Methods and/or systems for managing continuity of data flow in 5G networks. A UE may receive a message from a 5G network in response to a PDU session establishment request. The message indicates a failure to establish a PDU session with a first DNN and a first network slice. A PDU session may be established with at least one of a second DNN and a second network slice, if the PDU session is matching with a route selection descriptor applicable to data traffic to be routed through the PDU session. A non-CIoT device may receive a message from a 5G network in response to a service request. The message may indicate failure of a service request procedure, pertaining to a PDU session, such as due to insufficient user-plane resources. The PDU session may be closed and reestablished. If there is lower layer failure in 5G, a connection may be established with a 4G network for data transfer.

An access point (AP) of an AP multi-link device (MLD) is associated with a first communication link, and one or more secondary APs of the AP MLD are associated with one or more respective secondary communication links of the AP MLD. The first AP of the AP MLD generates a frame including a first change sequence field, one or more secondary change sequence fields, and a critical update flag subfield. The first change sequence field carries a value of the most-recent critical update for the first AP. The one or more secondary change sequence fields carry values of the most-recent critical updates for the one or more respective secondary APs. The critical update flag subfield carries an indication of a change in value of at least one of the secondary change sequence fields. The first AP transmits the frame over the first communication link of the AP MLD.

Systems and methods are provided to manage, control, and configure connectivity for vehicles or other devices. Data in different formats, which is received from different connectivity providers, is converted into a unified data format and stored in a data store. The unified data format allows analytics to be performed across the converted data. In some embodiments, a connectivity type of a plurality of connectivity types associated with a vehicle is controlled based on a current lifecycle stage of the vehicle. In some embodiments, a first data connection between a device and a first connectivity provider is utilized. Based on an identified change in location of the device and information associated with a second data connection between the device and a second connectivity provider, a switch to the second data connection is facilitated based on a determination that that the second data connection has more optimal characteristics.

Systems and methods are provided to manage, control, and configure connectivity for vehicles or other devices. Data in different formats, which is received from different connectivity providers, is converted into a unified data format and stored in a data store. The unified data format allows analytics to be performed across the converted data. In some embodiments, a connectivity type of a plurality of connectivity types associated with a vehicle is controlled based on a current lifecycle stage of the vehicle. In some embodiments, a first data connection between a device and a first connectivity provider is utilized. Based on an identified change in location of the device and information associated with a second data connection between the device and a second connectivity provider, a switch to the second data connection is facilitated based on a determination that that the second data connection has more optimal characteristics.

An apparatus of a computing node of a communication network, a system, a machine-readable storage medium, and a method. One or more processing circuitries of the apparatus are to: receive a plurality of service data flows (SDFs) associated with respective applications to be executed, the SDFs including data packets; determine first Quality of Service (QoS) flows corresponding to a plurality of first QoS requirements for the SDFs, wherein SDFs associated with a same application correspond to a same QoS requirement of the plurality of first QoS requirements; change the first QoS flows to second QoS flows different from the first QoS flows, the second QoS flows corresponding to a plurality of second QoS requirements for respective ones of the SDFs, the second QoS flows based on the respective applications and further based on respective ones of the data packets; and send for transmission from the output the plurality of SDFs based on the second QoS flows.

A telecommunications system for a mine with tunnels having a plurality of nodes disposed in the tunnels in the mine which provides communication through WiFi with devices in the mine. Each node having a housing defining an enclosure, a first radio with a first antenna disposed at least partially in the enclosure within the housing directed for communication in a first direction relative to the node, a second radio with a second antenna disposed at least partially in the enclosure within the housing directed for communication in a second direction essentially opposite the first direction, and a power supply in electrical communication with the first and second radios to power the first and second radios. A method of a telecommunications system for a mine. A method of a Wifi node for a mine. A Wifi node for a mine. An apparatus for holding an object in a mine.

Systems, apparatuses, and methods are described for wireless communications. A base station and wireless device may communicate capability information associated with a wireless device. The capability information may include information indicating support for an Ethernet type packet data unit session or header parameter compression. An Ethernet type packet data unit session may be instantiated based on the capability information.

Systems, apparatuses, and methods are described for wireless communications. A base station and wireless device may communicate capability information associated with a wireless device. The capability information may include information indicating support for an Ethernet type packet data unit session or header parameter compression. An Ethernet type packet data unit session may be instantiated based on the capability information.

This disclosure describes systems, methods, and devices related to wake-up frame indication. A device may determine a wake up receiver (WUR) wake-up frame to be sent to a first station device of one or more station devices. The device may determine one or more indications associated with the first station device, wherein the one or more indications indicate to the first station device, one or more actions to be taken by the first station device after waking up a primary connectivity radio (PCR) of the first station device. The device may cause a medium access control (MAC) layer to encode the WUR wake-up frame with the one or more indications associated with the first station device. The device may cause to send the WUR wake-up frame to the first station device using a physical layer (PHY).

A communication method and apparatus are provided. The method includes: A control plane device obtains first information of a first terminal device, where the first information indicates a terminal device that has mutual trust with the first terminal device, and the terminal device that has mutual trust with the first terminal device includes a second terminal device. The control plane device sends a first message to a first user plane device, where the first message includes route configuration information, the route configuration information is used to configure a first transmission path, the first transmission path is used to forward data to a second terminal device via the first terminal device, and the first user plane device is configured to provide a user plane data forwarding service for the first terminal device.