An appropriate quality of service policy is automatically selected as a function of network and business conditions. A current loading condition of an internet protocol network of devices operating, a current condition of radio frequency communications between wireless devices, and a current business condition that indicates a cost or availability of a resource used in device operation remotely controlled via data packet communications, are each determined under current network control and routing rules. If the resource cost or availability exceeds a specified market condition constraint, a special resource control rule is automatically selected to preempt a current network or routing rule to cause one or more of the internet protocol devices to reduce an amount of the resource used or distributed by the first internet protocol device while operating within the current determined internet protocol network loading and radio frequency communications conditions.

A method and system for transferring user equipment (UE) in a mobile communication system are provided. 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.

In one embodiment, a device having a link training state machine including a reconfiguration logic to perform a dynamic link reconfiguration of a physical link coupled between the device and a second device during a run-time in which the physical link does not enter a link down state, including transmission of a plurality of bandwidth change requests to the second device, each of the plurality of bandwidth change requests to request a bandwidth change from a first bandwidth to a second bandwidth. Other embodiments are described and claimed.

The invention relates to a network node and a method therein for admission control in a wireless communication system. The method comprises receiving a request for a bearer setup from a requesting entity, where the request and/or bearer is associated with a priority level P. The method further comprises obtaining, e.g. receiving or retrieving, reports indicating a priority blocking level, BLi, per monitored system resource, i, needed for setting up a bearer. The method further comprises determining a general priority blocking level BLG, based on the reports. Further, the method comprises deciding whether to accept or reject the request for a bearer setup based on the priority level P and the general priority blocking level BLG.

A network interface can process a workload request and determine a resource to use to perform the workload request and to generate an executable for execution by the determined resource. A client device or software can determine available resource types. The client device or software can issue a request to perform a workload using a particular resource type. Using telemetry data and performance indicators of available resources, the network interface can select a resource to use to perform the workload. The network interface can translate a workload instruction into a format acceptable by the selected resource and provide the instruction in executable format to the selected resource.

The present invention relates a wireless communication method and a wireless communication terminal for supporting a spatial reuse operation of an overlapping basic service set to efficiently use a wireless resource. To this end, provided are a base wireless communication terminal including: a processor; and a communication unit, wherein the processor receives a PHY protocol data unit (PPDU) through the communication unit, determines whether the PPDU contains an intra-BSS frame or contains an inter-BSS frame based on preamble information of the PPDU, and performs either a first operation or a second operation distinct from each other according to a determination result and a wireless communication method using the same.

A method for determining a Quality of Service (QoS) policy can be based on requested bandwidth. The method may initially receive a connection request which includes a requested bandwidth that corresponds to an application. The method may then determine a policy for an application data flow associated with the application based on the connection request. A bandwidth designation, which is based on the requested bandwidth, may be assigned to the application data flow based on the determined policy. Finally, the policy and the bandwidth designation may be provided so that a bearer can be assigned.

The present invention relates to a bandwidth managing unit (200) configured to manage unidirectional data transfers of data to mobile user entities (100) in a mobile communications network (300), the bandwidth managing unit comprising:—a data transfer detecting unit configured to receive data transfer requests of the mobile user entities (100) in the mobile communications network, each data transfer request requesting a unidirectional transfer of data from a content provider,—a network condition determining unit (220) configured to determine data transfer conditions in the mobile communications network (300) for the different data transfers to the corresponding mobile user entities (100),—a data transfer scheduler (270) configured to determine, for each detected data transfer request, a point in time when the requested data transfer should be initiated, taking into account the data transfer conditions in the mobile communications network (300) for the data transfer to the corresponding mobile user entity (100), and configured to initiate the data transfer at the determined point in time.

A method for controlling messages between communicating entities (CE) having computing devices, each CE sending messages to other neighboring CE with a entity-dependent message rate (CEMR), and with an entity-dependent transmission power, the messages being transmitted via one or more channels having a maximum channel capacity, and the CEMR defining a rate interval between a minimum and maximum rate, includes determining the CEMR within the rate interval by: (a) using a utility function for each CE; b) assigning an initial price for each CE; (c) adjusting the CEMR of each CE accounting for received prices of other CE; (d) computing a new price for each CE based on difference between initial price and available channel load for respective CEs; and (e) checking a termination condition for the difference and if unfulfilled, use the new price as initial price and repeat (c)-(e) until a termination condition is fulfilled.

Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a user equipment (UE) may determine an available resource for a communication based at least in part on a control exclusion parameter. The UE may transmit the communication using the available resource. Numerous other aspects are provided.