Information on allocation of a bandwidth of uplink communication of each user device is extracted from information notified by an upper-level device on the uplink communication of the user devices. Identification information of a lower-level device connected to a terminal device and identification information of the user devices are stored in correlation with each other. A bandwidth demanded for uplink communication of the terminal device is determined on the basis of the information on the allocation of the bandwidth of the uplink communication of each of the user devices and the identification information of the user devices. A start time point of the uplink communication of the terminal device and the amount of information of signals for which transmission of the uplink communication of the terminal device is allowed are allocated to the terminal device on the basis of the bandwidth demanded for the uplink communication of the terminal device.

Disclosed are various examples for segregating virtual private network (VPN) traffic based on the originating client application. A network gateway receives network traffic from a tunnel endpoint of an application-specific virtual private network tunnel. The network traffic originates from a client application executed in a client device. The network gateway identifies a particular virtual local area network through which the network traffic is received. The network gateway determines, using an identifier of the particular virtual local area network and a mapping of virtual local area network identifiers, characteristics of the client application or the client device from a set of mobile device management attributes. The network gateway determines whether to route the network traffic to a destination based at least in part on the characteristics.

Various additional and alternative aspects are described herein. In some aspects, the present disclosure provides a wireless device. The wireless device includes a first radio configured to communicate with a first data network. The wireless device includes a second radio configured to communicate with a second data network. The wireless device includes a thermal sensor array configured to measure a set of one or more thermal parameters associated with the wireless device. The wireless device includes a controller configured to allocate communication of data traffic between the first radio and the second radio based on the set of one or more thermal parameters.

Device Assisted Services (DAS) for protecting network capacity is provided. In some embodiments, DAS for protecting network capacity includes monitoring a network service usage activity of the communications device in network communication; classifying the network service usage activity for differential network access control for protecting network capacity; and associating the network service usage activity with a network service usage control policy based on a classification of the network service usage activity to facilitate differential network access control for protecting network capacity.

Systems and methods for enabling links between various devices is provided. The systems and methods may include a platform that enables different devices to access spatial models of a resource. The platform may enable the different devices to define and/or modify assignment conditions for access rights to resources. Further, the platform may enable definition of assignment conditions before or after the access rights are available for assignment.

A method of processing data for at least one wireless communication network and a data processing system for implementing such a method are provided. The method comprises determining geolocation information for data segments received at a plurality of distributed components of a data processing system, the data segments being received from at least one network element of the wireless communication network, and forwarding the data segments to backend processing resources based at least partly on their respective geolocation information.

Systems and methods for allocating resources. The system includes a communications module, a processor, and a memory. The memory stores a data record and instructions that, when executed, configure the processor to obtain a data record and transmit an existing score indication corresponding to the data record for display at the client device; receive a first time parameter and an action indicator associated with a shared resource and, in response, determine a first provisional score corresponding to the data record based on the existing score indication, the action indicator, and the first time parameter to provide a first provisional score indication; transmit the first provisional score indication and a selectable option associated with the action indicator for display at the client device while the first provisional score indication is displayed; and in response to receiving a resource transfer instruction, allocate the shared resource associated with the action indicator.

Adaptive ambient services are provided. In some embodiments, an adaptive ambient service includes providing an ambient service profile. In some embodiments, an ambient service includes implementing an ambient service profile for assisting control of the communications device use of an ambient service on a wireless network, in which the ambient service profile includes a plurality of service policy settings, and in which the ambient service profile is associated with an ambient service plan that provides for initial access to the ambient service with limited service capabilities prior to activation of a new service plan; monitoring use of the ambient service based on the ambient service profile; and adapting the ambient service profile based on the monitored use of the ambient service.

Aspects of the disclosure provide an apparatus for wireless communication. The apparatus includes a transceiver and a processing circuit. The transceiver is configured to transmit and receive wireless signals. The processing circuit is configured to detect an error of a previous scheduled transmission of data units from the apparatus to another apparatus. The other apparatus provides scheduled resources for transmission between the two apparatuses. Further, the processing circuit is configured to determine resources that are scheduled by the other apparatus for the apparatus to perform retransmission, and provide one or more of the data units in the previous scheduled transmission to the transceiver for retransmission using the scheduled resources.

A method and system for transferring user equipment (UE) in a mobile communication system are disclosed. According to the method, a source core (CN) network determines to transfer a UE that it serves and sends a transfer instruction carrying UE transfer restriction information to the UE; an access network receives a transfer request that is sent by the UE according to the restriction information carried in the transfer instruction; the access network selects a target CN entity that is different from the source CN entity for the UE; and the UE is transferred to the target CN entity. The method and system provided by the disclosure are applicable to user transferring between CN entities in any communication network. The transferring is initiated by a network side entity, and a more preferable CN entity is selected for the UE to provide a better service.