of terrain and objects on the terrain. The system may also include a map updating processor in communication with the receiver. The map updating processor may receive the map data and identify a geographic location and/or an orientation associated with the map data. The map updating processor may also align, based at least in part on the geographic location and/or the orientation, the map data with a virtual aerial map providing an aerial view of terrain and objects on the terrain. The map updating processor may also incorporate at least a portion of the map data into the virtual aerial map and generate an updated virtual aerial map.

Abstract: The invention relates to a system and method for navigating an autonomous driving vehicle (ADV) that utilizes an-onboard computer and/or one or more ADV control system nodes in an ADV network platform. The on-board computer receives physiological and ADV occupant identification sensor data concerning one or more occupants occupying an ADV, sensor data concerning the items being transported within the ADV, and information concerning the ADV itself to aid border security agencies in protecting their respective borders and territories (e.g., international borders, security zone borders, geographical borders, etc.). The relevant border agency can receive certain information over a network concerning one or more ADVs and make a determination if a heightened security screening should be requested.

Abstract: A method is described for reducing the afterflame of a flammable, meltable material. A textile composite is described comprising an outer textile comprising a flammable, meltable material, and a heat reactive material comprising a polymer resin-expandable graphite mixture.

Abstract: Monitoring health of associated, but separated storage clusters can be done at both a node scope and a cluster scope. Monitoring the storage clusters at the cluster scope includes monitoring the network elements that support the storage clusters and connect the storage clusters. Initially, a fabric monitor in each cluster discovers cluster topology. This cluster topology is communicated and maintained throughout the managing storage elements of the storage clusters. After the storage cluster topologies have been discovered, the fabric monitors of each cluster can periodically determine status of network elements of the storage clusters. This allows the storage clusters to maintain awareness of interconnect status, and react to changes in status. In addition, each managing storage element monitors its own health. This information is aggregated to determine when to trigger corrective actions, alerts, and/or storage features in accordance with rules defined at the managing storage elements.

Abstract: A power device with self-health status prediction function and a self-health status prediction method thereof and a cloud server suitable for a plurality of power devices are provided. The power device is configured to obtain a health index prediction model and a health prediction index threshold of the power device from the cloud server through a communication module thereof, and is configured to put a plurality of obtained sensing data and basic information of the power device into the health index prediction model to obtain a health prediction index. The power device is also configured to obtain a health status prediction data of the power device according to a comparison result between the health prediction index and the health prediction index threshold, so as to perform a follow-up process. Wherein the health index prediction model is constructed and trained by the cloud server by way of machine learning.

Abstract: A computer-implemented machine learning method for improving a collaboration environment is provided. The method comprises receiving text data for one or more users of the collaboration environment. The method further comprises generating a statement by partitioning the text data. The method further comprises determining an act using the statement and generating a thread using at least the statement and the act. The method further comprises generating an actor list using at least the thread, and generating an actionable item using the actor list and the thread.

Abstract: A computing system receives geolocation information indicating aggregated locations of mobile devices configured to move in a geographic area. The geolocation information comprises measured location(s) for a given mobile device of the mobile devices. The system generates a time series representing mobility network graphs over a first time period. The time series is generated by, for each subperiod in the time series, generating data representing estimated movement of member(s) of a population between locations within the geographic area. The estimated movement is estimated based on the geolocation information and a total population for the geographic area. The system generates metric(s) derived from the time series. The system determines contamination information indicating a respective contamination status for locations for each subperiod of the time series. The system generates a computer model to predict changes in the contamination information in a second time period subsequent to the first time period.

Abstract: This document describes, among other things, systems and methods for managing distributed parallel builds. A computer-implemented method to manage parallel builds, comprises identifying one or more software components in a software project, wherein each software component includes an executable binary file; determining a build configuration for each software component, wherein the build configuration includes a mapping from each software component to one or more build servers; and building each software component using the mapped one or more build servers in the corresponding build configuration, wherein the building includes compiling one or more source files associated with each software component to one or more object files, by distributing the one or more source files to one or more compilation machines.

Abstract: A system and method are provided for collection and testing of a biologic sample. The system and method comprise collecting by a user of a testing device a biologic sample for use with the testing device, assigning correlative values as test results, and receiving the test results at a server disposed on a network. Some aspects further include presenting advertisements and other messages to users through a mobile application operating on a mobile device. These aspects take into account the results of the self-diagnostic test and present different advertisements to the user based on the results of the test.

Abstract: According to one implementation, an image generation system includes a rotor, a base including a motor for spinning the rotor about an axis of rotation, a display secured to the rotor, the display including a display surface, and a blur screen secured to the display. The blur screen has a vertical edge substantially parallel to the axis of rotation and includes a first light emission barrier, a second light emission barrier, and a horizontal gap having a width substantially perpendicular to the vertical edge separating the first light emission barrier from the second light emission barrier. The first light emission barrier and the second light emission barrier are configured to substantially prevent rotational blur of an image displayed by the display surface while the display and the blur screen are spun by the motor and the rotor.

Abstract: This disclosure relates to a device and method for disinfecting CPAP components using a chemically reactive substrate. Specifically, the device and method are used to disinfect CPAP components (or, CPAP equipment), including the various parts of a CPAP system, such as hoses, masks, pillows, couplings, humidifiers, etc., that require frequent cleaning and disinfecting. An exemplary device includes, among other things, a chamber, an ultraviolet (UV) light configured to emit UV light within the chamber, and a substrate chemically reactive to the UV light. Exposing the substrate to UV light releases free radicals which are configured to destroy bacteria, mold, and fungus, as well as eliminate odor. The free radicals may be circulated within the chamber and consequently within the CPAP components that are placed within the chamber to provide a thorough disinfection.

Abstract: A valve assembly for a fluid pump includes a valve body; an inlet disk movably disposed in the valve body; an outlet disk movably disposed in the valve body; and a valve seat fixed within the valve body. The valve seat includes a first aperture defined axially through the valve seat in a radial central portion thereof, and one or more second apertures disposed at least partly around the first aperture. The inlet disk is biased in a closed position against the valve seat along a first surface thereof, the closed position of the inlet disk covering the one or more second apertures of the valve seat. The outlet disk is biased in a closed position against the valve seat along a second surface thereof.