Abstract: Systems and methods for generating AR content to virtually alter a real-world item are provided. The real-world item may be a deformable item including one or more flexible surfaces. According to an embodiment, a method includes determining the relative positions of a plurality of points on the real-world item. Based on the relative positions of the plurality of points, a 3D model of a virtual item is distorted to produce a distorted 3D model of the virtual item. The distorted 3D model may have substantially the same shape as the real-world item. AR content is then generated based on the distorted three-dimensional model.

Abstract: A method, a network device, and a non-transitory computer-readable storage medium are described in relation to an per-session validation with secure connection and authentication service. The service may include the installation of a client after an end device completes a primary authentication and registration procedure with a core network. The client and an enforcement device may establish a secure and encrypted session via which packet data unit (PDU) session requests may be approved or denied based on network access polices associated with the end device. An enforcement orchestration service may configure enforcement devices and obtain encryption keys from the core network for use by the enforcement device.

Abstract: Systems and methods for generating AR content to virtually alter a real-world item are provided. The real-world item may be a deformable item including one or more flexible surfaces. According to an embodiment, a method includes determining the relative positions of a plurality of points on the real-world item. Based on the relative positions of the plurality of points, a 3D model of a virtual item is distorted to produce a distorted 3D model of the virtual item. The distorted 3D model may have substantially the same shape as the real-world item. AR content is then generated based on the distorted three-dimensional model.

Abstract: A method may include receiving content for multicasting, identifying user equipment (UE) devices to receive the content and identifying a geographical or service area associated with the identified UE devices. The method may also include determining a scheduled time for a multicast transmission of the content and transmitting, prior to the scheduled time, a message to the devices, wherein the message indicates the scheduled time. The method may further include initiating the multicast transmission of the content at the scheduled time.

Abstract: A merchant may operate a retail store that users are able to visit in person in order to view and purchase products. When a user visits the store, the user might not know where a desired product (“target product”) is located. Computer technology may help direct the user to the target product in real-time. In some embodiments, a model of passable areas and the location of products in the retail store may be determined, e.g. by a merchant device. In some embodiments, when the user visits the retail store, a computer generates a product recommendation, e.g. based on user-specific information, and a route in the retail store is determined for the user. In some embodiments, the route in the retail store may be determined using the model based on the target product, the user's location in the store, and one or more recommended products.

Abstract: A merchant may operate a retail store that users are able to visit in person in order to view and purchase products. When a user visits the store, the user might not know where a desired product (“target product”) is located. Computer technology may help direct the user to the target product in real-time. In some embodiments, a model of passable areas and the location of products in the retail store may be determined, e.g. by a merchant device. In some embodiments, when the user visits the retail store, a computer generates a product recommendation, e.g. based on user-specific information, and a route in the retail store is determined for the user. In some embodiments, the route in the retail store may be determined using the model based on the target product, the user's location in the store, and one or more recommended products.

Abstract: A method is outlined for controlling a node to a join a wireless network, which increases the speed of the wireless network commissioning procedure by reducing the chance of congestion. This is achieved by differentiating the joining time of nodes attempting to join the wireless network. Nodes indirectly communicate by transmitting beacon request messages to nodes of the wireless network, which results in the transmission of beacon messages by nodes of the wireless network. These beacon messages can be received by all nodes attempting to join the wireless network. Therefore, the beacon messages can be utilized as an indicator for nodes attempting to join the wireless network as to the number of other nodes attempting to join the wireless network. Based on this indication, the node can be controlled to wait for a further length of time, or to join the wireless network.

Abstract: A method for repairing multicast/broadcast content via peer to peer communications, which includes receiving at least a part of a file transmitted by a wireless multicast/broadcast service (WMBS) session via an access ndownetwork; exchanging, via a peer to peer network, completion messages between the UE device and peer UE devices upon completion of the WMBS session; identifying an amount of the file received at the UE device, and amounts of the file received at each of peer UE devices based on the exchanged completion messages; sending repair data to repair the file on each peer UE devices in response to identifying that the UE device received the entire file; and sending repair data via the peer to peer network, obtained from the access network, in response to identifying that the UE device received less than the entire file and more of the file than each of the group of peer UE devices.

Abstract: A device may receive emergency data, traffic data, network performance data, crime data, and gunshot data associated with a geographical area and may identify a location within the geographical area based on the emergency data, the traffic data, the network performance data, the crime data, and the gunshot data. The device may determine, based on the emergency data, the traffic data, the network performance data, the crime data, and the gunshot data for the location, a risk level for the location and may identify an autonomous vehicle based on the risk level, the traffic data, and the network performance data for the location. The device may determine a route for the autonomous vehicle to the location based on the traffic data and the network performance data for the location, and may perform actions based on the autonomous vehicle and the route.

Abstract: Apparatuses and methods are provided for augmented reality-assisted assessment of three-dimensional (3D) fit of physical objects within a physical environment in different positions. According to an embodiment, an augmented reality (AR) device obtains 3D dimensions of a virtual object representative of a real-world physical object and displays a 3D representation of the virtual object in an AR space depicted by a user interface of the AR device that is representative of a real-world physical environment in a field of view of the AR device. The 3D representation of the virtual object is proportionally dimensioned relative to the physical environment based on the obtained 3D dimensions of the virtual object and the virtual object is repositionable in the AR space responsive to input received by the AR device to allow assessment of 3D fit of the virtual object within the physical environment in different positions.

Abstract: A method may include receiving registration information from a first user equipment (UE) device and identifying a first multicast service associated with the first UE device. The method may also include transmitting, to the first UE device, a first file associated with the first multicast service and determining a number of UE devices associated with the first multicast service that have provided registration information. The method may further include determining whether a threshold associated with the number of UE devices that have provided registration information has been reached and initiating a broadcast of content associated with the first multicast service, in response to determining that the threshold has been reached.

Abstract: Systems and methods for generating AR content to virtually alter a real-world item are provided. The real-world item may be a deformable item including one or more flexible surfaces. According to an embodiment, a method includes determining the relative positions of a plurality of points on the real-world item. Based on the relative positions of the plurality of points, a 3D model of a virtual item is distorted to produce a distorted 3D model of the virtual item. The distorted 3D model may have substantially the same shape as the real-world item. AR content is then generated based on the distorted three-dimensional model.

Abstract: Downhole fluid volumes of a geological formation may be estimated using nuclear magnetic resonance (NMR) measurements, even in organic shale reservoirs. Multi-dimensional NMR measurements, such as two-dimensional NMR measurements and/or, in some cases, one or more well-logging measurements relating to total organic carbon may be used to estimate downhole fluid volumes of hydrocarbons such as bitumen, light hydrocarbon, kerogen, and/or water. Having identified the fluid volumes in this manner or any other suitable manner from the NMR measurements, a reservoir producibility index (RPI) may be generated. The downhole fluid volumes and/or the RPI may be output on a well log to enable an operator to make operational and strategic decisions for well production.

Abstract: Systems and methods for generating AR content to virtually alter a real-world item are provided. The real-world item may be a deformable item including one or more flexible surfaces. According to an embodiment, a method includes determining the relative positions of a plurality of points on the real-world item. Based on the relative positions of the plurality of points, a 3D model of a virtual item is distorted to produce a distorted 3D model of the virtual item. The distorted 3D model may have substantially the same shape as the real-world item. AR content is then generated based on the distorted three-dimensional model.

Abstract: Apparatuses and methods are provided for augmented reality-assisted assessment of three-dimensional (3D) fit of physical objects within a physical environment in different positions. According to an embodiment, an augmented reality (AR) device obtains 3D dimensions of a virtual object representative of a real-world physical object and displays a 3D representation of the virtual object in an AR space depicted by a user interface of the AR device that is representative of a real-world physical environment in a field of view of the AR device. The 3D representation of the virtual object is proportionally dimensioned relative to the physical environment based on the obtained 3D dimensions of the virtual object and the virtual object is repositionable in the AR space responsive to input received by the AR device to allow assessment of 3D fit of the virtual object within the physical environment in different positions.

Abstract: A device connects to a standard channel of a multicast network based on entering a service area, and receives a service announcement (SA) file via the standard channel. The device parses the SA file to determine a list of services identified in the SA file, and receives a selection of a priority service from the list of services. The device updates a priority counter associated with the priority service based on the selection. The device receives, after the period of time, information indicating entry into the service area, and determines that the priority counter satisfies a threshold based on receiving the information indicating entry into the service area. The device automatically connects to a priority channel of the multicast network, associated with the priority service, based on the priority counter satisfying the threshold, and receives a priority SA file, associated with the priority service, via the priority channel.

Abstract: Systems and methods for generating AR content to virtually alter a real-world item are provided. The real-world item may be a deformable item including one or more flexible surfaces. According to an embodiment, a method includes determining the relative positions of a plurality of points on the real-world item. Based on the relative positions of the plurality of points, a 3D model of a virtual item is distorted to produce a distorted 3D model of the virtual item. The distorted 3D model may have substantially the same shape as the real-world item. AR content is then generated based on the distorted three-dimensional model.

Abstract: A merchant may operate a retail store that users are able to visit in person in order to view and purchase products. When a user visits the store, the user might not know where a desired product (“target product”) is located. Computer technology may help direct the user to the target product in real-time. In some embodiments, a model of passable areas and the location of products in the retail store may be determined, e.g. by a merchant device. In some embodiments, when the user visits the retail store, a computer generates a product recommendation, e.g. based on user-specific information, and a route in the retail store is determined for the user. In some embodiments, the route in the retail store may be determined using the model based on the target product, the user's location in the store, and one or more recommended products.

Abstract: A method may include receiving content for multicasting, identifying user equipment (UE) devices to receive the content and identifying a geographical or service area associated with the identified UE devices. The method may also include determining a scheduled time for a multicast transmission of the content and transmitting, prior to the scheduled time, a message to the devices, wherein the message indicates the scheduled time. The method may further include initiating the multicast transmission of the content at the scheduled time.

Abstract: A first cell device obtains, from a second cell device, multicast information associated with the second cell device, where a first wireless coverage area associated with the first cell device at least partially overlaps a second wireless coverage area associated with the second cell device. The first cell device transmits the multicast information to an element management system, and receives, from the element management system, an instruction, generated based at least on the multicast information, to not use one or more subframes, associated with a multicast transmission session associated with the second cell device, to transmit during the multicast transmission session. The first cell device determines, after receiving the instruction, that the multicast transmission session has been initiated, and causes the first cell device to not use the one or more subframes to transmit during the multicast transmission session associated with the second cell device.