A method and a wireless device (100) for handling transmission of data. The cost for transmitting the data from the wireless device (100) can be reduced or even minimized by delaying (1:3) transmission until the transmission cost becomes lower, provided that the data can wait without becoming obsolete or useless at the receiving side. This is made possible by determining a delay tolerance of the data and determining a cost prediction for transmission (1:6) within said delay tolerance, e.g. when a cheaper connection (1:4) is used. Advantages may include reduced price to pay for the transmission, less energy consumption, and avoided usage of precious radio resources and network resources at times when the traffic load is high.

A system, method, and computer program product are provided for transmitting network communications at a point in time automatically determined based on communication rates. In use, a communication to be transmitted over a network is identified, utilizing a device. Additionally, a point in time at which to transmit the communication over the network is automatically determined by the device, utilizing at least one rate for the communication. Further, transmission of the communication over the network is initiated at the determined point in time, utilizing the device.

The present disclosure relates to a communication technique for combining a 5G communication system that supports higher data transmission rates after 4G systems with IoT technology and to the system therefor. The present disclosure can be applied for intelligent services based on 5G communication technology and IoT related technology (for example, smart homes, smart buildings, smart cities, smart cars or connected cars, healthcare, digital education, retail businesses, security and safety related services, and the like). According to the present disclosure, a method for charging by a base station in a wireless communication system comprises, upon sensing use of a resource by a device performing machine-to-machine (M2M) communication using a resource allocated to the wireless communication system based on a charging reference, gathering charging-related information about the sensed use of the resource and transmitting the charging-related information or charging information to a higher entity.

A user equipment (UE) may receive charging data and use the charging data in determinations of whether to offload data from a mobile communication network, such as a 3GPP cellular network, to another wireless access network, such as a wireless local area network (WLAN). For example, the UE may receive, from the mobile communication network, charging data regarding one or more WLANs in the vicinity of the UE. The UE may also receive rules regarding whether to offload communication traffic from the cellular communication network to a particular WLAN based on charging data relating to the particular WLAN. The UE may detect one of the WLANs and determine whether to offload communication traffic to the WLAN based at least in part on the received rules and the received charging data regarding the WLAN. The determination may be further based on user preferences saved on the UE regarding the charging data.

There is provided mechanisms for establishing a communication session with a local serving network. A method is performed by a terminal device. The method comprises obtaining an indication of traffic to be communicated. The traffic is associated with a traffic descriptor. The method comprises selecting a URSP rule for the traffic to be communicated in a communication session with the local serving network. The URSP rule is selected in accordance with the traffic descriptor and in accordance with a validity condition for the communication session. The validity condition at least pertains to network support for IMS in the local serving network. The method comprises establishing a communication session with the local serving network for communicating the traffic according to the selected URSP rule.

A method of updating a background data transfer, BDT, policy negotiated between an application function, AF, and a Core Network, CN, is disclose. The method is performed by a Policy Control Function, PCF, of the CN and comprises determining updated BDT policy information including updated conditions for the negotiated BDT policy and at least one candidate BDT policy for the AP to select when the PCF determines that the negotiated BDT policy is affected by degraded network performance. The determined updated BDT policy information is then sent to the AF by the PCF using notification type interaction, thereby effectively updating the negotiated BDT policy.

A system and method for selecting an optimal service may include: (1) querying a device to determine the location at which the service is provided and the parameters of the service being used, (2) based on the information obtained from the query, comparing the parameters of competing services offered in the location, and (3) based on the comparison, selecting one of the competing services.

Technologies for providing adaptive utilization of different interconnects for workloads include a compute device. The compute device includes a connection abstraction logic unit to determine a quality of service target to be satisfied in the execution of a workload that is to communicate with at least one other workload through one or more interconnects of a set of interconnects associated with the compute device, determine a quality of service property of each interconnect of the set of interconnects, and allocate, as a function of the determined quality of service property of each interconnect, one or more of the set of interconnects to the workload to satisfy the quality of service target. The compute device also includes circuitry to execute the workload and communicate with the at least one other workload through the allocated one or more interconnects. Other embodiments are also described and claimed.

Aspects of the present disclosure provide for yield management models for dynamically pricing access to wireless communication services. In some examples, access to a network is intermediated by a surrogate access point, which may act as a proxy or relay, expanding communication services to client devices that otherwise may lack a subscription, or may lack a suitable communication interface, to communicate directly with the wireless network. Here, the surrogate access point may be a subscriber device or user equipment. By utilizing the yield management model, the surrogate access point may receive compensation for sharing its connection to the network with nearby client devices. Other aspects, embodiments, and features are also claimed and described.

Methods and apparatus to generate audience measurement data from population sample data having incomplete demographic classifications are disclosed. An example method includes detecting that a number of impressions a time segment of a video occurred based on messages; detecting that no impressions for the time segment of the video were detected by the database proprietor; determining respective percentages of exposures of the video that are attributable to corresponding ones of multiple demographic groups, determining the respective percentages being based on the first demographic information provided by the database proprietor for exposures of other time segments of the video; attributing respective portions of the number of impressions to the demographic groups based on the respective percentages to determine imputed numbers of impressions; generating adjusted numbers of impressions based on the imputed numbers of impressions; and determining ratings information for the video using the adjusted numbers of impressions.