The present invention discloses methods and systems for transmitting data packets through a plurality of connections and through a gateway at a network node. The network node receives network performance observation report (NPOR) from the gateway. Based on the NPOR, the network node determines at least one of the plurality of wide area network (WAN) interfaces of the gateway for transmitting data packets. The network node then creates and transmits an instruction to the gateway. When the network node transmits the data packets to the gateway, the network node also creates and transmits an instruction to the gateway to determine the WAN interface(s) of the gateway for transmitting the packets.

Techniques for management controllers are provided. In one aspect, a processor of a resource registration service of a management controller may receive, from a resource provider, a resource registration request to allocate a resource object in a data model. The resource registration request may include an indication that the resource object is to be joined to a public resource tree. The processor may then allocate the resource object within the data model. In allocating the resource object, the processor may update the public resource tree to link to the resource object based on the indication.

A software defined network (SDN) controller may configure a Layer-three gateway for a network segment in a hybrid network device within a SDN network, receive a Packet-in message encapsulated with a Layer-three data packet from a SDN network device, calculate an optimum path from source media access control (MAC) address of the data packet to destination MAC address of the data packet, and issue a flow entry to each network device in the optimum path. Subsequently, each network device may forward the data packet based on the flow entry.

Example implementations relate to end-to-end quality of service in storage area networks. For example, a method includes receiving input at a target from a user, the input to assign a priority level to a logical unit. This may include registering the logical unit priority level at a switch using an in-band communication in response to the priority level being assigned to the logical unit. This can also include instructing a host to implement the priority level using the in-band communication in response to the priority level being assigned to the logical unit. Further, the methods and systems may enforce the priority level with the host, the switch, and the target.

In one implementation, a method for tap traffic redirection can include identification of a request protocol and a source network element, selection of a redirector protocol based on a list of device capabilities, instruction of the source network element to send a first copy of network traffic to an intermediary network element using the redirector protocol, and instruction of the intermediary network element to forward a second copy of the network traffic using the request protocol.

It is provided a method, comprising detecting a request for establishing a session between a peer and a network, wherein the request is received from the peer and comprises an identifier of a user of the network; checking, if the request is detected, whether a first session is established, wherein the first session is a session of the user which is established between the peer and the network; determining, if it is checked that the first session is established, whether the first session is dead or alive; flushing the first session if it is determined that the first session is dead; triggering an establishment of the requested session if it is determined that the first session is dead.

The invention relates to a radio-communication system for Push-to-Talk applications, comprising: a narrow-band PMR-technology terminal capable of connecting, via a radio-electric interface, to a narrow-band network infrastructure for accessing, via a PTT server, a set of narrow-band PTT resources or applications; and a wide-band-technology terminal capable of connecting, via a radio-electric interface, to an IP-WAN network for accessing, via a server, a set of wide-band PTT resources or applications, wherein said terminal comprises a client PTT application on the IP-WAN network configured to establish an IP connection between the terminal and a PTT server over the IP-WAN via an interface, such that said terminal can access the narrow-band PTT resources or applications and establish a communication channel with the terminal.

The at least one distributed virtual CPE comprising at least one IP Edge node, at least one Carrier Grade NAT node, at least one User Configuration Server and at least one Line Configuration Server, the method creating said at least one distributed virtual CPE upon the reception of traffic from a home in the access line corresponding to said home; modifying said at least one distributed virtual CPE upon a customer request; removing said at least one distributed virtual CPE, upon a traffic inactivity timeout detected in said access line or upon an administrative command; and associating a line identifier and a customer identifier to said at least one distributed virtual CPE, wherein said association, termed vCPE context, is known partially or totally by the at least one IP Edge node, the at least one Carrier Grade NAT, the at least one User Configuration Server and the at least one Line Configuration Server, and is kept active during the whole life cycle of said distributed virtual CPE from the creation to the removal.

Provided are a method, an apparatus and a system for establishing an optical bypass. The method includes: a route controller sending an optical bypass establishment request carrying information about an ingress node, an egress node and a required bandwidth to an optical transmission controller; and setting a second flow forwarding entry corresponding to the optical bypass for the ingress node and the egress node and sending the set second flow forwarding entry to the ingress node and the egress node when receiving an establishment success notification sent by the optical transmission controller, the establishment success notification being used for indicating that the optical transmission controller has allocated the optical bypass according to the optical bypass establishment request, set a first flow forwarding entry corresponding the bypass for each optical transmission device in the optical bypass, and sent the set first flow forwarding entry to a corresponding optical transmission device.

Network system comprising multiple access network gateways interconnected via networking equipment, each of the access network gateways being adapted for connecting user equipment devices to the network system, wherein the network system comprises a database wherein private networks are defined as groups of predetermined user equipment devices, and wherein the access network gateway are configured to interconnect user equipment devices belonging to a single private network via SDN service chains to emulate the single private network inside the network system.