Abstract: A device may include a processor, a wireless transceiver in communication with the processor, and a non-transitory memory. The memory may store instructions that, when executed by the processor, cause the processor to perform processing. The processing may include sending, by the wireless transceiver, a request to share a transaction to at least one external user device in communication range of the device. The processing may include receiving, at the wireless transceiver, at least one sharing confirmation from the at least one external user device. The processing may include generating a transaction request. The transaction request may include data describing the transaction and a transaction portion to be paid by an account associated with the device. The processing may include sending the transaction request to a transaction service for fulfillment.

Abstract: A battery pack support assembly includes a plurality of isolators disposed between an outer support frame of a battery pack and longitudinal rails of a vehicle frame. Each isolator includes a housing, an elastic body and a fastener. The housing defines a central opening and opposed flanges. The opposed flanges are secured to a respective longitudinal rail. The elastic body is disposed within the central opening of the housing. The fastener extends laterally through the central opening of the housing and secures the elastic body to the outer support frame of the battery pack.

Abstract: An autonomous robot is provided. In one example embodiment, an autonomous robot can include a main body including one or more compartments. The one or more compartments can be configured to provide support for transporting an item. The autonomous robot can include a mobility assembly affixed to the main body and a sensor configured to obtain sensor data associated with a surrounding environment of the autonomous robot. The autonomous robot can include a computing system configured to plan a motion of the autonomous robot based at least in part on the sensor data. The computing system can be operably connected to the mobility assembly for controlling a motion of the autonomous robot. The autonomous robot can include a coupling assembly configured to temporarily secure the autonomous robot to an autonomous vehicle. The autonomous robot can include a power system and a ventilation system that can interface with the autonomous vehicle.

Abstract: Described are systems and methods for implementing and operating a Device Abstraction Proxy (DAP). In one embodiment, the DAP includes a communications interface to connect the DAP to one or more access aggregation devices, each having a plurality of physical ports to provide Digital Subscriber Line (DSL) communication services to a plurality of remote DSL terminals via the plurality of physical ports. The DAP may further include a memory and processor to execute a virtual access aggregation device, in which a subset of the plurality of physical ports are allocated and linked to corresponding logical ports. The DAP may further include a global rule-set module to define operational constraints for the DSL communication services, and a management interface to allow at least one broadband access management system to manage the subset of physical ports allocated to the virtual access aggregation device subject to the operational constraints.

Abstract: Groups of devices may be prevented from accessing content by encrypting the content. A plurality of secrets associated with a decryption key may be generated using a secret sharing algorithm. The plurality of secrets may be sent to one or more groups of devices to derive the decryption key. A non-restricted subset of the groups of devices may receive one or more secrets. Devices within the non-restricted subset of the groups may be able to use one or more secrets to determine the decryption key for the content. Groups that do not receive one or more secrets may be unable to determine the decryption key for the content.

Abstract: A system for providing a web service on a network of addressable nodes, said web service comprising a plurality of discrete, individually-addressable microservices, said system comprising: (a) at least one load balancer configured for routing a request from a node for a microservice to one of a plurality of virtual addresses, each virtual address corresponding to a unique microservice, and (b) one or more physical nodes associated with each virtual address, each physical node comprising one or more microservices, each microservice comprising a microservice-specific module for executing a particular function, said microservice-specific module linked to an interface for communicating over said network, each microservice being one of a plurality of individually-addressable microservices constituting a web service.

Abstract: According to one configuration, a system includes a first wireless station in communication with a second wireless station. A phase noise predictor model such as associated with the first wireless station receives phase noise information. The phase noise information captures an estimate of: i) first phase noise associated with a first wireless station, and ii) second phase noise associated with a second wireless station. Based on the received phase noise information, the predictor produces phase noise adjustment information. The predictor applies the phase noise adjustment information to adjust (compensate) a signal of the first wireless station. Adjustment of the signal results in phase noise adjustment with respect to both the first phase noise associated with the first wireless station and the second phase noise associated with the second wireless station.

Abstract: Methods, systems, and apparatus, including computer programs encoded on computer-storage media, for a display with discrete gate-in-panel circuitry. In some implementations, a display includes an array of emissive pixels arranged in rows and columns, where the array includes a first continuous area having a first pixel density and a second continuous area having a second pixel density less than the first pixel density, and consecutive rows of the emissive pixels extending between the first and second continuous areas. The display also includes gate in panel (GIP) circuits in the second continuous area, a data lines connected to the array of emissive pixels, and signal lines connected to the array of emissive pixels.

Abstract: A method of manufacture for an improved composition for melt-bonding road marking compound is disclosed. Comprising preparing a PET component from pulverized recycled plastic. combining the PET component, a pigment component, a filler component, a silica component and a binder component to form a road marking compound. melting the road marking compound form the melt-bonding road marking compound. selecting an amount of the PET component to maximize PET in the melt-bonding road marking compound while ensuring the melt-bonding road marking compound remains liquid for application to a road surface. The PET component comprises glass beads, is substantially clear, and substantially spherical. The PET component comprises glass beads. The method of manufacture comprises optimizing a bead diameter of the PET component to ensure the melt-bonding road marking compound can flow through screens and nozzles in a typical road paint application equipment.

Abstract: A protective cover for a camera includes a housing configured for attachment to one of the camera and a support structure which supports the camera, a lens attached to the housing and configured for alignment with an imaging axis of the camera, a light source attached to the housing and configured for providing light to a field of view of the camera, and an electrical connector carried by the housing and configured for receiving power and/or signal commands and for conveying the power and/or signal commands to the light source. The lens may be a meniscus-shaped macro lens, and a lightguide may be attached to or incorporated into at least one of the housing and the light source. The protective cover may be used to protect a camera mounted in a wheel well or anywhere along an outer surface of an automotive vehicle.

Abstract: A transcatheter heart valve includes a paravalvular seal that is configured for transfemoral delivery. The valve includes an outer frame and the seal is formed from a plurality of outwardly extending fibers.

Abstract: Some variations provide a leading-edge heat pipe comprising: (a) an envelope fabricated from a shell material, wherein the envelope includes at least one edge with a radius of curvature of less than 3 mm, and wherein the envelope includes, or is in thermal communication with, at least one heat-rejection surface; (b) a porous wick fabricated from a ceramic or metallic wick material, wherein the porous wick is configured within a first portion of the interior cavity, wherein at least a portion of the porous wick is adjacent to the inner surface, and wherein the porous wick has a bimodal pore distribution comprising an average capillary-pore size from 0.2 microns to 200 microns and an average high-flow pore size from 100 microns to 2 millimeters (the average high-flow pore size is greater than the average capillary-pore size); and (c) a phase-change heat-transfer material contained within the porous wick.

Abstract: A device for dispensing and locking carts disposed in a stack, comprising: a dual-lever mechanism, comprising: a locking lever which is blocking movement of a first cart of a plurality of carts disposed in a stack when in open position; a base adjacent to said locking lever which is movable forward and backward with respect to the stack; and a dispensing lever mounted on the base which is blocking movement of a second cart of the plurality of carts when in open position; and a drive belt driving the plurality of carts in parallel to movement of said base by moving forward and backward in coordination with the base.