Patent application number | Description | Published |
20080313279 | TELECOMMUNICATION SERVICE SYSTEM CONTROL BY MEANS OF PEER-TO-PEER TECHNIQUES - The application concerns a method for invoking a communication service that is realized by means of a peer of a peer-to-peer system, the method comprising the step of identifying a peer hosting the communication service and invoking the communication service by means of a distributed directory, where the distributed directory carrying entries that enable a client to invoke the communication service, the method further comprising the step of identifying an alternative peer hosting an alternative communication service in case the identified peer or the communication service is unavailable, where the distributed directory carrying entries that enable a client to invoke the alternative communication service. And the application concerns a computer software product and a telecommunication system for providing communication services corresponding to the method. | 12-18-2008 |
20090216887 | METHOD OF ESTABLISHING A CONNECTION - The invention concerns method of establishing a connection in a peer-to-peer network ( | 08-27-2009 |
20090323696 | METHOD OF PROVIDING A SUCCESSOR LIST - The invention concerns a method of providing a successor list (L) for routing in a peer-to-peer overlay network (N), and a network node and a computer program product to execute this method. The peer-to-peer overlay network (N) comprises a plurality of nodes ( | 12-31-2009 |
20090323700 | METHOD OF DETERMINING A ROUTING PATH - The invention concerns a method of determining a routing path in a peer-to-peer overlay network (N), and a network node ( | 12-31-2009 |
20090327364 | Method of redundant data storage - Embodiments of the invention concern a method of redundant data storage in a peer-to-peer overlay network (N), and a network node ( | 12-31-2009 |
Patent application number | Description | Published |
20130166703 | System And Method For Management Of Network-Based Services - In one embodiment, a system includes an interface configured to receive a first request sent from a first customer for a first service provided by a first service provider, the first request being of a first type. The system also includes at least one processor configured to determine a first set of configuration parameters from a first policy associated with the first service provider in response to receiving the first request. The at least one processor also causes a node associated with the first service provider to provide the first service in response to receiving the first request using the first set of configuration parameters. | 06-27-2013 |
20130230053 | System and Method for Facilitating Communication - According to one embodiment, a system includes one or more memory units for storing an Address Resolution Protocol (ARP) table. The system further includes one or more processors. The processors receive, from a routing protocol, an Internet Protocol (IP)-Media Access Control (MAC) address pair for a first host computer. The processors further populate the ARP table with the IP-MAC address pair for the first host computer. | 09-05-2013 |
20140064275 | System and Method for Routing Using Path Identifiers - In one embodiment, a method includes receiving a first packet sent by a first node. The packet includes a first Layer 3 source address, a first Layer 3 destination address, a first Layer 2 source hardware identifier, a first Layer 2 destination hardware identifier, and a first path identifier. The first path identifier is situated between a Layer 2 header of the first packet and a Layer 3 header of the first packet. The method includes automatically determining a first port of the first network element associated with a second node. The second node is associated with the first Layer 2 destination hardware identifier. A second path identifier is automatically determined based on the first port. The first packet is prevented from being delivered to the second node in response to determining that the first path identifier and the second path identifier are different. | 03-06-2014 |
Patent application number | Description | Published |
20130163524 | SYSTEM AND METHOD FOR TRANSPORTING DIGITAL RADIO SIGNAL STREAMS IN A SMALL CELL NETWORK ENVIRONMENT - A method is provided in one example embodiment that includes receiving a radio signal stream, segmenting the radio signal stream based on a control word in the radio signal stream, mapping the segmented radio signal stream to a service class, transporting the segmented radio signal stream in packets through channels over a backhaul link, and maintaining the order of the radio signal stream over the backhaul link. In more particular embodiments, the backhaul link may use a DOCSIS link, the radio signal stream can be received using a Common Public Radio Interface, and the radio signal stream may include sub-streams transported through segmented channels over the backhaul link. | 06-27-2013 |
20130329633 | SYSTEM AND METHOD FOR TRANSPORTING DIGITAL BASEBAND STREAMS IN A NETWORK ENVIRONMENT - A method is provided in example embodiments that include receiving a radio signal stream and segmenting the radio signal stream into segments. The segments may be packetized and transported in packets over a pseudowire in a packet-switched network. The radio signal stream can be reconstructed from the segments. In more particular embodiments, the pseudowire may be a multi-protocol label switching pseudowire or a layer 2 tunneling protocol pseudowire, for example. In yet other specific example embodiments, the radio signal stream may be received using a common public radio interface or a femtocell application programming interface. | 12-12-2013 |
20140307627 | SYSTEM AND METHOD FOR TRANSPORTING DIGITAL RADIO SIGNAL STREAMS IN A SMALL CELL NETWORK ENVIRONMENT - A method is provided in one example embodiment that includes receiving a radio signal stream, segmenting the radio signal stream based on a control word in the radio signal stream, mapping the segmented radio signal stream to a service class, transporting the segmented radio signal stream in packets through channels over a backhaul link, and maintaining the order of the radio signal stream over the backhaul link. In more particular embodiments, the backhaul link may use a DOCSIS link, the radio signal stream can be received using a Common Public Radio Interface, and the radio signal stream may include sub-streams transported through segmented channels over the backhaul link. | 10-16-2014 |