A computerized method performed by logic processing on a first network device is disclosed. The computerized method includes operations performed by a logic of a first network device includes detecting movement of the first network at a speed above a predetermined threshold and presence of a wireless transceiver, transmitting a message to the wireless transceiver that includes instructions for the wireless transceiver to perform a plurality of scans for additional network devices, receiving a set of lists corresponding to scans performed by the wireless transceiver, each of the set of lists indicating a first group of network devices detected by the wireless transceiver, determining a subset of the first set of the detected network devices present on each list of the set of lists, and responsive to the subset of the first set of the detected network devices exceeding a policy threshold limit, transmitting an alert.

Embodiments for a routing module for a first node are disclosed. The routing module includes a computer readable medium having instructions thereon. The instructions cause one or more processing devices to track former links between the first node and a second node and determine a probability of a future link with the second node based on the former links. If the probability of a future link with a second node is above a threshold, an advertisement is sent to at least one other node indicating that the second node is reachable from the first node. If the probability of a future link with the second node is below the threshold and no other route exists from the first node to the second node, an advertisement is sent to at least one other node indicating that the second node is not reachable from the first node.

Embodiments for a routing module for a first node are disclosed. The routing module includes a computer readable medium having instructions thereon. The instructions cause one or more processing devices to track former links between the first node and a second node and determine a probability of a future link with the second node based on the former links. If the probability of a future link with a second node is above a threshold, an advertisement is sent to at least one other node indicating that the second node is reachable from the first node. If the probability of a future link with the second node is below the threshold and no other route exists from the first node to the second node, an advertisement is sent to at least one other node indicating that the second node is not reachable from the first node.

In one embodiment, a method is performed. A fat tree route miner (FT-RM) entity may be used to establish a control plane session with a first spine node in communication with a network. The FT-RM entity may identify a prefix that is unreachable by the first spine node. The FT-RM entity may instruct a spine node to disaggregate the prefix.

In one embodiment, a method is performed. A fat tree route miner (FT-RM) entity may be used to establish a control plane session with a first spine node in communication with a network. The FT-RM entity may identify a prefix that is unreachable by the first spine node. The FT-RM entity may instruct a spine node to disaggregate the prefix.

According to one embodiment, a data management device collecting data from a plurality of wireless nodes in a wireless multihop network is provided. The data management device includes a transceiver configured to transmit and receive a radio signal; and controlling circuitry. The controlling circuitry determines a first range of numbers of hops from the data management device for execution of route control in the wireless multihop network, performs the route control for the first range of numbers of hops and does not perform the route control beyond the first range of numbers of hops from the data management device.

According to one embodiment, a data management device collecting data from a plurality of wireless nodes in a wireless multihop network is provided. The data management device includes a transceiver configured to transmit and receive a radio signal; and controlling circuitry. The controlling circuitry determines a first range of numbers of hops from the data management device for execution of route control in the wireless multihop network, performs the route control for the first range of numbers of hops and does not perform the route control beyond the first range of numbers of hops from the data management device.

A communication system includes a satellite constellation, one or more gateways and a network controller. The satellite constellation includes multiple satellites to facilitate communication between a number of user terminals (UTs). Each gateway communicates with one or more of the satellites. The network controller controls operation of the satellites, the gateways and the UTs. The satellites, the UTs, the gateways and the network controller include hardware that may also be software-defined network (SDN) enabled to ensure a persistent end-to-end data packet forwarding including proactive updates and reactive updates to forwarding tables. The proactive updates handle deterministic and time-synchronized link connectivity changes and the reactive updates handle ad hoc link connectivity changes.

A computerized method for enforcing a set of policies on a first network device is disclosed. The computerized method includes operations by logic processing on the first network device including detecting movement of the first network at a speed above a predetermined threshold and presence of a wireless transceiver, implementing the set of policies on the first network device, wherein implementation of the set of policies is configured to restrict functionality of the first network device according to a predefined list of functionalities, monitoring sensory data associated with the first network device, determining that the sensory data violates a first policy of the set of policies, and responsive to determining that the sensory data violates the first policy, transmitting an alert to an administrator. An additional operation includes transmitting a message to the wireless transceiver to perform a scan for additional network devices.

A method of routing a packet from a routing device includes receiving a first packet having a first header and a first data field. The first header has a final destination corresponding to a destination device communicatively coupled to the routing device via at least two parallel network links. A second packet having a second header and a second data field is sent over the first network link. The second data field is identical to the first data field. A destination address in the second header corresponds to a device on a first of the parallel network links. A third packet having a third header and a third data field is sent over the second network link. The third data field is identical to the first data field. a destination address in the third header corresponds to a device on a second of the parallel network links.