Aspects of the subject disclosure may include, for example, a communication node having a modem that receives first data streams from a source communication node via a first plurality of twisted pair transmission lines. A multiplexer selects a first subset of the first data streams and a second subset of the first data streams. A wireless transceiver wirelessly transmits the first subset of the first data streams as radio frequency signals via an antenna to at least one device. A distribution point unit transmits the second subset of the first data streams on a second plurality of twisted pair transmission lines to a destination communication node of a distributed antenna system.

A method for transmitting data in a communication network including a shared communication medium includes (a) transmitting local data between a first client node and a second client node according to a first data protocol, using a first shared communication medium, and (b) transmitting remote data between the first client node and a network hub according to a second data protocol different from the first data protocol, using at least the first shared communication medium.

Aspects of the subject disclosure may include, for example, a communication node having a modem that receives first data streams from a source communication node via a first plurality of twisted pair transmission lines. A multiplexer selects a first subset of the first data streams and a second subset of the first data streams. A wireless transceiver wirelessly transmits the first subset of the first data streams as radio frequency signals via an antenna to at least one device. A distribution point unit transmits the second subset of the first data streams on a second plurality of twisted pair transmission lines to a destination communication node of a distributed antenna system.

Systems, methods, and apparatus, including computer-readable media, for enhanced network communication using multiple network connections. In some implementations, a networking apparatus concurrently maintains connectivity to a network through each of multiple network transports. The networking apparatus receives one or more packets to be transmitted over the network and classifies the one or more packets to determine a class of service. The networking apparatus selects one of the multiple network transports to transmit the one or more packets based on (i) the class of service for the one or more packets and (ii) measures of expected latency for transmission of the one or more packets over the respective multiple network transports. The networking apparatus transmits the one or more packets using the selected network transport.

Systems and methods for estimating the kind of traffic a VPN is carrying and determining which WAN connection to use for VPN network traffic to reduce usage costs while maintaining responsiveness in a VPN router or gateway. A VPN classifier examines VPN packets and estimates the type of traffic they are carrying and selects a policy for upstream or downstream traffic to determine which tunnel or tunnels to send network traffic. Further, policies may be applied to VPN packets as a function of usage knob.

The FC port state machine enhanced by determining if various lanes are configured to be operated in 128 Gbps mode by operating as parallel lanes as indicated by using a reserved bit in a link training field. If so and if all of the ports are 32 Gbps ports and pass training, then four lanes can be combined to form a 128 Gbps link. If the ports are configured for 128 Gbps only operation and at least one lane does not negotiate to 32 Gbps or fails training, the link is not activated and none of the lanes are activated. If the ports are configured to do either 128 Gbps or independent operation and at least one lane cannot operate at 128 Gbps, then the lanes operate independently at the negotiated and trained speed. If the lanes are configured for only independent operation the transceiver develops independent links as negotiated.

A network system for improving network communication performance is provided. The system include at least one client site network component implemented at least at a first client site, the client site network component bonding or aggregating one or more diverse network connections so as to configure a bonded connection that has increased throughput, at least one network server component configured to connect to the client site network component using the bonded connection, the network server component automatically terminating the bonded connection and passing data traffic to the at least one network, a virtual control plane interface at the at least one network server component, and a cloud network controller configured to manage the data traffic, wherein the cloud network controller is operable to configure the virtual control plane interface to provide a priority queue for the data traffic from or to a plurality of client site network components.

A method is suggested for switching a subscriber line, the method comprising (i) conducting an evaluation of a signal provided by a terminal device, and (ii) controlling a switch that is arranged to connect one of at least two access services based on the evaluation of the signal with the subscriber line that is connected to the terminal device. Also, corresponding systems are provided.

A cyber physical system including at least one monitoring and safety device for monitoring various parameters of a machine with regard to the maintenance of setpoint values and for generating an error signal in the event of an error and a hard-wired interface to the Internet and a transmission and/or reception unit for transmitting and/or receiving data over the Internet, wherein the monitoring or safety device is connected to the transmission and/or reception unit for transmitting the error signal over the Internet. The hard-wired interface is connected to a controllable switch for physical disconnection and enabling of the connection between the cyber physical system and the Internet, and the cyber physical system has at least one control unit connected to the monitoring or control device for triggering the controllable switch for brief enabling of the connection between the cyber physical system and the Internet.

A method for configuring and/or correcting misconfigurations within a clustered network includes determining, at each node of multiple nodes in the clustered network, configuration data that identifies a connection type between the node and at least one device connected to the node, where the connection type is either a switched or switchless connection. The method further provides for publishing the configuration data determined at each of the multiple nodes to a location mutually accessible by other nodes in the clustered network generating a map of physical network topology of the clustered network based on the published configuration data; using the map of the physical network topology to determine a correct logical layer configuration for the network; and configuring one or more aspects of the network to match the determined correct logical layer configuration.