Patent application number | Description | Published |
20100272125 | Canonicalization of Network Protocol Headers - A method for generating network traffic includes receiving packet header information and an optional packet payload. The received packet header information is arranged in accordance with a predetermined format. A packet of data including the packet payload and a packet header is formatted in accordance with the arranged header information. The predetermined format specifies a particular order in which packet headers are to be arranged. | 10-28-2010 |
20130246577 | CONNECTION MANAGEMENT AND OPTIMIZATION FOR SERVICES DELIVERED OVER NETWORKS - Content delivery by a network node is optimized. The network node is communicatively coupled between multiple end user devices and at least one content service provider. A request for a media streaming service available from the content service provider is intercepted from a first requestor device. It is determined if the media streaming service is registered for delivery optimization based on at least one service rule specific to the media streaming service. It is determined if a second requestor device is currently receiving the media streaming service from the content service provider. In response to the media streaming service being received by the second requestor device, delivery optimization of the media streaming service is performed by replicating the media streaming service for delivery to the first requestor device. The replicated media streaming service is sent to the first requestor device. | 09-19-2013 |
20140013057 | OBJECT TYPE AWARE BYTE CACHING - One or more embodiments perform byte caching. At least one data packet is received from at least one network node. At least one data object is received from the at least one data packet. An object type associated with the at least one data object is identified. The at least one data object is divided into a plurality of byte sequences based on the object type that is associated with the at least one data object. At least one byte sequence in the plurality of byte sequences is stored into a byte cache. | 01-09-2014 |
20140023075 | SYSTEMS, METHODS AND ALGORITHMS FOR NAMED DATA NETWORK ROUTING WITH PATH LABELING - The present disclosure relates generally to the field of routing with path labeling (in named data networks). In various examples, routing with path labeling may be implemented in one or more named data networks in the form of systems, methods and/or algorithms. | 01-23-2014 |
20140023076 | SYSTEMS, METHODS AND ALGORITHMS FOR NAMED DATA NETWORK ROUTING WITH PATH LABELING - The present disclosure relates generally to the field of routing with path labeling (in named data networks). In various examples, routing with path labeling may be implemented in one or more named data networks in the form of systems, methods and/or algorithms. | 01-23-2014 |
20140036674 | SPLIT TRANSPORT CONTROL PROTOCOL (TCP) FLOW CONTROL MANAGEMENT IN A CELLULAR BROADBAND NETWORK - Embodiments of the present invention provide a method, system and computer program product for split transport control protocol (TCP) flow control management in a cellular broadband network. In an embodiment of the invention, a method for split TCP flow control management in a cellular broadband network is provided. The method includes first determining a context for a packet received as part of a data flow in a base station of a cellular broadband network and then selecting either an end-to-end TCP connection or a split TCP connection to support the data flow. Thereafter, the data flow is routed using the selected connection. | 02-06-2014 |
20140064058 | BYTE CACHING IN WIRELESS COMMUNICATION NETWORKS - Various embodiments provide byte caching in wireless communication networks. In one embodiment, a plurality of data packets are received through an internet protocol (IP) data flow established between a wireless communication device and at least one server. Each of the plurality of data packets are combined into a packet bundle. A determination is made as to whether a second byte caching system is available. The packet bundle is transformed using one or more byte caching operations based on a second byte caching system being available. The transformed packet bundle is sent to the second byte caching system using an IP communication mechanism. | 03-06-2014 |
20140064141 | MOBILITY DETECTION FOR EDGE APPLICATIONS IN WIRELESS COMMUNICATION NETWORKS - Various embodiments detect wireless communication device mobility in a wireless communication network. In one embodiment, one or more Internet Protocol (IP) data packets associated with a wireless communication device are analyzed. The wireless communication device is coupled with the edge entity. A determination is made, based on the analyzing, that the wireless communication device is a newly coupled device at the edge entity. A central entity disposed within the wireless communication network is notified that the wireless communication device is currently coupled to the edge entity. | 03-06-2014 |
20140064182 | MOBILITY DETECTION FOR EDGE APPLICATIONS IN WIRELESS COMMUNICATION NETWORKS - Various embodiments detecting wireless communication device mobility in a wireless communication network. In one embodiment, one or more Internet Protocol (IP) data packets associated with a wireless communication device are analyzed. The wireless communication device is coupled with the edge entity. A determination is made, based on the analyzing, that the wireless communication device is a newly coupled device at the edge entity. A central entity disposed within the wireless communication network is notified that the wireless communication device is currently coupled to the edge entity. | 03-06-2014 |
20140067987 | BYTE CACHING IN WIRELESS COMMUNICATION NETWORKS - Various embodiments provide byte caching in wireless communication networks. In one embodiment, a plurality of data packets are received through an internet protocol (IP) data flow established between a wireless communication device and at least one server. Each of the plurality of data packets are combined into a packet bundle. A determination is made as to whether a second byte caching system is available. The packet bundle is transformed using one or more byte caching operations based on a second byte caching system being available. The transformed packet bundle is sent to the second byte caching system using an IP communication mechanism. | 03-06-2014 |
20140307579 | SOFTWARE IMPLEMENTATION OF NETWORK SWITCH/ROUTER - A network switching system and method and a computer program product for operating a network switch are disclosed. The network switch includes a multitude of input ports and a multitude of output ports. In one embodiment, one processing device is assigned to each of the input ports and output ports to process data packets received at the input ports and transferred to the output ports. In one embodiment, the method comprises creating an intermediate adjustable configuration of processing devices functionally between the input ports and the output ports, and assigning the processing devices of the intermediate configuration to forward the data packets from the input ports to the output ports to obtain a balance between latency and synchronization of the transfer of the data packets from the input ports to the output ports. In an embodiment, software is used to create and to adjust dynamically the intermediate configuration. | 10-16-2014 |
20150065121 | ADAPTIVE MONITORING FOR CELLULAR NETWORKS - Various embodiments provide adaptive monitoring of a wireless communication network. In one embodiment, a first set of network data generated for a wireless communication network is analyzed. The first set of network data is a set of historical network data for the wireless communication network. A baseline for at least one operating characteristic associated with the wireless communication network is determined based on the analyzing. A second set of network data generated for the wireless communication network is received. The second set of call detail records that has been received is utilized to determine if the at least one operating characteristic corresponds to the baseline. A set of monitoring operations performed by a network management system with respect to the wireless communication network is dynamically adjusted based on the at least one operating characteristic failing to correspond to the baseline. | 03-05-2015 |
20150304863 | CORRELATING ROAD NETWORK INFORMATION AND USER MOBILITY INFORMATION FOR WIRELESS COMMUNICATION NETWORK PLANNING - Various embodiments monitor user mobility in a wireless communication network. In one embodiment, a set of temporally related call detail records associated with at least one user of a wireless communication network is analyzed. A set of base stations accessed during at least one call associated with the set of temporally related call detail records is identified based on the analysis of the records. At least one road segment of a road network within a threshold distance to each of the set of base stations is identified. A set of mobility information for the at least one user indicating that the at least one user traversed the at least one road segment is stored based on identifying the at least one road segment. | 10-22-2015 |
20150350872 | MOBILITY DETECTION FOR EDGE APPLICATIONS IN WIRELESS COMMUNICATION NETWORKS - Various embodiments detect wireless communication device mobility in a wireless communication network. In one embodiment, one or more Internet Protocol (IP) data packets associated with a wireless communication device are analyzed. The wireless communication device is coupled with the edge entity. A determination is made, based on the analyzing, that the wireless communication device is a newly coupled device at the edge entity. A central entity disposed within the wireless communication network is notified that the wireless communication device is currently coupled to the edge entity. | 12-03-2015 |
20150382176 | MOBILITY DETECTION FOR EDGE APPLICATIONS IN WIRELESS COMMUNICATION NETWORKS - Various embodiments detecting wireless communication device mobility in a wireless communication network. In one embodiment, one or more Internet Protocol (IP) data packets associated with a wireless communication device are analyzed. The wireless communication device is coupled with the edge entity. A determination is made, based on the analyzing, that the wireless communication device is a newly coupled device at the edge entity. A central entity disposed within the wireless communication network is notified that the wireless communication device is currently coupled to the edge entity. | 12-31-2015 |