This application discloses a network transfer method, an apparatus, and a device, and relates to the communications field. The method includes: receiving first extended steering of roaming SOR information sent by a network side device; in a case that the terminal device supports the a capability of negotiating extended SOR, determining a priority of an ongoing service based on the first extended SOR information; and performing a transfer operation matching the priority of the ongoing service, where the transfer operation is an operation that the terminal device transfers from a currently camping public land mobile network PLMN to a target PLMN.

A method for opening radio pipeline capability and a collaborative controller are disclosed. In an embodiment the method includes receiving, by an access network collaborative controller, a request message from a capability opening gateway, wherein the request message carries a service requirement of a first user equipment UE, and controlling, by the collaborative controller, a first radio pipeline device according to the request message so that a radio pipeline resource allocated to the first UE meets the service requirement.

A method for opening radio pipeline capability and a collaborative controller are disclosed. In an embodiment the method includes receiving, by an access network collaborative controller, a request message from a capability opening gateway, wherein the request message carries a service requirement of a first user equipment UE, and controlling, by the collaborative controller, a first radio pipeline device according to the request message so that a radio pipeline resource allocated to the first UE meets the service requirement.

Methods and systems are described for intelligently steering client devices operating in an enterprise network system to an appropriate access point based on types of traffic on each client device and/or types of traffic on access points. In particular, client devices may be moved to a different access point when the wireless channel provided by a current access point fails to meet the signal strength requirements of latency sensitive traffic utilized by the client device. Client devices may be further steered to new access points based on load conditions on access points. For example, client devices with low priority traffic sessions may be steered away from access points with high traffic load levels. Accordingly, the methods and systems described herein ensure improved network access for latency sensitive access categories and/or access categories that are considered important to an enterprise system with minimal disruptions to these sessions.

Methods and systems are described for intelligently steering client devices operating in an enterprise network system to an appropriate access point based on types of traffic on each client device and/or types of traffic on access points. In particular, client devices may be moved to a different access point when the wireless channel provided by a current access point fails to meet the signal strength requirements of latency sensitive traffic utilized by the client device. Client devices may be further steered to new access points based on load conditions on access points. For example, client devices with low priority traffic sessions may be steered away from access points with high traffic load levels. Accordingly, the methods and systems described herein ensure improved network access for latency sensitive access categories and/or access categories that are considered important to an enterprise system with minimal disruptions to these sessions.

An information processing apparatus comprises a communication unit configured to communicate with an external device through a mobile communication network, and comprises: a throughput measuring unit; a throughput predicting unit configured to predict a future communication throughput; a communication rate controller; a band information acquiring unit; a communication environment information storage unit by associating; and a detection unit configured to detect at least one of a handover execution and a communication band switching, wherein if the detection unit has detected at least one of a handover execution and a communication band switching, the communication rate controller switches from controlling the communication rate based on a future communication throughput predicted by the throughput predicting unit to controlling the communication rate based on band information acquired by the communication environment information storage unit and the band information acquiring unit.

A traffic hub system comprising a roaming data module to send and receive data for a roaming wireless network for a mobile device, the mobile device comprising a service utilizing a high-speed data network, a home data module to send and receive data for a home wireless network for the mobile device, the home wireless network being a different network than the roaming wireless network, the home wireless network comprising a packet data network gateway. The traffic hub system comprising a bandwidth negotiation module to negotiate bandwidth for the mobile device with the roaming wireless network based on a home network policy when the mobile device is in the roaming wireless network, and a traffic control module, the traffic control module comprising a processor to update a quality of service parameter based on the negotiated bandwidth, transparently to the roaming wireless network and without enforcement of the home network policy by the home wireless network, the enforcement including providing the negotiated bandwidth.

A traffic hub system comprising a roaming data module to send and receive data for a roaming wireless network for a mobile device, the mobile device comprising a service utilizing a high-speed data network, a home data module to send and receive data for a home wireless network for the mobile device, the home wireless network being a different network than the roaming wireless network, the home wireless network comprising a packet data network gateway. The traffic hub system comprising a bandwidth negotiation module to negotiate bandwidth for the mobile device with the roaming wireless network based on a home network policy when the mobile device is in the roaming wireless network, and a traffic control module, the traffic control module comprising a processor to update a quality of service parameter based on the negotiated bandwidth, transparently to the roaming wireless network and without enforcement of the home network policy by the home wireless network, the enforcement including providing the negotiated bandwidth.

Disclosed are a signaling optimization method and device, to resolve a problem of heavy signaling overheads and long data transmission delay when a user equipment (UE) accesses a network side. The method includes: receiving, by the UE, configuration information sent by a first network side device, where the configuration information includes a list, and the list is a cell list or a base station list; and entering, by the UE, an intermediate state according to the configuration information, where the intermediate state means that: when the UE stores context information of the UE, if the UE moves and a cell movement range falls within a coverage area of a cell or a base station included in the list, the UE performs cell reselection according to the list. Embodiments of the present disclosure are applicable to optimization of signaling transmission between the UE and a network side.

Disclosed are a signaling optimization method and device, to resolve a problem of heavy signaling overheads and long data transmission delay when a user equipment (UE) accesses a network side. The method includes: receiving, by the UE, configuration information sent by a first network side device, where the configuration information includes a list, and the list is a cell list or a base station list; and entering, by the UE, an intermediate state according to the configuration information, where the intermediate state means that: when the UE stores context information of the UE, if the UE moves and a cell movement range falls within a coverage area of a cell or a base station included in the list, the UE performs cell reselection according to the list. Embodiments of the present disclosure are applicable to optimization of signaling transmission between the UE and a network side.