Switching a device between bandwidth parts of a channel bandwidth can be managed. A bandwidth part (BWP) management component (BWPMC) can determine characteristics relating to communication rate, quality of service (QoS), or device power based on analysis of data relating to operation of the device, including data relating to service type of a service used by the device or traffic type of data communicated by the device. If heavy traffic is detected, BWPMC can determine whether switching from a smaller BWP to a larger BWP can improve communication rate or QoS. If so, BWPMC can initiate a switching timer. If heavy traffic is still detected when timer has ended, BWPMC can switch from smaller BWP to larger BWP, set another timer, and check again when that timer ends. BWPMC can bypass BWP switching for the device when power saving mode is on or low battery power is detected.

Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a device may receive traffic data associated with a coverage area and determine that there is network congestion. If there is network congestion, the device may identify a high-consumption user device. The device may perform a corrective action in connection with a load of the high-consumption user device, such as limit a throughput of the high-consumption user device. The device may perform a corrective action based on a policy obtained from a policy and control function.

A controller associated with a domain includes a network interface; one or more processors communicatively coupled to the network interface; and memory storing instructions that, when executed, cause the one or more processors to communicate with one or more additional controllers via the network interface, wherein each of the one or more additional controllers is in one or more additional domains, and wherein each domain provides different characteristics, utilize at least part of a control pattern to obtain requirements for a service, and cause, utilizing any of a peer relationship and a hierarchical relationship with the one or more additional controllers, at least part of implementation of a composition of resources to meet the requirements for the service, wherein the composition defines the resources provided in each domain for the service, and wherein the composition is based on the requirements and the different characteristics in each domain.

The disclosure provides a packet offloading method, a mobile terminal, and a storage medium, the method comprising: detecting the link quality of a first Wi-Fi data link, detecting the link quality of a second Wi-Fi data link, and detecting the link quality of a mobile data link; based on the link quality of the first Wi-Fi data link, the link quality of the second Wi-Fi data link, and the link quality of the mobile data link, determining a packet allocation ratio between the first Wi-Fi data link, the second Wi-Fi data link, and the mobile data link; and transmitting packets to be transmitted over the first Wi-Fi data link, the second Wi-Fi data link, and the mobile data link according to the packet allocation ratio.

A control device acquires information regarding a communication quality of a base station that performs a predetermined type of communication, and performs a control for moving a mobile base station to a position associated with the base station in a case where it is determined that the communication quality is lower than a predetermined communication quality.

A communication system comprises a transmission apparatus configured to transmit data via a plurality of communication lines, and a reception apparatus configured to receive the data from the transmission apparatus. The transmission apparatus includes processing circuitry configured to generate information regarding QoS of the plurality of communication lines. The processing circuitry is further configured to designate assignment of the data to communication lines of the plurality of communication lines on a basis of at least (i) the information regarding the QoS of the plurality of communication lines and (ii) assignment information indicating an assignment status of a data amount and a communication line transferred in the past. The transmission apparatus includes communication circuitry configured to allocate and transmit the data to the assigned communication lines of the plurality of communication lines on a basis of an instruction from the processing circuitry.

Embodiments of the present disclosure provide methods and apparatuses for quality of service management. A method implemented at a first device may comprise determining one or more sub latency targets corresponding to one or more intermediate devices along an uplink or downlink route between a second device and a third device based on an uplink or downlink route total latency target and an uplink or downlink latency of one hop along the uplink or downlink route of each of the one or more intermediate devices; and sending the one or more sub latency targets to the one or more intermediate devices, wherein a sum of the one or more sub latency targets is smaller than or equal to the uplink or downlink total latency target.

An access and mobility management function (AMF) of a network receives, from a wireless device, a registration request message. The AMF sends, to the wireless device, a registration accept message comprising an access traffic steering, switching, and splitting (ATSSS) capability indication of the network.

Techniques and devices for service-specific tagging of data by an application processor (AP) of a user equipment device (UE). A first indication may be sent from the UE to a baseband processor (BB) of the UE of one or more quality of service preferences for an upcoming data session, and the BB may configure one or more layers of the BB according to the quality of service preferences. The BB may further communicate with a network to establish protocols for the quality of service preferences. The BB may determine one or more network conditions, and may transmit feedback from the BB to the AP related to the determined network conditions. In response, the AP may send a second indication of one or more updated quality of service preferences to the BB based at least in part on the feedback received from the BB.

Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a user equipment (UE) may receive information indicating a timer value of a timer associated with discarding a packet data convergence protocol (PDCP) service data unit (SDU). The UE may determine that a timer modification condition is satisfied. The UE may modify the timer value based at least in part on the determination that the timer modification condition is satisfied. The UE may transmit a communication using the modified timer value. Numerous other aspects are provided.