A communication apparatus that participates in a network includes a first communication unit which establishes communication with a data processing apparatus via the network and performs data communication with the data processing apparatus according to a first communication method, a control unit controlling execution of a plurality of applications including an application for communicating with the data processing apparatus, a reception unit receiving an instruction for switching the application, and a determination unit, if the reception unit has received an instruction for switching the application to another application while the first communication unit has established communication with the data processing apparatus according to the first communication method, determining whether the another application indicated as a switching destination by the received instruction requires connection to the Internet. The control unit controls whether to cut off the established communication which uses the first communication method depending on a result of the determination.

Systems and methods are provided for cell prioritization. Methods involve monitoring resource usage on a first cell and comparing the monitored resource usage on the first cell to a predetermined threshold. The method additionally includes receiving a connection request from a hybrid wireless device capable of communicating using the first RAT and the second RAT and assigning the hybrid wireless device to the second cell when the monitored resource usage on the first cell meets the predetermined threshold.

Systems and methods are provided for cell prioritization. Methods involve monitoring resource usage on a first cell and comparing the monitored resource usage on the first cell to a predetermined threshold. The method additionally includes receiving a connection request from a hybrid wireless device capable of communicating using the first RAT and the second RAT and assigning the hybrid wireless device to the second cell when the monitored resource usage on the first cell meets the predetermined threshold.

Aspects of the subject disclosure may include, for example, a method in which a processing system detects user equipment (UE) in communication with a network via a serving cell of the network; the network is configured to facilitate communications by one or more terrestrial UEs and one or more aerial UEs. The system monitors messages from an aerial UE regarding detection of a cell other than the serving cell, and receives information from the aerial UE regarding the detected cell. The method further includes analyzing the information to estimate a first quantity associated with the detected cell location relative to the serving cell and a second quantity associated with a power received at the aerial UE from the detected cell. The method also includes determining, based on the analyzing, whether the aerial UE is an unauthorized aerial UE. Other embodiments are disclosed.

A method comprises receiving an area of interest (AOI) selection. The method further comprises accessing an AOI device location data for the AOI, the AOI device location data indicating locations of devices over time received within the AOI. The AOI device location data is filtered to only include the device location data that match one or more characteristics. A proximity zone is determined for the for the AOI that includes the area of the AOI. A zone device location data for the proximity zone is determined, which indicates locations of devices over time reported within the proximity zone. The method further comprises normalizing the filtered AOI device location data by computing a ratio of the filtered AOI device location data and the zone device location data to generate an AOI user estimate, and transmitting the AOI user estimate to a client device of a requestor.

Aspects of the disclosure relate to configuring, restricting, and/or setting bandwidth part (BWP) or frequency locations for switching from source to target cells in a Layer 1 (L1)/Layer 2 (L2)-Centric Inter-Cell Mobility communication systems. Switching may be allowed for either same, overlapping, or non-overlapping BWPs within an intra-frequency bandwidth shared by the source and target cells.

Aspects of the disclosure relate to configuring, restricting, and/or setting bandwidth part (BWP) or frequency locations for switching from source to target cells in a Layer 1 (L1)/Layer 2 (L2)-Centric Inter-Cell Mobility communication systems. Switching may be allowed for either same, overlapping, or non-overlapping BWPs within an intra-frequency bandwidth shared by the source and target cells.

A method and a base station for a mobile communications network. The base station includes a first transceiver configured to communicate over radio signals with a plurality of mobile terminals, in which the first transceiver configured to: transmit a first signal to serve a mobile terminal over multicast; receive from the mobile terminal information derived from the signal quality of a second signal received at the mobile terminal from a second transceiver; and receive from the mobile terminal further information on the quality of the first signal received at the mobile terminal from the first transceiver and on the quality of a third signal received at the mobile terminal from a third transceiver. The base station also includes a processor configured to, on the basis of a comparison of the quality of the second signal with a threshold, switch communications between the first transceiver and the mobile terminal from multicast to unicast; and on the basis of a comparison of the quality of the first signal and the quality of the third signal, instruct the mobile terminal to transition from being served by the first transceiver to being served by the third transceiver.

Systems, methods, and instrumentalities are disclosed for network slice selection and/or reselection. A WTRU may receive updated assistance information for network slice selection and/or reselection. The WTRU may apply local policies to determine when to use the updated assistance information to access a network slice. The WTRU may determine whether to contact an existing network slice function or a new network slice function to establish a connection to a network slice. Based on the determination, the WTRU may transmit different information to the network. The network slice selection and/or reselection may be initiated by a WTRU or by a network.

Systems, methods, and instrumentalities are disclosed for network slice selection and/or reselection. A WTRU may receive updated assistance information for network slice selection and/or reselection. The WTRU may apply local policies to determine when to use the updated assistance information to access a network slice. The WTRU may determine whether to contact an existing network slice function or a new network slice function to establish a connection to a network slice. Based on the determination, the WTRU may transmit different information to the network. The network slice selection and/or reselection may be initiated by a WTRU or by a network.