Aspects of the present disclosure provide techniques for interference measurements based on a priority value in a network (e.g., an Integrated Access and Backhaul (IAB) network). One example method generally includes determining, based on a priority level associated with each of a first wireless node, a second wireless node, or both, at least one configuration for communicating one or more synchronization signal blocks (SSBs) between the first wireless node and the second wireless node, each of the first wireless node and the second wireless node being configured to serve one or more child nodes, wherein the at least one configuration comprises information enabling the first wireless node or the second wireless node to manage interference to communications. In some aspects, the method may also include transmitting the at least one configuration to at least one of the first wireless node or the second wireless node.

Aspects of the present disclosure provide techniques for interference measurements based on a priority value in a network (e.g., an Integrated Access and Backhaul (IAB) network). One example method generally includes determining, based on a priority level associated with each of a first wireless node, a second wireless node, or both, at least one configuration for communicating one or more synchronization signal blocks (SSBs) between the first wireless node and the second wireless node, each of the first wireless node and the second wireless node being configured to serve one or more child nodes, wherein the at least one configuration comprises information enabling the first wireless node or the second wireless node to manage interference to communications. In some aspects, the method may also include transmitting the at least one configuration to at least one of the first wireless node or the second wireless node.

The disclosure provides a method for providing an enterprise gNB for connection to a 5G packet core network. The method includes provisioning the enterprise gNB. The enterprise gNB hosts a local user plane function (L-UPF). The method also includes configuring the 5G packet core network comprising a session management function (SMF) to select the local user plane function to service user equipment (UE) connected to the enterprise gNB.

Methods, systems, and computer readable media for supporting mobile originated data multicasting in a communications network.in a communications network are disclosed. One method includes receiving, from a consumer network function (NF) in a communications network, a deliver request message containing mobile originated (MO) data corresponding to a protocol data unit (PDU) session, wherein NIDD context information stored at NEF and referred by a context identifier in the deliver request message includes a subscriber identifier and a data network identifier associated with a user device requesting the PDU session and determining that a rule entry belonging to a plurality of rule entries contained in a multicasting ruleset matches at least one of the subscriber identifier and the data network identifier included in the NIDD context information that is stored at the NEF and referred by the context identifier in the deliver request message. The method further includes accessing a list of NF identity objects in the rule entry in response to determining the rule entry matches at least one of the subscriber identifier and/or the data network identifier and delivering the MO data to each of a plurality of NF endpoints specified in the rule entry in accordance with a routing condition indicated in each of the NF identity objects respectively associated with each of the NF endpoints.

A communications system includes a non-MUSIM enhanced PLMN and a MUSIM enhanced PLMN. The MUSIM enhanced PLMN includes a novel Multi-Path (MP) Proxy node. The MP Proxy Node is controlled to switch between two alternative DL data flow paths to facilitate graceful path changeovers. Downlink (DL) data flow toward the non MUSIM enhanced network (e.g., PLMN-A) is based on the interaction between the MUSIM UE and the MUSIM enhanced network (e.g., PLMN-B) together with the novel MultiPath (MP) Proxy node.

Provided is a method performed by a user equipment (UE), the method including receiving roaming information including visited public land mobile network (PLMN) information from an access and mobility management function (AMF); selecting a PLMN among at least one PLMN identified based on verification of the received roaming information; transmitting a message to release a protocol data unit (PDU) session previously established at the UE to a session management function (SMF); performing PDU session release based on a response message for the transmitted message; and transmitting a message to register the selected PLMN.

A distributed wireless gateway comprises several switches. Each switch is coupled to a respective set of wireless access points. When a given switch receives a packet from one of its wireless access points, it creates a mapping between that access point and the host that sent the packet to the access point. The given switch advertises to other switches in the distributed wireless gateway reachability information that maps that host to the switch, enabling the other switches to identify the given switch as the next hop when they receive a packet destined for that host.

A method, a device, and a non-transitory storage medium are described in which a registration area-based application exposure and network slice selection service is provided. The service may include the generation of multiple sets of allowed network slices based on a type of end device, current tracking area, and registration area information. The service may also include selecting one of the sets of allowed network slices based on a mobility pattern of the end device. The service may also translate allowed network slices, current tracking area and registration area information, and expose the translated information to an application function.

The present disclosure is directed to method in a mobility management node and such a node for delivering data to a wireless communication device (WCD) served by the mobility management node, operating in a communication network comprising a network entity (NE) and a radio access network (RAN) node serving the WCD, the method comprises: obtaining capability information indicating whether the RAN node supports acknowledgement of a successful delivery of data to the WCD; receiving a data message sent by the NE comprising user data intended for the WCD; sending a control plane message comprising the user data to the RAN node for further delivery to the WCD; sending a response to the NE indicating the outcome of the data delivery.

Methods, systems, and devices for wireless communications are described. In a wireless communications system, a user equipment (UE) may determine a preference of the UE for a termination point between a core network and a radio access network (RAN), the core network and the RAN supporting communications for the UE via at least one or a first cell and a second cell each associated with a multi-connectivity mode of the UE. The UE may transmit, to a base station, an indication of the preference of the UE for the termination point. In some cases, the base station may determine the termination point based on receiving the indication of the preference of the UE, and the base station may transmit a message indicating a configuration for the multi-connectivity mode to the UE, the configuration indicating the determined termination point.