A method for wireless communication at a user equipment (UE) and related apparatus are provided. In the method, the UE identifies the cell type of a cell based on the support for the UE operating with reduced capability. The cell type may be the reduced-capability (RC) type, indicating the support for the UE operating with the reduced capability, the fallback (FB) type, indicating a lack of support for the UE operating with the reduced capability and support for establishing a connection with the UE operating with the reduced capability, and the neither (N) type, indicating the lack of support for the UE operating with the reduced capability and a lack of support for establishing a connection with the UE operating with the reduced capability. The UE further manages a connection between the UE and the cell based on the cell type.

Apparatus and methods are provided for adaptively switching network connections based on scenario detection for slave mobile devices. In one embodiment, the slave mobile device monitors a plurality of sensor inputs and one or more high-layer configuration in a wide area wireless network, wherein the mobile device is configured with capabilities to keep communication to the wide area wireless network through a master device of a corresponding local connection network, generates a scenario indication based on a scenario matrix of the plurality of sensor inputs and the one or more high-layer configuration, and between the wide area wireless network and the local connection network upon determining a switch trigger based on the scenario indication and one or more lower-layer reports. In one embodiment, each indicated scenario is determined based on one or more factors including the one or more sensor inputs and the one or more high-layer configuration.

Provided are methods of managing a terminal in a heterogeneous network (HetNet) environment. Between the methods, a method of managing a terminal performed in a base station includes determining whether or not a measurement change request event has occurred, and when a measurement change request event has occurred, transmitting a control message for instructing a change of a measurement operation to the terminal. Accordingly, it is possible to improve a measurement operation and discontinuous reception (DRX) operation control procedure necessary for connection control between one or more base stations and a terminal in a HetNet environment, and thereby performance of a system can be improved.

Communication network architectures, systems and methods for supporting a network of mobile nodes. As a non-limiting example, various aspects of this disclosure provide detail of a method, a system, and a non-transitory storage medium for managing and triggering handover of a mobile network node in a network of moving things comprising a plurality of network nodes.

A user equipment (UE) may initiate an application on a user equipment (UE) which utilizes a network slice via a packet data network (PDN) connection with a first cellular network. The first cellular network may support network slicing and voice over new radio (VONR) and one or more cells of the first cellular network may support evolved packet system (EPS) fallback procedures. The UE may receive or initiate a voice call with another UE and adjust one or more capabilities of the UE such that an EPS fallback procedure is deemphasized. The UE may receive signaling from the first cellular network to establish, based at least in part on the one or more adjusted capabilities of the UE, the voice call as a VoNR call via the first cellular network and the network slice may be maintained during the VoNR call.

The present application relates to devices and components including apparatus, systems, and methods for supporting voice services during roaming.

Managing data resource utilization in a wireless network environment comprising a first data network and a second data network is described herein. The described management infrastructure and method incorporates monitoring data usage of a wireless network subscriber over the first data network, determining that the data usage over the first data network meets a specified threshold, and, in response to the determination that usage has reached the specified threshold, administratively disconnecting the wireless network subscriber from the first data network so as to cause a data session of the wireless network subscriber to be reassigned to the second data network.

A voice call method and apparatus, and an electronic device. The method is applied to a first electronic device, where the first electronic device camps on a SA cell. The method includes: in a case that a first voice call request is received, sending a first session progress message to the SA cell, so that the SA cell returns a PDU session modification command based on the first session progress message; in a case that the PDU session modification command carries first signaling, determining the SA cell as an abnormal cell; and falling back to an LTE cell and making a voice call in the LTE cell based on a received second voice call request.

Systems and methods for ultra reliable reporting of secondary cell group (SCG) measurements to a secondary node (SN) used in multi-radio dual connectivity (MR-DC) operation that specifically account for the possibility of SCG special cell (SpCell) degradation are disclosed herein. A user equipment (UE) may establish a signaling radio bearer (SRB) 3 with the SN. The UE may then identify that a handover condition (which may be associated with SCG SpCell degradation) for the SCG SpCell is met, and accordingly send an SCG measurement report over each of the SRB3 and an SRB1 between the UE and a master node (MN) used in the MR-DC operation. Such information received at the MN is forwarded to the SN. Accordingly, the reception of SCG measurement reports (to enable handover to a new SpCell by the SN) is not solely dependent messages on the SpCell of the SCG alone (using SRB3), improving reliability.

Systems and methods are provided for optimizing layer assignment based on a total QCI value associated with a UE when the UE falls back from a first wireless access technology to a second wireless access technology, such as from 5G to LTE. QCI values and/or one or more applications running on a UE are monitored to determined when a threshold is met. The UE may receive or initiate a voice call, and at this point, the UE may fallback to LTE from 5G. The network may determine that the UE should fallback to an LTE layer having the highest bandwidth to support the high total QCI value and the high number of applications running on the UE.