Manners of scheduling downloads for a user equipment (UE). The UE is configured to establish a connection to a network and receive an indication of a user-initiated download, determining whether the download is to be performed now or at a subsequent time, when the download is to be performed at the subsequent time, determine a time window during which the download is to be initiated and initiate the download during the time window.

A terminal device in a first network includes a processor programmed to receive first data indicating a respective first loading of each of a plurality of first level access devices. The processor is further programmed to select a first level access device based at least in part on the first data; and communicate with a second network via the selected first level access device and a selected second level access device. Each of the first level access devices is switchable to communicate with the first terminal via at least a respective one of one or more shared access channels, and each of a plurality second level access devices is switchable to communicatively couple one or more of the plurality of first level access devices with a second network.

Complex systems, such as those comprising processing, data storage, and communication resources for processing a plurality of communication and data processing events and types of events, are often caught unaware of outside events or how to respond to such outside events. Providing a system that self-configures in response to external events enables such systems to be proactive in their operations to address increased activity and/or types of activity in response to an external event. The system then self-evaluates, which may identify overages or shortfalls, such that the system self-learns and response more appropriately over time.

A computer-implemented method on a device in a content delivery (CD) network. The device has hardware including storage with at least one first class of storage and at least one second class of storage, the first class of storage being faster than the second class of storage. A first portion of the first class of storage is allocated for log data, and a second portion of the second class of storage is allocated for log data. The method includes obtaining log event data from at least one component or service on the device that is to be delivered to a component or service on a distinct device. Each log event data item has a priority. If a connection to an external location is lost, at least some of the log event data items are selectively stored in the storage, wherein the storing is based on priority of the log event data items. Otherwise, if the connection is not lost, at least some of the log event data items are sent to the at least one external location.

A duration to transmit multiple messages is calculated. A first request based on the calculated duration is transmitted. The first request is a request for reserving a time period to transmit. In response to receiving an approval of the first request, for each message in the multiple messages, a transmit time is calculated. A determination is made that a current time exceeds a particular transmit time for a particular message. In response to the determination, a second request is transmitted. The second request is a request for permission to transmit. In response to receiving an approval of the second request, the particular message is transmitted.

A computer-implemented method on a device in a content delivery (CD) network. The device has hardware including storage with at least one first class of storage and at least one second class of storage, the first class of storage being faster than the second class of storage. A first portion of the first class of storage is allocated for log data, and a second portion of the second class of storage is allocated for log data. The method includes obtaining log event data from at least one component or service on the device that is to be delivered to a component or service on a distinct device. Each log event data item has a priority. If a connection to an external location is lost, at least some of the log event data items are selectively stored in the storage, wherein the storing is based on priority of the log event data items. Otherwise, if the connection is not lost, at least some of the log event data items are sent to the at least one external location.

A new device is deployed to an area in which a network is provided. The new device may join the network using a single handshake via a neighboring device that is a member of the network and register with a network management system managing the network. If the network is overloaded or has limited bandwidth remaining, the network may refuse to admit the new device, or if the new device is isolated, may force some devices that are members of the network to leave or migrate from the network to allow the isolated device to join the network.

A method may include, by a network resource optimization system, receiving from a network node a resource request, determining a plurality of network resources based on the resource request, and determining a subset of network resources from the plurality of network resources and a network resource from the subset based on a score of each network resource. The score of each network resource may be based on a rate of acceptance of communication requests received or a number of communication sessions established. The method may include, by the network resource optimization system, transmitting a communication request to the determined network resource and receiving an acceptance from the network resource. The method may include, by the network resource optimization system, causing a selection mechanism to be activated at the network node, receiving from the network node a selection, and initiating the communication session in response to the selection.

Complex systems, such as those comprising processing, data storage, and communication resources for processing a plurality of communication and data processing events and types of events, are often caught unaware of outside events or how to respond to such outside events. Providing a system that self-configures in response to external events enables such systems to be proactive in their operations to address increased activity and/or types of activity in response to an external event. The system then self-evaluates, which may identify overages or shortfalls, such that the system self-learns and response more appropriately over time.

A method may include, by a network resource optimization system, receiving from a network node a resource request, determining a plurality of network resources based on the resource request, and determining a subset of network resources from the plurality of network resources and a network resource from the subset based on a score of each network resource. The score of each network resource may be based on a rate of acceptance of communication requests received or a number of communication sessions established. The method may include, by the network resource optimization system, transmitting a communication request to the determined network resource and receiving an acceptance from the network resource. The method may include, by the network resource optimization system, causing a selection mechanism to be activated at the network node, receiving from the network node a selection, and initiating the communication session in response to the selection.