A method may include bridging in, via a fabric, a multicast data packet from a source device to a first edge device of a plurality of edge devices and flooding the multicast data packet to the plurality of edge devices within a mutual subnetwork of the fabric. The method further includes bridging out the multicast data packet from a second edge device of the plurality of edge devices to a receiving device. The source device and the receiving device are located within the mutual subnetwork.

A method may include bridging in, via a fabric, a multicast data packet from a source device to a first edge device of a plurality of edge devices and flooding the multicast data packet to the plurality of edge devices within a mutual subnetwork of the fabric. The method further includes bridging out the multicast data packet from a second edge device of the plurality of edge devices to a receiving device. The source device and the receiving device are located within the mutual subnetwork.

Systems and methods for contextual messaging and information routing in a distributed ledger network are disclosed. According to one embodiment, a method may include a distributed application executed by a sending entity node in a distributed ledger network: receiving a message or communication from a sending entity; identifying a context for the message or communication; retrieving capabilities of other nodes in the distributed ledger network; identifying potential receiving entities for the message or communication based on the capabilities; retrieving routing preferences for the sending entity; applying the routing preferences for the sending entity to identify a receiving entity from the potential receiving entities; and sending the message or communication to a receiving node for the receiving entity using the routing preferences, wherein the receiving node is configured to route the message or communication to the receiving entity using routing preferences for the receiving entity.

Systems and methods for contextual messaging and information routing in a distributed ledger network are disclosed. According to one embodiment, a method may include a distributed application executed by a sending entity node in a distributed ledger network: receiving a message or communication from a sending entity; identifying a context for the message or communication; retrieving capabilities of other nodes in the distributed ledger network; identifying potential receiving entities for the message or communication based on the capabilities; retrieving routing preferences for the sending entity; applying the routing preferences for the sending entity to identify a receiving entity from the potential receiving entities; and sending the message or communication to a receiving node for the receiving entity using the routing preferences, wherein the receiving node is configured to route the message or communication to the receiving entity using routing preferences for the receiving entity.

A gateway device and a configuration client for supporting selective forwarding of messages published to a group address or a virtual address in a wireless mesh network of communicatively coupled communication devices, such as a Bluetooth Mesh system. The configuration client maintains a mapping between unicast addresses of communication devices and group and virtual addresses in the network. The gateway device receives, from the configuration client, unicast addresses of those communication devices collectively identified by the group or virtual address in a received message. When the retrieved unicast addresses are all serviced by the gateway device, the message is transmitted by the gateway device on all interfaces corresponding to the communication devices addressed by the retrieved unicast addresses. When the retrieved unicast addresses are not all serviced by the gateway device, the message is transmitted by the gateway device on all except one of the interfaces.

A gateway device and a configuration client for supporting selective forwarding of messages published to a group address or a virtual address in a wireless mesh network of communicatively coupled communication devices, such as a Bluetooth Mesh system. The configuration client maintains a mapping between unicast addresses of communication devices and group and virtual addresses in the network. The gateway device receives, from the configuration client, unicast addresses of those communication devices collectively identified by the group or virtual address in a received message. When the retrieved unicast addresses are all serviced by the gateway device, the message is transmitted by the gateway device on all interfaces corresponding to the communication devices addressed by the retrieved unicast addresses. When the retrieved unicast addresses are not all serviced by the gateway device, the message is transmitted by the gateway device on all except one of the interfaces.

Provided is a remote control system and a method enabling packets, related to a control signal and simultaneously transmitted from a controller to a plurality of controlled devices, to be received by the controlled devices without a difference in delay. Edge nodes that are packet transfer devices are provided on communication paths between a controller provided on a network and a plurality of controlled devices provided in a location. The edge nodes each include a transfer processing unit that transfers the packets from the controller to the controlled devices, and a timing control unit that controls transmission timing of the packets in the transfer processing unit to reduce a difference in arrival time of a plurality of packets simultaneously transmitted from the controller to the plurality of controlled devices, at the plurality of controlled devices.

Provided is a remote control system and a method enabling packets, related to a control signal and simultaneously transmitted from a controller to a plurality of controlled devices, to be received by the controlled devices without a difference in delay. Edge nodes that are packet transfer devices are provided on communication paths between a controller provided on a network and a plurality of controlled devices provided in a location. The edge nodes each include a transfer processing unit that transfers the packets from the controller to the controlled devices, and a timing control unit that controls transmission timing of the packets in the transfer processing unit to reduce a difference in arrival time of a plurality of packets simultaneously transmitted from the controller to the plurality of controlled devices, at the plurality of controlled devices.

Redundant upstream mesh links are formed with a gateway access point for each of the radio capabilities. A resource load is measured across each of the redundant upstream mesh links. During runtime, a packet is received for upstream (or downstream) transmission from a specific client from the plurality of clients. An upstream link is selected for transmission of the packet from the redundant upstream mesh links for transmission of the packet and packets of the packet session, based on a highest link quality available from the plurality of mesh links according to the resource load measurement.

Redundant upstream mesh links are formed with a gateway access point for each of the radio capabilities. A resource load is measured across each of the redundant upstream mesh links. During runtime, a packet is received for upstream (or downstream) transmission from a specific client from the plurality of clients. An upstream link is selected for transmission of the packet from the redundant upstream mesh links for transmission of the packet and packets of the packet session, based on a highest link quality available from the plurality of mesh links according to the resource load measurement.