Systems and methods are provided for a computer-implemented method of implementing an on-demand computing network environment. A network specification is received from a user. Resources from one or more resource providers are provisioned. The on-demand computing network is configured, where configuring comprises assigning a first provisioned resource as a hub device and assigning one or more second provisioned resources as rim devices, where a particular rim device comprises a bridge device, where the bridge device repackages data received from the on-demand computing network prior to forwarding that data such that the data received from the on-demand computing network appears to terminate at the bridge device to an observer viewing the data between the hub device and the bridge device.

A traffic planning platform may receive information related to a traffic flow including a traffic bandwidth to transport through a network with various network devices interconnected by links. The traffic planning platform may generate a traffic plan by assigning the traffic flow to a set of the links that includes network resources connecting a source of the traffic flow to a destination of the traffic flow. The traffic planning platform may render a visualization of the traffic plan, wherein the visualization includes a user interface (e.g., a diagram, an animation, and/or the like) in which geometric shapes that represent the source, the peer link, and the destination are connected by bands that represent the tunnel and the external route and further in which the geometric shapes and the bands each have a first visual property and a second visual property based on the traffic bandwidth of the traffic flow.

Various solutions for single network slice selection assistance information (S-NSSAI) based congestion control with respect to user equipment and network apparatus in mobile communications are described. An apparatus may receive a message with a back-off timer from the network node. The apparatus may determine whether an S-NSSAI of a protocol data unit (PDU) session is provided by the network node. The apparatus may start the back-off timer and associate the back-off timer with the S-NSSAI of the PDU session in an event that the S-NSSAI is provided by the network node.

A communication method and a device, to implement service isolation of an Ethernet broadcast frame. In this method, when a terminal device initiates establishment of a session of an Ethernet type, a virtual local area network management function entity in a communications system may determine a virtual local area network identifier of a user group to which the terminal device belongs. In this way, a user plane function entity in the session of the terminal device may allocate a plurality of virtual ports to a virtual local area network whose identifier is the virtual local area network identifier, and broadcast the Ethernet broadcast frame on the plurality of virtual ports.

A system including one or more processors and one or more non-transitory computer-readable media storing computing instructions configured to run on the one or more processors and perform initiating a cluster of controller instances for executing a multi-dimensional event engine; configuring the cluster of controller instances in a topology, wherein the topology applies a distributed lock to designate an active controller instance selected from the cluster of controller instances to be utilized as the multi-dimensional event engine; and after configuring the cluster of controller instances, executing the multi-dimensional event engine. Other embodiments are disclosed.

A method comprising obtaining from a first service-providing device, a plurality of service capability indicators for a set of interconnected devices. The plurality of service capability indicators are indicative of a corresponding plurality of service capabilities according to which the first service-providing device is providing services to one or more nodes. The method further comprises mapping the plurality of service capability indicators to a service capability label according to satisfaction of a continuity criterion. The service capability label corresponds to a representation of the plurality of service capabilities associated with a connection to the first service-providing device. The method further comprises providing the service capability label to the one or more nodes in order to provide the representation of the plurality of service capabilities associated with the connection to the first service-providing device.

Flexible, multidimensional infrastructure scaling for cloud-based over-the-air (OTA) systems is disclosed. The method comprises: obtaining requirements for OTA updates; obtaining infrastructure scaling data indicative of at least one of information technology (IT) infrastructure or communications resources provided by at least one mobile network operator (MNO); determining, using the infrastructure scaling data, a plurality of infrastructure scaling options that satisfies the requirements; determining a cost associated with each of the infrastructure scaling options; determining a cost-optimal infrastructure option from the plurality of infrastructure scaling options that satisfies the requirements for OTA updates and has the lowest associated cost; procuring and allocating a number or type of infrastructure components according to the cost-optimal infrastructure option; communicating an update time and update channel for delivering the OTA updates to the mobility clients; and initiating delivery of the OTA updates to the mobility clients using the procured and allocated infrastructure components.

Some embodiments of the invention provide a novel method of performing network slice-based operations on a data message at a hardware forwarding element (HFE) in a network. For a received data message flow, the method has the HFE identify a network slice associated with the received data message flow. This network slice in some embodiments is associated with a set of operations to be performed on the data message by several network elements, including one or more machines executing on one or more computers in the network. Once the network slice is identified, the method has the HFE process the data message flow based on a rule that applies to data messages associated with the identified slice.

Some embodiments of the invention provide a novel method of performing network slice-based operations on a data message at a hardware forwarding element (HFE) in a network. For a received data message flow, the method has the HFE identify a network slice associated with the received data message flow. This network slice in some embodiments is associated with a set of operations to be performed on the data message by several network elements, including one or more machines executing on one or more computers in the network. Once the network slice is identified, the method has the HFE process the data message flow based on a rule that applies to data messages associated with the identified slice.

Some embodiments of the invention provide a novel method of performing network slice-based operations on a data message at a hardware forwarding element (HFE) in a network. For a received data message flow, the method has the HFE identify a network slice associated with the received data message flow. This network slice in some embodiments is associated with a set of operations to be performed on the data message by several network elements, including one or more machines executing on one or more computers in the network. Once the network slice is identified, the method has the HFE process the data message flow based on a rule that applies to data messages associated with the identified slice.