Embodiments herein may include systems, apparatuses, methods, and computer-readable media, for a multi-access edge computing (MEC) system. An apparatus for MEC may include a communication interface, a local cost measurements module, and a service allocation module. The communication interface may receive, from a UE, a request for a service to be provided to the UE. The local cost measurements module may collect a set of local cost measurements for the service. The service allocation module may determine to allocate the service to a MEC host based on an allocation policy related to a cost for the MEC host to provide the service or a cost for a service provider to provide the service in view of the one or more local cost measurements. Other embodiments may be described and/or claimed.

In certain embodiments, a network edge device comprises a memory storage, a networking component configured to communicate with a mobile device and a database comprising application attributes, and a processor. The processor, in certain embodiments, is located within the network edge device and is operable to receive application traffic from the mobile device (the application traffic being associated with an application), classify the application traffic by associating the application traffic with an application ID, and send a query comprising the application ID to the database comprising application attributes. In addition, the processor, in certain embodiments, is operable to receive a response, from the database comprising application attributes, comprising one or more application attributes associated with the application, wherein the response is based in part on the application ID, and to enforce a policy based in part on the application attribute.

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.

A unified distributed real-time quota limitation system limits use of shared networked resources in distributed networked environment (DNE). A dispatch center determines an amount of shared resources available to client devices in the DNE. The dispatch center determines an amount of the shared resources to allocate for use by the clients, and sends the clients one or more policies having a resource usage quota that limits the amount of the resource that the client can use. When a client receives a request to perform a task that requires a shared resource, before running the task, the client determines its own usage of the resource and terminates the task if running the task will exceed the quota limit of the shared resource.

A method and apparatus are provided for dynamic resource allocation, scheduling and signaling for variable data real time services (RTS) in long term evolution (LTE) systems. Preferably, changes in data rate for uplink RTS traffic are reported to an evolved Node B (eNB) by a UE using layer 1, 2 or 3 signaling. The eNB dynamically allocates physical resources in response to a change in data rate by adding or removing radio blocks currently assigned to the data flow, and the eNB signals the new resource assignment to the UE. In an alternate embodiment, tables stored at the eNB and the UE describe mappings of RTS data rates to physical resources under certain channel conditions, such that the UE uses the table to locally assign physical resources according to changes in UL data rates. Additionally, a method and apparatus for high level configuration of RTS data flows is also presented.

A wireless device or UE is configured to function as a relay on behalf of a donor access node. The relay UE performs call admission controls including balancing the resources of the relay access node with the resources provided by the donor access node providing services to end UEs via the relay access node, i.e. a backhaul connection of the relay UE. The backhaul throughput is compared to a throughput requirement of the end UEs being served by the relay UE. If the throughput requirement is larger than the backhaul throughput, any new connection requests from an additional end UE may be rejected. A threshold may be defined to ensure that there are ample resources at the backhaul prior to accepting connection requests from additional end UEs.

In a system environment comprising a plurality of computing resources, wherein at least a portion of the computing resources are mobile, a method manages a transfer of one or more portions of a data set between at least a subset of the plurality of computing resources in accordance with a data distribution process. The data distribution process comprises computing one or more probability values to estimate whether or not a given mobile computing resource that is seeking at least a portion of the data set will be in a vicinity of at least one other computing resource that currently has or can obtain the portion of the data set, and based on the computation step, causing a transfer of the portion of the data set to the given mobile computing resource over a communication link locally established between the two computing resources when in the vicinity of one another.

Provided are a system and method for controlling a workflow across domains on the basis of a hierarchical engine framework. Inventive workflow control makes it possible to configure a flexible hierarchical engine framework and provide a workflow service with low latency. Also, the system and method make it possible to control a workflow by building an engine and a data pipeline across domains.

There is disclosed in one example a communication apparatus, including: a telemetry interface; a management interface; and an edge gateway configured to: identify diverted traffic, wherein the diverted traffic includes traffic to be serviced by an edge microcloud configured to provide a plurality of services; receive telemetry via the telemetry interface; use the telemetry to anticipate a future per-service demand within the edge microcloud; compute a scale for a resource to meet the future per-service demand; and operate the management interface to instruct the edge microcloud to perform the scale before the future per-service demand occurs.

Embodiments of the present invention provide a system for dynamic utilization of alternative resources based on token association. The system is typically configured for receiving a request from a user to generate a generic token for a digital wallet located on a mobile device of the user, generating the generic token and associating one or more resource credentials of the user with the generic token, transmitting the generic token to the mobile device of the user and storing the generic token in the digital wallet, receiving an interaction request from an authorization network to route an interaction, and routing the interaction to complete the interaction by selecting at least one resource credential from the one or more resource credentials associated with the generic token and transmitting the at least one resource credential to the authorization network.