Accordingly, the embodiment herein is to provide a method for resource allocation, by a server (100a), in multiple Band Width Part (BWP) system. The method includes receiving a plurality of data packets from a network device for transmission to a UE (100b). Further, the method includes determining a plurality of network parameters associated with the network device, the UE (100b), and the plurality of received data packets. Further, the method includes grouping the plurality of received data packets based on the plurality of network parameters. Further, the method includes allocating a BWP and/or sub-carrier spacing to each grouped data packets based on the plurality of network parameters. Further, the method includes sending the plurality of group data packets using the allocated BWP and/or the allocated subcarrier spacing.

A first node provides a time function to a second node. The first node generates a time function protocol data unit required for supporting the time function and generates a plurality of preamble protocol data units. The plurality of preamble protocol data units are sent before the time function protocol data unit. The preamble protocol data units carry routing information to cause the preamble protocol data units to follow a same network path as the time function protocol data unit. At an intermediate node the plurality of preamble protocol data units, the time function protocol data unit and other data traffic are stored in queues of different priority level. The intermediate node controls a time order of forwarding based on priority levels of the queues.

The present disclosure is directed generally to systems and methods for dynamically selecting a retransmission rate for communication between two devices. The retransmission rate may be selected after a transmission has failed between the devices. In some embodiments, the retransmission rate may be selected based on relative velocity of the devices. In some embodiments, the retransmission rate may be selected based on transmission channel characteristics. The retransmission rate may be selected such that the retransmission will be less than an allowable transmission rate based on a distance between the two devices.

A base station receives, from a wireless device, a resume request message comprising a resume identity. A retrieve user equipment context request message comprising the resume identity is sent to a second base station. A response message is received from the second base station. The response message comprises one or more temporary mobile group identities (TMGIs) of one or more multimedia broadcast multicast service (MBMS) services that the wireless device is receiving or interested to receive. Transport blocks of the one or more MBMS services is transmitted to the wireless device.

A resource configuration method, apparatus and storage medium are disclosed. The method includes: sending, by a network device, first information to a terminal, where the first information is used by the terminal to determine not to send data and/or receive data on a first resource; and the first information includes first indication information used to indicate a first resource block (RB) and second indication information used to indicate a subcarrier occupied by the first resource on the first RB; or the first information includes third indication information used to indicate a first subcarrier, and the first subcarrier is used to determine the first resource. The resource configuration method and apparatus and the storage medium that are provided in the present disclosure can improve resource configuration flexibility.

Distribution of traffic to cells in a communication network can be controlled. A distribution management component (DMC) can determine overall device traffic throughput for cells of a sector that satisfy a defined traffic throughput criterion relating to a harmonic mean of the device traffic throughput for the cells to desirably enhance or maximize the harmonic mean of the overall device traffic throughput. Based on the overall device traffic throughput for the cells, the DMC can determine whether to adjust a characteristic associated with a cell of the cells to facilitate adjusting distribution of device traffic among the cells of the sector to achieve desirable load balancing of traffic by the sector and in the network. Load balancing can be achieved by controlling respective parameters with regard to communication devices that are in idle mode or connected mode to facilitate directing communication devices and associated traffic to desired cells.

Embodiments include methods, performed by a master node (MN) in a radio access network, for establishing radio resources between a secondary node (SN) and a user equipment (UE). Such embodiments include sending, to the SN, a request identifying one or more QoS flows to be setup between the SN and the UE; and receiving, from the SN, a response including identification of one or more radio bearers that were admitted by the SN in association with the requested QoS flows. Such embodiments also include sending, to the SN, identifiers of one or more tunnels for forwarding downlink user-plane (DL UP) data over an interface between the SN and the MN. Each tunnel identifier is associated with a respective admitted radio bearer. Embodiments also include complementary methods performed by a SN, as well as network nodes configured to perform the various methods.

A device can receive, at a user plane function (UPF), a set of rules for managing a communications session. The set of rules can include a set of mobility management rules and a set of packet processing rules. The device can store the set of mobility management rules and the set of packet processing rules at the UPF. At a control plane of the UPF, the device can perform an analysis of a flow of one or more packets transmitted during the communications session. At run-time, and based on the analysis, the device can generate a modified set of packet processing rules from the stored set of packet processing rules. The device can receive a packet of the flow, apply the modified set of packet processing rules to the received packet, and forward the received packet and update the modified set of packet processing rules.

This information processing apparatus includes a control unit that determines, on the basis of one or more pieces of sensor data generated by a sensor that measures an external environment and generates sensor data, whether to suppress transmission of the sensor data from the sensor. The control unit calculates a value related to a difference between a plurality of pieces of sensor data generated by the sensor at different points of time and determines whether to suppress the transmission of the sensor data from the sensor on the basis of the calculated value related to the difference.

Provided are methods and devices for data duplicate transmission in a next-generation/5G radio access network. The method of a UE for transmitting data may include configuring a plurality of radio link control (RLC) objects which are linked to a single packet data convergence protocol (PDCP) object and used to process duplicate transmission for a wireless bearer, on the basis of configuration information for configuring duplicate transmission of data received from a base station; receiving a MAC control element comprising indication information indicating an activation state change for the plurality of RLC objects; changing, to an active state, an RLC object indicated by the indication information to be in the active state; and performing duplicate transmission of the data using the activated RLC object.