A system for managing and controlling a mesh VPN includes a management computing platform, a control computing platform, teleworker computing subsystems, and an office computing subsystem. The management computing platform provides deployment and management services to an organization for operation of a mesh VPN in a WAN in accordance with a service profile. The mesh VPN includes a hub node and a plurality of end nodes. Each end node communicates with the VPN hub node and with other end nodes via peer-to-peer paths. The control computing platform is the hub node and provide a control service for operation of the mesh VPN based on the service profile. The teleworker and office computing subsystems are end nodes. Various methods for operation of the computing platforms and subsystems in the mesh VPN are also provided.

Apparatuses, methods, and systems are disclosed for discarding radio link control service data units. One method (700) includes sending (702) at least a portion of a radio link control service data unit. The method (700) includes receiving (704) an indication from a packet data convergence protocol layer to discard the radio link control service data unit after sending at least the portion of the radio link control service data unit. The method (700) includes, in response to receiving the indication to discard the radio link control service data unit, transmitting (706) information indicating to discard the radio link control service data unit.

A method for a relay terminal to transmit and receive signals in a wireless communication system according to an embodiment of the present invention includes: a step for transmitting and receiving signals to and from an upper layer node through a backhaul link in a first interval; and a step for transmitting and receiving signals to and from at least one lower layer node through an access link in a second interval, wherein the first interval includes an interval in which signals can be transmitted to and received from the upper layer node and only a first specific signal can be transmitted to and received from the at least one lower layer node, and the second interval includes an interval in which signals can be transmitted to and received from the at least one lower layer node and only a second specific signal can be transmitted to and received from the upper layer node.

A method for a relay terminal to transmit and receive signals in a wireless communication system according to an embodiment of the present invention includes: a step for transmitting and receiving signals to and from an upper layer node through a backhaul link in a first interval; and a step for transmitting and receiving signals to and from at least one lower layer node through an access link in a second interval, wherein the first interval includes an interval in which signals can be transmitted to and received from the upper layer node and only a first specific signal can be transmitted to and received from the at least one lower layer node, and the second interval includes an interval in which signals can be transmitted to and received from the at least one lower layer node and only a second specific signal can be transmitted to and received from the upper layer node.

[Object] Effectively perform data communication [Solving Means] A communication device includes: a LINK that generates a first output signal on a basis of a first external signal from a first external device, outputs the first output signal to a second external device, generates a second output signal on a basis of a second external signal from the second external device, and outputs the second output signal to the first external device, in which each of the first output signal and the second external signal includes command information indicating content of a command transmitted from the first external device, final-destination-device-identification-information for identifying a final destination device of data transmitted from the first external device, internal address information indicating an internal address of the final destination device, data length information indicating a length of the data transmitted from the first external device, and data-end-position-information indicating an end position of the data transmitted from the first external device.

[Object] Effectively perform data communication [Solving Means] A communication device includes: a LINK that generates a first output signal on a basis of a first external signal from a first external device, outputs the first output signal to a second external device, generates a second output signal on a basis of a second external signal from the second external device, and outputs the second output signal to the first external device, in which each of the first output signal and the second external signal includes command information indicating content of a command transmitted from the first external device, final-destination-device-identification-information for identifying a final destination device of data transmitted from the first external device, internal address information indicating an internal address of the final destination device, data length information indicating a length of the data transmitted from the first external device, and data-end-position-information indicating an end position of the data transmitted from the first external device.

A method to prioritize sidelink logical channel (SL LCH) during destination UE selection for sidelink Logical Channel Prioritization (LCP) procedure in NR sidelink communication is proposed to avoid resource starvation. A TX UE prioritizes an RX UE having at least one SL LCH that has not satisfied a required minimum bit rate during destination UE selection when allocating SL resource to a new MAC PDU for SL transmission. The TX UE maintains a value Bj for each SL LCH j, where Bj>0 indicates that the logical channel has not met the requirement of prioritized bit rate. If at least one destination UE has SL LCH with data available for transmission and with Bj>0, then the selected destination UE is the one has the highest-priority SL LCH with data available for transmission and with Bj>0.

A communications method includes determining, by a first platoon member, at least one second platoon member, where the first platoon member and the at least one second platoon member belong to a same platoon, and signal quality of a communication link from the first platoon member to each second platoon member is less than a first preset quality threshold, determining, by the first platoon member, a target communications node, where signal quality of a communication link from the target communications node to each second platoon member is greater than or equal to the first preset quality threshold, and sending, by the first platoon member, to-be-sent data to each second platoon member through the target communications node.

This application provides a link state switching method and a communications device. The method includes: switching between a first link state and a second link state based on a first guard period, where the first link state and the second link state are link states of an integrated access backhaul IAB node in different transmission modes.

This application provides a link state switching method and a communications device. The method includes: switching between a first link state and a second link state based on a first guard period, where the first link state and the second link state are link states of an integrated access backhaul IAB node in different transmission modes.