The technologies described herein are generally directed to, in response to feature activation at an access point, planning and deploying service elements of a network service across transport and core network segments in a fifth generation (5G) network or other next generation networks. For example, a method described herein can include receiving a request to implement a network service in a network that includes access point equipment connected via a transport segment to a core network segment. The method can further include, based on the request, selecting deployment locations in the network for service elements to enable the network service, with an element of the service elements being selected to be deployed at a deployment location. Further, the method can include deploying the service element at the selected deployment location.

This invention presents a digital network system able to concurrently provide multimode internetworking connectivity session over a plurality of disparate network systems, from User Premise Device (UPD) to NSP, CSP or ASP network gateways, and providing a plurality of internetwork environment. The invention also provide the methods for the support of the following internetworking connectivity services, concurrently:a) public and shared-media Internet services; b) MPLS-enabled and IP-based Virtual Private Network (VPN) services; c) hybrid network system connection sessions among disparate connection-oriented and connectionless network systems; and d) end-to-end, connection-oriented, and circuit-switching connection sessions for VDMI-based application services through digital transceiver, be it xDSL or VCC-based land-line or wireless medium.

The disclosure relates to the field of communication, and particularly to a method, master device and module device for transmitting data via Wifi. In the embodiments of the disclosure, a virtual wireless network interface card is arranged in the module device, thus the Wifi data is transmitted via the Ethernet interface card and the Ethernet bridge, so that a wireless network interface card of a master device may be shared by a plurality of module devices, and the interference will not occur between the Wifi data of different module devices since the wifi data between the master device and the module device is transmitted by wire.

A car integrated management system has a plurality of communication apparatuses, each including: an extraction unit to extract entries from a table; an address unit to generate a destination address of a packet, using information to identify a subnet connected to each of the communication apparatuses, and to generate a next hop address that indicates an address of a transfer destination to which the packet is to be transferred, using information to identify each of the communication apparatuses, the subnet identification information and the communication apparatus identification information being included in entry extracted by the extraction unit; an acquisition unit to acquire information about an IP port to be used for sending the packet to a communication apparatus at the next hop address; and an entry addition unit to add information about the destination address, the next hop address, and the IP port to a routing table.

A method for wireless communication between a moving vehicle and remote servers through at least one external mobile network. A router in the moving vehicle is configured for receiving and transmitting wireless data to and from both an aggregation server, using aggregated communication over at least two separate links, and at least one other stationary communication server, using non-aggregated communication over a single link. The router is further accessible by a plurality of client devices onboard the moving vehicle. At least one selection rule is provided in the router for selecting whether to use aggregated or non-aggregated communication, and a determination is made, upon a request from a client device to communicate with one of said remote servers, whether one of the at least one rules applies; and if so selecting to use aggregated communication via the at least one other communication server for communication based on the determination.

An access network comprises a plurality of access nodes (DSLAMs), a plurality of network access servers (CP BRASs) and an ANCP relay. The access network control relay component relays data between an access node and a plurality of network access servers and includes one or more interfaces and associated functionality in an ANCP listener component for enabling a connection between the relay component and the access node, for transmitting data and/or messages thereover, and an interface (ANCP Agents) for a connection to be made with each of the plurality of network access servers (via ANCP listeners contained within the BRASs) for transmitting ANCP messages thereover; and a mapping database for storing mapping data to determine to which network access server a message should be transmitted from the relay component, together with a CP authentication database and a workflow processing component for controlling operation of components within the ANCP relay.

A system that transmits frames by establishing a tunnel between a tunneling client of a user equipment and a tunneling server enables a redundant header removal functionality for an inner socket of the tunnel. The system receives a frame that includes an Internet Protocol (IP) header and removes redundant information from the IP header, the removed redundant information including a source address of the frame. The system transmits the frame with a modified header after the removed redundant information over the inner socket of the tunnel.

Aspects of the subject disclosure may include, for example, a method comprising transmitting, by a controller comprising a processor, a request to a server to enable initiation of a virtual private network session on behalf of devices other than the controller. The controller transmits authentication information to enable the server to validate the request, and receives a first list of computing devices. The controller transmits a first selection of a target device from the first list to cause the server to initiate the virtual private network session between the target device and a service node providing services to the target device via the virtual private network session. The controller receives a second list of applications executable on each of the computing devices, and transmits to the server a second selection of an application from the second list that is executable by the target device. Other embodiments are disclosed.

Various embodiments comprise systems, methods, architectures, mechanisms and apparatus for spatially combining a plurality of 5G new radio (NR) carrier signals or channels for transport via a common frequency channel through a hybrid fiber coax (HFC) or other communications medium link or network. To overcome a loss of receiver ability to discriminate/process individual spatial components, each baseband signal and/or carrier signal including a spatial component has imparted to it a respective channel component n configured to modify amplitude, phase shift, and/or time delay of the baseband signal and/or carrier signal such that multiple spatial component bearing signals stacked/combined within a HFC frequency channel or slot include channel characteristics sufficiently distinct so as to enable a receiver to identify, discriminate, and otherwise process desired spatial components.

A method, apparatus and system for implementing a wide area network sensing internet group management protocol proxy are provided. A message indicating an activation of an alternate wide area network interface, activated as a result of a failed primary wide area network interface, is received. A communication path to the failed wide area network interface is closed and a communication path to the alternate wide area network interface is created using information received in the message. Subsequently a join request is communicated to at least one client using the communication path created to communicate with the alternate wide area network interface.