A method and a system for generating data bearer mappings are provided. The method includes collecting node information from a radio access node, the node information includes resource sets operating within the radio access node. The method further includes receiving a bearer channel of a user equipment from the radio access node. The bearer channel includes a quality of service class identifier level. The method also includes connecting to the bearer channel that is transmitting data related to the user equipment and generating an insight that is based on the data and the QCI level of the user equipment. The method further includes determining a bearer mapping for the radio access nodes by analyzing node information and the insight. The bearer mapping is then transmitted to the radio access node.

Methods, systems, and apparatuses for sidelink communication are disclosed. A WTRU may receive a first SCI element from a second WTRU within a group. The WTRU may receive a first RCI element within a first set of resources scheduled by the first SCI. The first RCI may include information about which WTRU in the group is scheduled to use a second set of resources. The WTRU may determine, based on the first RCI, that one or more subresources within the second set of resources are available. The WTRU may transmit data in the one or more subresources. The first SCI and the first RCI may be received in a first reservation period and the one or more subresources may be in a second reservation period.

Embodiments of this application provide a communication method, apparatus, and system. The method includes: A first user plane network element controls, based on a first AMBR, one or more data flows that are in data flows of a first session and that are transmitted on a data transmission channel of a first access technology; and a UL CL controls, based on a second AMBR, data flows that are in the data flows of the first session and that are transmitted on data transmission channels of a second access technology. This implements control on the data flows of the session and helps improve communication quality.

This application discloses a communication method and apparatus, to improve transmission efficiency of a control plane message of a terminal according to a control and provisioning of wireless access points protocol. In this application, a control request message of a terminal may be transmitted between a first communication apparatus and a second communication apparatus through a target channel. Because the target channel supports concurrency of a plurality of messages, transmission efficiency of the control request message of the terminal can be improved.

The present disclosure relates to sidelink communication methods and apparatus. In one example method, a terminal device sends first information to a network device, where the first information includes a first destination address, a first carrier index, and a first quality of service (QoS) parameter, and there is a correspondence between the first destination address, the first carrier index, and the first QoS parameter. The network device receives the first information from the terminal device. The network device determines sidelink radio bearer (SLRB) configuration information based on the first information, and sends the SLRB configuration information to the terminal device. The terminal device receives the SLRB configuration information from the network device.

The disclosure relates to a method and an apparatus for synchronizing packet duplication between base station nodes in a mobile communication system. In an embodiment of the disclosure, a first base station may transmit, to a second base station, information indicating whether to activate packet duplication for each data radio bearer (DRB), and transmit, to a user equipment, a medium access control control element (MAC CE), which includes the information indicating whether to activate packet duplication.

Methods and apparatus for supporting band steering and/or channel steering in wireless communications systems, e.g. WiFi communications systems, are described. An access point aggregates information, e.g., from messages being communicated between the access point and client devices being serviced by the access point, and generates reports. The generated reports are communicated to a control device, e.g. a radio resource management (RRM) device. In some embodiments, generated reports include one or more of: i) message header information, e.g. resource unit (RU) allocation and/or use information and/or BSS color information, ii) collision reports, iii) received signal strength indicator (RSSI) reports, signal to noise ratio (SNR) reports, iv) interference reports; v) power information; vi) access point measurement information; and vii) access point control information. The control device uses the received reports from APs, in making bandsteering decisions with regard to individual client devices, and channel change decisions with regard to access points.

Provided are a method and a device for receiving information indicating the type of a signaling radio bearer (SRB) in a wireless communication system. A user equipment (UE): receives a first radio resource control (RRC) message including information indicating the type of SRB on which a second RRC message, which is a message corresponding to the first RRC message, is to be transmitted, and transmits the second RRC message via the type of SRB indicated by the information indicating the type of SRB. Accordingly, the type of bearer on which a first message is received and the type of bearer on which a second message is transmitted in a single RRC procedure may be identical or mutually different.

One or more computing devices, systems, and/or methods for identifying anomalous behavior of users are provided. In an example, users of a telecommunication service provider may be segmented into a plurality of user segments based upon telecommunication service metrics associated with the users. A machine learning model may be trained using telecommunication service information associated with users of the first user segment to generate a trained machine learning model. Using the trained machine learning model, a forecast of telecommunication service usage associated with a first user segment of the plurality of user segments. A telecommunication service usage metric, associated with a user belonging to the first user segment, may be compared with a range indicated by the forecast. The user may be flagged as having anomalous behavior based upon a determination that one or more telecommunication usage metrics, associated with the user, are outside one or more ranges indicated by the forecast.

Communication between a client device and a host device using a first Radio Access Technology (RAT) may be configured. The host device communicates with a base station of a network using a second RAT, to provide services of the network to or from the client device. The communication between the host device and the base station distinguishes data traffic in accordance with a set of network traffic rules. Information relating to the set of network traffic rules is communicated from the host device to the client device. The communication between the client device and the host device using the first RAT is configured according to a set of client traffic rules that are based on the communicated information about the network traffic rules.