Patent application number | Description | Published |
20100246582 | Subscriber Access Network Achitecture - A subscriber network architecture includes a packet processing node that communicates with a network backbone and with a plurality of access nodes. The access nodes also communicate with a plurality of subscriber devices. The packet processing node controls Quality of Service (QoS) levels for the subscriber devices, routes user data to subscriber devices based on downstream communication channels of the access nodes and QoS levels, and receives data from subscriber devices (via the access nodes) for forwarding across the network backbone. | 09-30-2010 |
20100254386 | ACCESS NETWORK ARCHITECTURE HAVING DISSIMILAR ACCESS SUB-NETWORKS - A subscriber network architecture includes a packet processing node that communicates with a network backbone and with a plurality of access nodes. The access nodes communicate with a plurality of user devices. The packet processing node controls Quality of Service (QoS) levels for the subscriber devices, routes user data to devices via the access nodes and receives data from devices via the access nodes for forwarding across the network backbone. | 10-07-2010 |
20100299713 | Distributed Network Performance Monitoring - A probe is configured to monitor one or more communication parameters on one or more downstream frequency channels carried on a communication medium of an access network. Results of repeated monitoring are stored over a predetermined period. At the conclusion of the monitoring period, data reports reflecting the stored results are transmitted in upstream frequency channels carried on the same medium. The probe can also be configured to send immediate messages if a parameter exceeds predefined limits and can store a plurality of monitoring programs and can be reprogrammed remotely. The probe can be contained within a cable tap if the medium is, e.g., a coaxial cable. Numerous probes can be deployed throughout an access network so as to provide monitoring data from each of many locations over a prolonged period. | 11-25-2010 |
20110243563 | Binary Modulation Node - Digital information can be carried on the fiber leg of an access network using binary modulation. Binary modulated data received at an O/E node can then be modulated onto an analog waveform using quadrature amplitude modulation or some other technique for modulating an analog waveform and transmitted over, for example, the coaxial leg of the network. The O/E node may also receive an analog signal, over the coaxial leg, modulated to carry upstream data from subscriber devices. The O/E node may demodulate the upstream signal to recover the upstream data and forward that upstream data over the fiber leg using a binary modulated optical signal. | 10-06-2011 |
20120173746 | Quality of Service for Distribution of Content to Network Devices - A gateway device configured to receive IP video content may select and use transmission methods that maintain a certain quality of service for delivering the content. A transmission method may be selected based on a network to which the client device is connected. The gateway device may select a network through which the content is to be delivered depending on a variety of factors including bandwidth availability, client compatibility, quality of service provided and the like. A gateway device may further be configured to convert multicast transmissions to unicast, to provide dynamic storage of content for pre-positioning and other purposes and/or to provide other functions. | 07-05-2012 |
20120243537 | TRANSMISSION OF CONTENT THROUGH ACCESS NETWORK - A computing device in an access network is disclosed that transmits content including data blocks. For each multicast transmission over an access network, the computing device stores the data block of content currently being transmitted. As transmission of the next succeeding data block of content begins, the computing device replaces the previously stored data block of content with the next succeeding data block of content, such that the computing device continually stores and replaces successive data blocks of content in a multicast transmission. When the computing device receives from a new user device a request for the content that the computing device is already transmitting to other user devices, the computing device transmits in unicast to the requesting user device the data block of content currently being transmitted to the other user devices, which the computing device has stored. Following this unicast transmission, the computing device initiates a multicast transmission forwarding the content including the data blocks to the requesting user device. | 09-27-2012 |
20130177023 | Access Network Architecture Having Dissimilar Access Sub-Networks - A subscriber network architecture includes a packet processing node that communicates with a network backbone and with a plurality of access nodes. The access nodes communicate with a plurality of user devices. The packet processing node controls Quality of Service (QoS) levels for the subscriber devices, routes user data to devices via the access nodes and receives data from devices via the access nodes for forwarding across the network backbone. | 07-11-2013 |
20130305302 | DISTRIBUTED NETWORK PERFORMANCE MONITORING - A probe is configured to monitor one or more communication parameters on one or more downstream frequency channels carried on a communication medium of an access network. Results of repeated monitoring are stored over a predetermined period. At the conclusion of the monitoring period, data reports reflecting the stored results are transmitted in upstream frequency channels carried on the same medium. The probe can also be configured to send immediate messages if a parameter exceeds predefined limits and can store a plurality of monitoring programs and can be reprogrammed remotely. The probe can be contained within a cable tap if the medium is, e.g., a coaxial cable. Numerous probes can be deployed throughout an access network so as to provide monitoring data from each of many locations over a prolonged period. | 11-14-2013 |
20140108782 | Reconfigurable Access Network Encryption Architecture - An access platform or other network elements can include multiple line cards configured to encrypt data. The platform and/or each of the line cards may receive encryption management data that conforms to a predefined encryption management data interface. The encryption management data received by a particular line card may be generated by a conditional access system device and converted to conform to the encryption management data interface by an encryption manager. Line cards may alternatively be configured for connection to separate encryption hardware components. Line cards may include a block of field programmable gate arrays or other type of programmable hardware that can be configured to execute an encryption module. | 04-17-2014 |