Patent application number | Description | Published |
20090254674 | SESSION INITIATION PROTOCOL (SIP) OVERLOAD PROTECTION - A device receives a Session Initiation Protocol (SIP) response that includes a load header associated with a downstream Session Initiation Protocol (SIP) device. The device also determines an amount of traffic to send to the downstream Session Initiation Protocol (SIP) device based on the load header. The device further sends the determined amount of traffic to the downstream Session Initiation Protocol (SIP) device. | 10-08-2009 |
20100278534 | PEER-TO-PEER VOICE OVER INTERNET PROTOCOL - An optical network terminal receives, from a user device associated with the optical network terminal, a call to a called party, and checks a table, which may be locally cached in the optical network terminal, for a network location of another optical network terminal associated with the called party. The device also establishes a connection with another user device associated with the other optical network terminal, based on the network location, and exchanges voice data with the other user device associated with the other optical network terminal via the connection. | 11-04-2010 |
20110158237 | MODIFICATION OF PEER-TO-PEER BASED FEATURE NETWORK BASED ON CHANGING CONDITIONS / SESSION SIGNALING - A device communicates with feature peers, associated with a network, to obtain information associated with the feature peers, and receives a customer packet that includes a feature header. The device also modifies, based on the feature peer information, current condition state signaling, and other information, the feature header to create a modified customer packet, and determines, based on the feature peer information, the current condition state signaling, and the other information, which of the feature peers support a feature associated with the modified customer packet. The device further selects, from the determined feature peers, a set of feature peers for the modified customer packet to traverse, and forwards, based on the modified feature header, the modified customer packet to one of the feature peers in the selected set of feature peers. | 06-30-2011 |
20110161416 | PEER-TO-PEER BASED FEATURE NETWORK - A device receives, from feature peers associated with a network, information associated with the feature peers, receives a customer packet, and determines, based on the feature peer information, which of the feature peers support a feature associated with the customer packet. The device also selects, from the determined feature peers, a set of feature peers for the customer packet to traverse, attaches a feature header to the customer packet to create a modified customer packet, and forwards, based on the feature header, the modified customer packet to one of the feature peers in the selected set of feature peers. | 06-30-2011 |
20110161494 | FEATURE DELIVERY PACKETS FOR PEER-TO-PEER BASED FEATURE NETWORK - A device communicates with feature peers, associated with a network, to obtain information associated with the feature peers, and receives a customer packet. The device also determines, based on the feature peer information, which of the feature peers support a feature associated with the customer packet, and selects, from the determined feature peers, a set of feature peers for the customer packet to traverse. The device further associates, with the customer packet, an additional packet used for delivering the feature associated with the customer packet, and forwards the customer packet and the additional packet to one of the feature peers in the selected set of feature peers. | 06-30-2011 |
20110161521 | MANAGEMENT OF INTER-PROVIDER PEER-TO-PEER BASED FEATURE NETWORK - A device communicates with feature peers, associated with a network, to obtain information associated with the feature peers, and receives a customer packet. The device also determines, based on the feature peer information, which of the feature peers support a feature associated with the customer packet, and determines service providers associated with the determined feature peers. The device further selects, from the determined feature peers, a set of feature peers for the customer packet to traverse when the service providers associated with the determined feature peers are also associated with the device. The device then provides a tunnel header and a feature header in the customer packet to create a modified customer packet, and forwards, based on the tunnel and feature headers, the modified customer packet to one of the feature peers in the selected set of feature peers. | 06-30-2011 |
20120047210 | FEATURE DELIVERY PACKETS FOR PEER-TO-PEER BASED FEATURE NETWORK - A device communicates with feature peers, associated with a network, to obtain information associated with the feature peers, and receives a customer packet. The device also determines, based on the feature peer information, which of the feature peers support a feature associated with the customer packet, and selects, from the determined feature peers, a set of feature peers for the customer packet to traverse. The device further associates, with the customer packet, an additional packet used for delivering the feature associated with the customer packet, and forwards the customer packet and the additional packet to one of the feature peers in the selected set of feature peers. | 02-23-2012 |
20120131601 | ADAPTIVE VIDEO QUALITY SUBSTITUTION - A computing device, in a video content delivery network, intercepts requested video content prior to delivery of the requested video content to a customer premise device of the network, and receives subscription and authentication information of a customer associated with the customer premise device. The computing device receives video content provider information, and validates the requested video content based on the subscription and authentication information and the video content provider information. The computing device receives capability information associated with the customer premise device, and receives bandwidth information associated with the network. The computing device determines a quality of video content, to provide to the customer premise device, based on the customer premise device capability information and the network bandwidth information, and provides, to the customer premise device, video content with the determined quality. | 05-24-2012 |
20120131622 | HYBRID VIDEO SELECTION, DELIVERY, AND CACHING - One or more devices, in a video content delivery network, store video content for one or more customer premise devices in a hierarchical storage, and provide real time video content from the hierarchical storage, via multicast or unicast, to the one or more customer premise devices. The one or more devices also provide non-real time video content from the hierarchical storage to the one or more customer premise devices during idle time periods associated with the network. The one or more devices further establish a license with the one or more customer premise devices to view video content in multiple formats, and establish a license with the one or more customer premise devices to view video content via multiple customer premise devices. | 05-24-2012 |
20120131623 | UNDER-THE-BOTTOM TIME-SHIFTED DELIVERY OF VIDEO CONTENT - One or more devices, in a video content delivery network, provide real time video content to one or more devices located at a customer premise. The one or more devices also provide non-real time video content to at least one of the customer premise devices during idle time periods associated with the network and using lower effort Internet protocol (IP) transport. The non-real time video content may be broadcast, at a time after the idle time periods, by at least one of the customer premise devices. | 05-24-2012 |
20130013771 | SESSION INITIATION PROTOCOL (SIP) OVERLOAD PROTECTION - A device receives a Session Initiation Protocol (SIP) response that includes a load header associated with a downstream Session Initiation Protocol (SIP) device. The device also determines an amount of traffic to send to the downstream Session Initiation Protocol (SIP) device based on the load header. The device further sends the determined amount of traffic to the downstream Session Initiation Protocol (SIP) device. | 01-10-2013 |
20130054493 | ROUTING TRAFFIC AFTER POWER FAILURE - A device, of a first data center, detects a power failure associated with the first data center when the first data center stops receiving power. The device further identifies a second data center for traffic to be processed by the first data center. The device also receives the traffic and routes the traffic to the second data center. | 02-28-2013 |
20130117385 | PERSONAL AREA NETWORK OF DEVICES AND APPLICATIONS - A device receives, by using a first communication technique, a message from a first user device. The device identifies a profile associated with the first user device or a user of the first user device. The device further identifies, in the profile, a relevant rule, based on the message, and a second user device that is designated as a primary user device of the user associated with the profile. By using a second communication technique, the device transmits a request for instructions to the second user device based on the relevant rule, and receives the instructions from the second user device. The instructions specify a third user device selected by the user. The device generates a command based on the relevant rule. The device transmits, by using a third communication technique, the command to the third user device. | 05-09-2013 |
20140105031 | FEATURE PEER NETWORK REPRESENTATIONS AND SCALABLE FEATURE PEER NETWORK MANAGEMENT - A device receives packets of an application flow, and inspects one or more of the packets of the application flow. The device determines, based on the inspection of the one or more packets, a service graph of feature peers for the packets of the application flow. The feature peers are associated with a network and the service graph includes an ordered set of the feature peers. The device creates a representation of the service graph. The representation includes an ordered set of feature elements that represent the feature peers of the service graph. The device provides the representation of the service graph to a controller device, and the controller device configures, based on the representation, the network with the service graph so that the packets of the application flow traverse the service graph. | 04-17-2014 |