Patent application number | Description | Published |
20090279701 | CONTROLLING ACCESS NODES WITH NETWORK TRANSPORT DEVICES WITHIN WIRELESS MOBILE NETWORKS - A network controls provision of access functionality by an access node to provide a network service to a subscriber device. For example, the network device may control the queuing and forwarding of packets by the access node to facilitate packet transmission according to, for example, a Quality of Service class. The network device may send control messages to the access node to dynamically configure a control object stored by the access node, such as a Quality of Service profile. The network device may be a router, and the access node may be a base station that wireless communicates with a subscriber device, e.g., a cellular phone. The access node may then delivery the packets in accordance with the dynamically configured control object. | 11-12-2009 |
20100265947 | CONTROLLING DATA LINK LAYER ELEMENTS WITH NETWORK LAYER ELEMENTS - A network layer device controls provision of data link layer functionality by a data link layer device to provide a requested multimedia service to a subscriber. For example, the network layer device may control the performance of multicast elaboration by the data link layer device, or the queuing and forwarding of packets by the data link layer device to facilitate transmission of packets according to a Quality of Service class. The network layer device may send control messages to the data link layer device to dynamically configure a control object stored by the data link layer device, such as multicast filter information or a Quality of Service profile. The network layer device may be a service edge router, and the data link layer device may be a customer premises equipment device, e.g., a modem or wireless access point, or a switch, e.g., a digital subscriber line access multiplier. | 10-21-2010 |
20110066735 | SYSTEMS AND METHODS FOR IP SESSION KEEPALIVE USING BFD PROTOCOLS - A network device may include logic to establish an IP session, establish a BFD session within the established IP session, transmit BFD packets within the established BFD session, and determine that the established IP session is active based upon reception of the BFD packets. In another embodiment, the logic may also determine that an IP session is active using an inactivity timer that may also trigger transmission of BFD packets. | 03-17-2011 |
20120290721 | SYSTEMS AND METHODS FOR IP SESSION KEEPALIVE USING BFD PROTOCOLS - A network device may include logic to establish an IP session, establish a BFD session within the established IP session, transmit BFD packets within the established BFD session, and determine that the established IP session is active based upon reception of the BFD packets. In another embodiment, the logic may also determine that an IP session is active using an inactivity timer that may also trigger transmission of BFD packets. | 11-15-2012 |
Patent application number | Description | Published |
20090141717 | DYNAMIC BUILDING OF VLAN INTERFACES BASED ON SUBSCRIBER INFORMATION STRINGS - Techniques are described that allow a network device, such as a router, to dynamically build VLAN interfaces based on subscriber information strings included within packets. In particular, the network device comprises an interface controller and a forwarding controller, where the forwarding controller receives the packet over an Ethernet port and forwards the received packet to the interface controller. The packet includes both Ethernet tagging information and a subscriber information string. The interface controller comprises an Ethernet module that dynamically builds a primary virtual local area network (VLAN) sub-interface (PVS) based on the Ethernet tagging information. The Ethernet module also dynamically builds a subscriber VLAN sub-interface (SVS) based on the subscriber information string. The SVS allows the network device to distinguish between subscribers residing on the same VLAN, and, therefore, to provide subscriber specific services. | 06-04-2009 |
20120089728 | MONITORING DATAGRAMS IN A DATA NETWORK - A communication session over a network is facilitated. A signaling datagram from a source device having a source identity may be intercepted by a network device, and a response datagram may be generated for instructing the source device to send a subsequent datagram to the network device. The signaling datagram may be forwarded to a SIP server, where the SIP server associates the source identity with the network device acting on behalf of the source device, and where the SIP server operates to connect a destination device with the source device to establish a communication session over the network. The subsequent datagram may be received from the source device, and the subsequent datagram may be made available to the destination device via the network. | 04-12-2012 |
20130058336 | MULTIPLE CONTROL CHANNELS FOR MULTICAST REPLICATION IN A NETWORK - Network devices, such as a router and a downstream multicast distribution device, may use multiple control channels when setting up a multicast stream for a multicast request. For example, first messages may be transmitted using a first protocol to an upstream device over a first channel, the first messages indicating when a first multicast media stream is being requested by at least one of a number of client devices. Second messages may be transmitted using a second protocol over a second channel, the second messages being transmitted on a per-client basis and each identifying a one of the client devices as requesting the first multicast media stream. By using two control channels to convey the multicast channel requests, the router may obtain visibility into the action of the subscriber and can consequently perform per-subscriber operations such as access-control, bandwidth based admission control, statistics, and QoS adjustment for multicast IPTV streams received by the subscriber. | 03-07-2013 |