A base station that controls carrier aggregation for a user equipment (UE) includes a memory configured to store weight factors for serving cells that are aggregated to provide wireless connectivity to the UE. The weight factors are determined based on characteristics of the serving cells. In some cases, the weight factors are determined based on frequencies of carriers used by the serving cells to provide the wireless connectivity to the UE. The base station also includes a processor configured to determine, based on the weight factors and a total weight assigned to the UE, weights for transmitting data to the UE via the serving cells. The base station further includes a transceiver configured to transmit data to the UE via the serving cells at priorities that are determined based on the weights for the serving cells.

Provided is a communication device that favorably implements SR communication and MU communication. A communication device that operates as a base station includes a determination unit that determines a communication status in a BSS of the communication device, and a control unit that controls transmission and reception of a signal regarding connection change of a terminal according to the communication status to and from a surrounding base station. The determination unit determines the presence of a small number of terminals falling outside a distribution of implementation statuses of spatial reuse communication or multi user communication of entire subordinate terminals, and transmits a signal requesting the small number of terminals to be connected to the surrounding base station or transmits a signal inquiring of the surrounding base station acceptance of the small number of terminals.

Disclosed herein are systems and methods of handling user traffic in an integrated access backhaul (IAB) network. For instance, a data counter for two or more of a plurality of user equipment (UE) bearers handled by an IAB node can be configured. Data corresponding to the two or more UE bearers of the plurality of UE bearers can be received. A first UE bearer can be selected. The first UE bearer is the UE bearer having the lowest data counter value of the two or more UE bearers. Data corresponding to the first UE bearer can be transferred to a mobile terminal (MT) in the IAB node. The data counter for the first UE bearer can be increased by a total size of the transferred data.

Example information transmission methods are described. One example method includes that a first base station receives resource status information from a second base station. The resource status information includes a service classification identifier and a resource status corresponding to the service classification identifier. The service classification identifier is a service type identifier or slice identification information.

A method, apparatus and computer program product are provided for the efficient distribution of tunneled packets associated with multiple pieces of user equipment across central processing unit cores associated with network components. Example implementations contemplate one or more network components, such as a NodeB or gateway, which are configured with multiple IP addresses associated with multiple cores or other processors within the network component. In such example implementations, tunnels may be initialized to network endpoints such that network traffic loads imposed on the network component can be balanced by selecting one or more IP addresses from amongst the plurality of IP addresses associated with the particular network component.

According to an aspect, there is provided a network node for performing video on demand equalization. Upon receiving downlink traffic to be transmitted to one or more terminal devices, the network node detects a VOD stream from the downlink traffic. The network node determines the number of VOD streams handled by the cell and a first traffic load and compares the number of the VOD streams and the first traffic load to a first and a second threshold. In response to the number of the VOD streams being above the first threshold or the first traffic load being above the second threshold, the network node selects a terminal device associated with one of the VOD streams, selects a target cell from available cells and schedules the terminal device to use the target cell for said one of the VOD streams.

Embodiments of an Evolved Node-B (eNB), radio access network (RAN) central unit (RCU) and methods for radio resource control (RRC) are generally described herein. A RAN distributed unit (RDU) at an eNB may communicate with an RCU of a cloud RAN to cooperatively perform RRC functionality for the eNB 104. The RDU 105 may receive a request for an RRC connection from a User Equipment (UE), and may request global load information from the RCU. The RDU may determine whether to establish the requested RRC connection based on the global load information when a response from the RCU is received before a predetermined time. The RDU may determine whether to establish the requested RRC connection based on local load information when the response from the RCU is not received before the predetermined time.

In a wireless network with a plurality of access points, device calculates, for each wireless station in the network, a score based on at least an availability of the wireless network for the wireless station, combines the scores for the wireless stations into a current network score for a present configuration of the wireless network, calculates a plurality of predicted network scores corresponding to predicted network configurations with one wireless station moved to a different access point than in the present configuration, each predicted network score being a combination of the scores for wireless stations not moved in the predicted network configuration and a predicted score for the wireless station moved in the predicted network configuration, selects one of the current network score and the plurality of predicted network scores that satisfies a criterion; and, in case a predicted network score is selected.

A radio access system includes: a set of radio access entities, in particular a set of gNBs and/or ng-eNBs, which are interconnected via respective first interfaces; and a centralized resource controller. Each radio access entity of the set of radio access entities comprises a centralized unit (CU) and at least one distributed unit (DU) coupled to the CU via a second interface. The centralized resource controller configured to assign computational resources to the CUs and the DUs of the radio access entities based on measurement reports received via the first interfaces and/or the second interfaces from the respective units, wherein the measurement reports comprise information about a computational resource utilization of the respective units.

The present disclosure relates to a communication method and system for converging a 5.sup.th-Generation (5G) communication system for supporting higher data rates beyond a 4.sup.th-Generation (4G) system with a technology for Internet of Things (IoT). The present disclosure may be applied to intelligent services based on the 5G communication technology and the IoT-related technology, such as smart home, smart building, smart city, smart car, connected car, health care, digital education, smart retail, security and safety services. A method for controlling a terminal in a base station of a mobile communication system, according to an embodiment of the present application, comprises the steps of: selecting at least one candidate terminal for offloading; obtaining information on a neighbor cell of at least one of the candidate terminals; obtaining throughput improvement information according to offloading on the basis of information on the candidate terminal and load information of the neighbor cell of the candidate terminal; obtaining information on a target cell corresponding to the candidate terminal on the basis of the throughput improvement information; selecting a target terminal to be offloaded from the candidate terminals on the basis of the throughput improvement information corresponding to the target cell; and transmitting, to the target terminal, a message instructing offloading to the target cell corresponding to the target terminal.