Various example embodiments for supporting generation of addresses for network entities in communication systems are presented. Various example embodiments for supporting generation of addresses for network entities may be configured to support generation of a new address for a network entity based on an existing address of the network entity. Various example embodiments for supporting generation of addresses for network entities may be configured to support generation of a new address for a network entity based on manipulation of at least a portion of an existing address of the network entity. Various example embodiments for supporting generation of addresses for network entities may be configured to support generation of a transport layer address (e.g., an Internet Protocol (IP) address or the like) for a network entity based on a data link layer address (e.g., a Media Access Control (MAC) address or the like) of the network entity.

Various example embodiments for supporting generation of addresses for network entities in communication systems are presented. Various example embodiments for supporting generation of addresses for network entities may be configured to support generation of a new address for a network entity based on an existing address of the network entity. Various example embodiments for supporting generation of addresses for network entities may be configured to support generation of a new address for a network entity based on manipulation of at least a portion of an existing address of the network entity. Various example embodiments for supporting generation of addresses for network entities may be configured to support generation of a transport layer address (e.g., an Internet Protocol (IP) address or the like) for a network entity based on a data link layer address (e.g., a Media Access Control (MAC) address or the like) of the network entity.

A method for accessing a wireless local area network (WLAN) includes a terminal receiving type information of the WLAN and identification information of the WLAN from an access point. The terminal determines a type of the WLAN based on the type information. The terminal sends, to the access point when the terminal determines that the type is a type I, a message requesting to access the WLAN. The message carries a virtual media access control (MAC) address, where the virtual MAC address identifies the terminal, and where the virtual MAC address is different from a device MAC address of the terminal.

A method includes linking, at an access node, a first media control access (MAC) address of a device to an identifier of the device to establish a communication session between the access node and the device and during the communication session, receiving, at the access node, an indication of a change of the first MAC address to a second MAC address. The method also includes linking, at the access node, the second MAC address to the first MAC address and the identifier and receiving, at the access node, a communication from the device using the second MAC address while maintaining the communication session.

Methods and systems are described for automatically detecting network routing peers and establishing route peering sessions. An illustrative method includes retrieving, at a network router, route peer configuration for the network router. The route peer configuration identifies one or more network interfaces for route peering but typically does not identify an address of peer routers. The method identifies, based on the route peer configuration, a network interface from a plurality of network interfaces of the network router for route peering and configures the network interface to participate in route peering. The method then detects a peer router on the network interface and initiates a peering session on the network interface with the peer router. Using the peering session, the method exchange route information with the peer router.

A network includes at least two nodes that employ a routing protocol to communicate across a network. One of the nodes is a parent node and another of the nodes is a child node of the parent node. An address generator assigns a unique network address to the child node by appending an address value of a number of bits to a parent address of the parent node to create the unique network address for the child node.

Disclosed is an architecture that distributes session control logic across multiple points of a telecommunications network. Also disclosed are techniques and systems using Internet Protocol (IP)-based routing to establish communication sessions. A user equipment (UE) may receive user input to initiate a communication session, derive a destination IP address, generate a session request having at least the destination IP address, and send the session request a server. The server may receive the session request from the UE, replace the destination IP address in the session request with an IP address of an endpoint device to generate a modified session request, and route the modified session request to the endpoint device based at least in part on the IP address of the endpoint device.

The invention concerns a method for establishing a bidirectional communication channel between a server and a secure element cooperating with a terminal in a cellular telecommunication network for exchanging data and commands, the method comprising: a—Sending a first attachment request signaling message from the terminal to the server, the first message comprising a MCC and a MNC of the server, and at least a part of a unique identifier of the secure element, the server being provisioned with the unique identifier; b—Sending from the server to the secure element, in at least a firstsignaling message: At least a command; A correlation identifier if further messages have to be sent from the secure element to the server; A first payload comprising data; c—Executing at the secure element the command.

An information communication method and an information communication system are capable of securely using user information. An information communication method includes a step of uniquely setting a first network address authenticated by a certificate authority in a terminal device in advance. The method also includes uniquely setting a second network address authenticated by the certificate authority in a server in advance and associating the first network address with user information. The method further includes making a communication connection between the terminal device and the server, in which the server refers to the user information.

Methods, systems, and computer readable media can be operable to facilitate an exchange of messages between an access point and a station, wherein the access point requests a unique identifier from the station. The station initiates a secure connection with the access point prior to associating with the access point. The station may either respond with a message declining to provide a unique identifier or respond with a message including a unique identifier to be used by the access point for the station via the secure connection. The response from the station may include additional limitations on the use of the unique identifier by the access point. The access point may enforce different policies against the station depending upon how the station responds to the unique identifier request.