Patent application number | Description | Published |
20090013383 | MONITORING NETWORK SERVICE AFFECTING EVENTS, TAKING ACTION, AND AUTOMATING SUBSCRIBER NOTIFICATION - In one embodiment, a method includes identifying at least one parameter as being associated with a service provided to an entity, as for example a subscriber. The service is arranged to service the entity. The method also includes monitoring the parameter to determine if accessibility to the service by the entity is compromised, and invoking a notification mechanism to send a notification to the entity if it is determined that the accessibility to the service by the entity is compromised. The notification indicates that the accessibility to the service is compromised. | 01-08-2009 |
20090059935 | Colored access control lists for multicast forwarding using layer 2 control protocol - In one embodiment, a method includes receiving, by an access node, multicast control parameters for white, black, and grey lists of multicast groups. The access node applies the multicast control parameters to an IGMP process running on a port associated with a subscriber. In response to receiving an IGMP message requesting joining a multicast group, the access node either: autonomously forwarding the multicast group on the port where the multicast group in on the white list, blocking the multicast group on the port where the multicast group in on the black list, or relying on a Layer 3 broadband network gateway (BNG) to instruct the access node whether to add a forwarding entry on the port for the multicast group where the multicast group in on the grey list. It is emphasized that this abstract is provided to comply with the rules requiring an abstract that will allow a searcher or other reader to quickly ascertain the subject matter of the technical disclosure. | 03-05-2009 |
20090185573 | PSUEDOWIRE TERMINATION DIRECTLY ON A ROUTER - A method, apparatus and computer program product for routing data within a packet-switched network using a PW wherein the PW is terminated directly on the layer-3 routing device such that certain services and applications can be utilized is presented. The method, apparatus and computer program product receives an encapsulated layer-2 Protocol Data Unit (PDU) from a pseudowire emulating a service. The encapsulation is removed from the encapsulated layer-2 PDU and a layer-2 circuit associated with the pseudowire is terminated. The circuit is treated as an interface and the PDU is forwarded based on upper layer protocol information within the PDU. | 07-23-2009 |
20100131660 | DETERMINISTIC SESSION LOAD-BALANCING AND REDUNDANCY OF ACCESS SERVERS IN A COMPUTER NETWORK - In one embodiment, for each port of an access node in an access-based computer network, one access server of a plurality of access servers is configured as a preferred access server for that port. Upon receiving a session initiation message at a particular port, the access node forwards the session initiation message to one or more of the access servers based on the configured preferred access server for the particular port. | 05-27-2010 |
20100202321 | IPv6 ADDRESSING OVER NON-IPv6 SYSTEMS - A system includes an access node having an associated identifier. The access node is configured to insert the identifier into a network connection request. The system includes an IP edge service node connected to the access node and configured to receive the network connection request. The IP edge service node is further configured to store the inserted identifier and to insert the identifier into an Internet protocol version 6 (IPv6) address request transmitted according to dynamic host configuration protocol version 6 (DHCPv6) through an established network connection based on the network connection request. The system further includes a server configured to receive the IPv6 address request and assign an IPv6 address based on the IPv6 address request. | 08-12-2010 |
20100293233 | CUSTOMER EDGE DEVICE AUTO-CONFIGURATION - A customer edge device is automatically configured. A request for customer edge device configuration data may be transmitted to a provider edge device via an Ethernet-layer operations, administration, maintenance, and provisioning (OAM&P) protocol. The request for configuration data may be relayed from the Ethernet-layer OAM&P protocol to a configuration protocol. The request for configuration data may be transmitted from the provider edge device to a configuration repository server via the configuration protocol. The configuration repository server may transmit the requested configuration data to the provider edge device via the configuration protocol. The provider edge device may relay the configuration data from the configuration protocol to the Ethernet-layer OAM&P protocol and transmit the configuration data to a customer edge device via the Ethernet-layer OAM&P protocol. The customer edge device may automatically configure itself using the configuration data. | 11-18-2010 |
20110164505 | CFM FOR CONFLICTING MAC ADDRESS NOTIFICATION - In one embodiment, an aggregation device operating in a computer network may have a down maintenance end point (MEP) configured on certain of its user-to-network interface (UNI) ports. These down MEPs may then receive continuity check messages (CCMs) from down MEPs configured on customer edge (CE) devices, where each CCM has a media access control (MAC) address of a corresponding CE device UNI port from which the CCM is transmitted. In response to detecting conflicting MAC addresses between CE device UNI ports based on the CCMs, the aggregation device may notify the CE devices corresponding to the conflicting MAC addresses of the conflict. | 07-07-2011 |
20110286470 | SYSTEM AND METHOD FOR PROVIDING MULTICAST DELIVERY IN A NETWORK ENVIRONMENT - A method is provided in one example and includes receiving signaling data associated with a request for a multicast channel, the request includes an Internet protocol version 6 (IPv6) source and an IPv6 group address. The method may also include identifying an Internet protocol version 4 (IPv4) source and an IPv4 group address to be mapped to the IPv6 source and the IPv6 group address. The signaling data can be converted from a first protocol to a second protocol. The converted signaling data can be communicated to a network element. In more particular embodiments, the network element is an IP edge router configured to join the multicast channel and stream data in response to receiving the converted signaling data. The IP edge router can be configured to perform an encapsulation operation to transport IPv6 multicast packets within an IPv4 multicast channel. | 11-24-2011 |
20120182994 | ADDRESS COMPATIBILITY IN A NETWORK DEVICE RELOAD - In one embodiment, a network device maintains address compatibility in a reload. The reload results from a reconnect event such as a reboot or a software upgrade. Before the reload, the network device establishes communication using a first address prefix. Because of the reload, the first address prefix is cleared from the network device. The service provider may provide a second address prefix. Rather than advertise the second address prefix, the network device waits for traffic from the hosts. If the hosts continue to use the first address prefix, the network device requests the first address prefix be re-assigned by the service provider. If the service provider does not re-assign the first address prefix, the network device may advertise the first address prefix in a router advertisement including a relatively short preferred lifetime. The short preferred lifetime prevents the use of the old address prefix. | 07-19-2012 |
20120213220 | Automated Transitioning Between Different Communication Protocols in a Network - One embodiment includes, inter alia, methods, apparatus, computer-storage media, mechanisms, and/or means associated with automated transitioning between different communication protocols in a network. In one embodiment, automatic transition routers are automatically discovered along with the knowledge of what non-native protocols need to be transported across a network. Communication pathways are automatically established as needed to transport these non-native protocols. One embodiment is particularly useful in transitioning a network from one protocol to another, such as from Internet Protocol version 4 to version 6. | 08-23-2012 |
20130227155 | IPv4 ADDRESSING OVER NON-IPv4 SYSTEMS - A system includes an access node having an associated identifier. The access node is configured to insert the identifier into a network connection request. The system includes an IP edge service node connected to the access node and configured to receive the network connection request. The IP edge service node is further configured to store the inserted identifier and to insert the identifier into an Internet protocol version 6 (IPv6) address request transmitted according to dynamic host configuration protocol version 6 (DHCPv6) through an established network connection based on the network connection request. The system further includes a server configured to receive the IPv6 address request and assign an IPv6 address based on the IPv6 address request. | 08-29-2013 |
20130229924 | CFM FOR CONFLICTING MAC ADDRESS NOTIFICATION - In one embodiment, an aggregation device is configured to aggregate traffic of a plurality of customer edge (CE) devices into a single bridge-domain. The aggregation device receives connectivity fault management (CFM) packets of a CFM protocol from the plurality of CE devices. Each received CFM packet includes a media access control (MAC) address of an access port of the CE device from which the CFM packet was transmitted. The aggregation device detects conflicting MAC addresses between access ports of CE devices by comparing MAC addresses of the received CFM packets. The aggregation device notifies one or more of the plurality of CE devices of the conflict. | 09-05-2013 |
20130291073 | MULTI-STACK SUBSCRIBER SIGN ON - A system includes a multi-stack subscriber, a gateway, and a web portal. The web portal determines whether the subscriber is authenticated to access the Internet using a first Internet Protocol by receiving logon information from the subscriber. The subscriber requests to access the Internet using a second Internet Protocol. The gateway and/or the web portal determine whether the subscriber is authenticated to access the Internet using the second Internet Protocol without sending a second logon to the subscriber. | 10-31-2013 |
20130329750 | DYNAMIC DISCOVERY OF IPV6 TRANSITION PARAMETERS BY BORDER/RELAY ROUTERS - In one embodiment, an edge router of a local computer network snoops client-server protocol configuration information of a customer-premises equipment (CPE) device. From the snooping, the edge router may identify an Internet Protocol version 6 (IPv6) transition option in place at the CPE device along with associated configuration parameters for the IPv6 transition option. As such, the edge router may then advertise the IPv6 transition option along with associated configuration parameters to one or more border/relay routers of the local computer network to cause the one or more border/relay routers to provision themselves with the IPv6 transition option and associated configuration parameters. | 12-12-2013 |
20140057666 | SYSTEM AND METHOD FOR CONFIGURATION OF FIXED PORT LOCATION IN A NETWORK ENVIRONMENT - A method is provided in one example embodiment and includes determining a location of a location detection device using a wireless link; determining an identity of a fixed port to which the location detection device is connected, where the location of the location detection device is proximate to the fixed port; and communicating a location of the fixed port to a location anchor. In more specific examples, the location of the fixed port is linked to a point of attachment in order to configure the fixed port. Additionally, the location of the fixed port can be presented to a server for application to a point of attachment via an application program interface (API). | 02-27-2014 |
20140325039 | DETERMINISTIC SESSION LOAD-BALANCING AND REDUNDANCY OF ACCESS SERVERS IN A COMPUTER NETWORK - In one embodiment, for each port of an access node in an access-based computer network, one access server of a plurality of access servers is configured as a preferred access server for that port. Upon receiving a session initiation message at a particular port, the access node forwards the session initiation message to one or more of the access servers based on the configured preferred access server for the particular port. | 10-30-2014 |
20150009863 | Automated Transitioning Between Different Communication Protocols in a Network - One embodiment includes, inter alia, methods, apparatus, computer-storage media, mechanisms, and/or means associated with automated transitioning between different communication protocols in a network. In one embodiment, automatic transition routers are automatically discovered along with the knowledge of what non-native protocols need to be transported across a network. Communication pathways are automatically established as needed to transport these non-native protocols. One embodiment is particularly useful in transitioning a network from one protocol to another, such as from Internet Protocol version 4 to version 6. | 01-08-2015 |
20150081864 | REVERSIBLE MAPPING OF NETWORK ADDRESSES IN MULTIPLE NETWORK ENVIRONMENTS - A method for translating network addresses includes receiving a first network packet, the first network packet comprising an internal source address. The method also includes generating, by performing a mapping operation, a mapping value. The generating of the mapping value uses, at least in part, at least a portion of the internal source address, and at least a portion of an external source address. The external source address is associated with the internal source address. The method also includes forwarding, using a second network packet, at least a portion of the first network packet. The second network packet comprises the external source address and at least a portion of the mapping value. | 03-19-2015 |