Abstract: Introduced here computer programs and associated computer-implemented techniques for generating measurements of physical structures and environments in an automated matter through analysis of data that is generated by one or more sensors included in a computing device. This can be accomplished by combining insights that are derived through analysis different types of data that are generated, computed, or otherwise obtained by a computing device. For instance, a computer program may enable or facilitate measurement of arbitrary dimensions, angles, and square footage of a physical structure based on (i) images generated by an image sensor included in the corresponding computing device and (ii) measurements generated by an inertial sensor included in the corresponding computing device.

Abstract: Embodiments of the present disclosure provide methods, systems, apparatuses, and computer program products for proactive network diagnosis. An example method may include determining, by one or more processors, telemetry data and streaming trap data indicative of a group of cable modem devices being disconnected from a cable network. The example method may include determining, based on the telemetry data and streaming trap data, a first network node device of the group of network node devices. The example method may include generating first performance data associated with the first network node device. The example method may include determining, based on a comparison between the first performance data and an event criterion, an occurrence of an event associated with the first network node device.

Abstract: An embodiment includes an orthopedic fusion system comprising: a cage; a curved first channel coupling a lateral wall of the cage to a superior surface of the cage; a curved second channel coupling the lateral wall of the cage to an inferior surface of the cage; a third channel coupling the superior surface of the cage to the inferior surface of the cage; a curved first anchor configured to slide within the first channel; a curved second anchor configured to slide within the second channel; and a resilient member comprising a resilient first arm that projects across a portion of the first channel and a resilient second arm that projects across a portion of the second channel. Other embodiments are described herein.

Abstract: Introduced here computer programs and associated computer-implemented techniques for generating measurements of physical structures and environments in an automated matter through analysis of data that is generated by one or more sensors included in a computing device. This can be accomplished by combining insights that are derived through analysis different types of data that are generated, computed, or otherwise obtained by a computing device. For instance, a computer program may enable or facilitate measurement of arbitrary dimensions, angles, and square footage of a physical structure based on (i) images generated by an image sensor included in the corresponding computing device and (ii) measurements generated by an inertial sensor included in the corresponding computing device.

Abstract: Introduced here computer programs and associated computer-implemented techniques for generating measurements of physical structures and environments in an automated matter through analysis of data that is generated by one or more sensors included in a computing device. This can be accomplished by combining insights that are derived through analysis different types of data that are generated, computed, or otherwise obtained by a computing device. For instance, a computer program may enable or facilitate measurement of arbitrary dimensions, angles, and square footage of a physical structure based on (i) images generated by an image sensor included in the corresponding computing device and (ii) measurements generated by an inertial sensor included in the corresponding computing device.

Abstract: In a 6G network, microservices can be utilized in the absence of a core network. For example, after a mobile device has authenticated, when the mobile device moves away from mobile edge computing (MEC) coverage, the information from the MEC can be ported to a new MEC along the way of the mobile device's path. The initial MEC can send service related application package data to one or more neighboring MECs. When a neighboring MEC of the neighboring MECs receives the service related application package data and the neighboring MEC serves the area which the mobile device is transitioning to, then the neighboring MEC can send an acknowledgment back to the initial MEC. Once the acknowledgment is received by the initial MEC, the initial MEC can complete the handover of the application data needed to reduce or mitigate any disruption in service for the mobile device.

Abstract: In a 6G network, microservices can be utilized in the absence of a core network. For example, after a mobile device has authenticated, when the mobile device moves away from mobile edge computing (MEC) coverage, the information from the MEC can be ported to a new MEC along the way of the mobile device's path. The initial MEC can send service related application package data to one or more neighboring MECs. When a neighboring MEC of the neighboring MECs receives the service related application package data and the neighboring MEC serves the area which the mobile device is transitioning to, then the neighboring MEC can send an acknowledgment back to the initial MEC. Once the acknowledgment is received by the initial MEC, the initial MEC can complete the handover of the application data needed to reduce or mitigate any disruption in service for the mobile device.

Abstract: Introduced here computer programs and associated computer-implemented techniques for generating measurements of physical structures and environments in an automated matter through analysis of data that is generated by one or more sensors included in a computing device. This can be accomplished by combining insights that are derived through analysis different types of data that are generated, computed, or otherwise obtained by a computing device. For instance, a computer program may enable or facilitate measurement of arbitrary dimensions, angles, and square footage of a physical structure based on (i) images generated by an image sensor included in the corresponding computing device and (ii) measurements generated by an inertial sensor included in the corresponding computing device.

Abstract: An adjustable protective face covering having a first end having one or more openings spaced apart there along and a second opposing end having one or more openings spaced apart there along. A length extends therebetween for covering a mouth and nose of a wearer, and the face covering is a single use face covering that is a constructed from a unitary sheet comprised of surgical wrap, polypropylene, Spunbond Meltblown Spunbond (SMS), or cotton. The single component mask can be cut from sheets of substrate using various techniques including laser cutting, die cutting, or other machinery typically of use in clothing manufacture.

Abstract: Facilitating enablement of intelligent service aware access utilizing multiaccess edge computing advanced networks (e.g., 5G, 6G, and beyond) is provided herein. Operations of a method can comprise determining a network service being utilized by a first user equipment device has not been instantiated at a distributed network device and based on the first user equipment device approaching a service range of the distributed network device. The method also can comprise deploying the network service, as a microservice, at the distributed network device prior to the first user equipment device entering the service range of the distributed network device. Further, the method can comprise removing the network service from being deployed at the distributed network device based on a determination that the first user equipment device is no longer within the service range of the distributed network device and a second user equipment device is not utilizing the network service.

Abstract: Facilitating enablement of intelligent service aware access utilizing multiaccess edge computing advanced networks (e.g., 5G, 6G, and beyond) is provided herein. Operations of a method can comprise determining a network service being utilized by a first user equipment device has not been instantiated at a distributed network device and based on the first user equipment device approaching a service range of the distributed network device. The method also can comprise deploying the network service, as a microservice, at the distributed network device prior to the first user equipment device entering the service range of the distributed network device. Further, the method can comprise removing the network service from being deployed at the distributed network device based on a determination that the first user equipment device is no longer within the service range of the distributed network device and a second user equipment device is not utilizing the network service.

Abstract: Facilitating enablement of intelligent service aware access utilizing multiaccess edge computing advanced networks (e.g., 5G, 6G, and beyond) is provided herein. Operations of a method can comprise determining a network service being utilized by a first user equipment device has not been instantiated at a distributed network device and based on the first user equipment device approaching a service range of the distributed network device. The method also can comprise deploying the network service, as a microservice, at the distributed network device prior to the first user equipment device entering the service range of the distributed network device. Further, the method can comprise removing the network service from being deployed at the distributed network device based on a determination that the first user equipment device is no longer within the service range of the distributed network device and a second user equipment device is not utilizing the network service.

Abstract: A support surface assembly includes a housing including a chamber and an opening. The support surface assembly also includes a support surface retractably coupled to the housing between a deployed position and a stored position. The support surface includes a plurality of slats pivotally coupled together, wherein each slat comprises a first end opening and an opposing second end opening. The support surface assembly also includes a plurality of rods associated with a corresponding slat of the plurality of slats. Each rod is positioned entirely within the first end opening of a first slat in the stored position and each rod is positioned partially within the second end opening of an adjacent second slat in the deployed position.

Abstract: In a 6G network, microservices can be utilized in the absence of a core network. For example, after a mobile device has authenticated, when the mobile device moves away from mobile edge computing (MEC) coverage, the information from the MEC can be ported to a new MEC along the way of the mobile device's path. The initial MEC can send service related application package data to one or more neighboring MECs. When a neighboring MEC of the neighboring MECs receives the service related application package data and the neighboring MEC serves the area which the mobile device is transitioning to, then the neighboring MEC can send an acknowledgment back to the initial MEC. Once the acknowledgment is received by the initial MEC, the initial MEC can complete the handover of the application data needed to reduce or mitigate any disruption in service for the mobile device.

Abstract: A health monitoring system and method configured to monitor health of one or more individuals within an internal cabin of a vehicle include one or more personal health assessment devices associated with the one or more individuals. The personal health assessment device(s) obtain health data from the individual(s) and output health signals including the health data to one or more group health monitoring devices associated with one or more attendants who are responsible for taking care of the individual(s).

Abstract: A health monitoring system and method are configured to monitor health of individuals within an internal cabin of a vehicle, and include a health statistics database that stores group health data, and an inventory prediction control unit in communication with the health statistics database. The inventory prediction control unit analyzes the group health data stored in the health statistics database to predict future inventory for the vehicle.

Abstract: A health monitoring system and method configured to monitor health of one or more individuals within an internal cabin of a vehicle include one or more group health monitoring devices associated with one or more attendants. The group health monitoring device(s) receive health signals including health data of the individual(s) within the internal cabin from one or more personal health assessment devices associated with the individual(s).