Patent application number | Description | Published |
20100109787 | METHOD AND APPARATUS FOR OSCILLATOR STABILITY VERIFICATION - A technique for oscillator stability and accuracy verification involves analysis of parameters from a plurality of phase locked loops (PLLs). During testing, each PLL receives a stable reference clock to identify variations in its clock oscillator. Mathematical calculations on the data extracted from each PLL permit identification of clock oscillators having undesirable timing characteristics. Remedial measures may then be implemented to correct problems with any faulty oscillators. | 05-06-2010 |
20100111113 | NETWORK ELEMENT CLOCKING ACCURACY AND STABILITY MONITORING OVER A PACKET-SWITCHED NETWORK - Various exemplary embodiments include a method and related system and monitoring entity including one or more of the following: generating timing information at a master node in a packet-switched network, the timing information specifying a value of a master clock; communicating the timing information from the master node to a plurality of slave nodes over a first plurality of time-division multiplexing (TDM) pseudowires; running a digital phase-locked loop on each slave node to synchronize each slave node to the master clock, wherein each digital phase-locked loop outputs a frequency at which the respective slave node is operating; sending the frequency outputted by each digital phase-locked loop to a monitoring entity over a second plurality of TDM pseudowires; utilizing the outputted frequencies at the monitoring entity to identify all slave nodes that are experiencing timing problems; and implementing a remedial measure for all slave nodes that are experiencing timing problems. | 05-06-2010 |
20100329125 | TIMING OVER PACKET PERFORMANCE - The invention is directed to a method and apparatus for providing improved packet over timing clock synchronization in a packet switching network using Operations, Administration, and Maintenance (OAM) tools to compensate for asymmetrical characteristics between forward and reverse data paths. | 12-30-2010 |
20100329284 | CENTRALIZED NODE CLOCK AUTO RECONFIGURATION - The invention is directed to a method and system for providing centralized automated synchronization clock reconfiguration in packet switched telecommunications networks having network nodes that do not implement Synchronization Status Messaging (SSM) internally. This is especially useful when integrating TDM networks with packet switching network elements having T1 and E1 interfaces. | 12-30-2010 |
20110142077 | NETWORK SYNC PLANNING AND FAILURE SIMULATIONS - The invention is directed to a method and system for providing synchronization clock performance simulation in a timing-over-packet network having a network management system. The system retrieves information from nodes in a network and determines a timing-over-packet topology in a simulated model of the network, and determines clock stability statistics. The system further accepts simulation inputs such as addition or deletion of nodes in the simulated network, or introduction of failures into in the simulated network. The system provides predicted clock stability performance of an existing network under various simulated conditions without requiring modifications or introduction of failures to the existing network which would be useful for network optimization and network planning. | 06-16-2011 |
20110142078 | NETWORK TIMING TOPOLOGY VIA NETWORK MANAGER - The invention is directed to providing a method and system for monitoring and managing from a network management entity, timing-over-packet synchronization performance in a packet switching network having multiple network nodes. The network management entity determines a physical topology and a synchronization topology of the network and monitors synchronization performance by collecting virtual path information. | 06-16-2011 |
20110142079 | NETWORK IMPAIRMENT METRICS FOR TIMING OVER PACKET - The invention is directed to providing a system and method for monitoring a clock synchronization metric in a timing-over-packet system to provide a metric for service-level agreements (SLA), by providing a measure of the stability of the packet transfer delay relative to a representative statistic such as a median or minimum. | 06-16-2011 |
20120173660 | Real-Time Power Cost Feed - A method and apparatus are provided in which a new input to a telecommunications node is provided, namely the real-time cost of power. By providing this information, the node may make more informed decisions as to power cost of various options. For example, the node may alter its operating parameters based on the current cost of power to implement various features. The real-time cost of power is provided to the node by the power provider. The real-time cost of the power is provided to the node using any method, such as by packets through a dedicated interface of the node, packets through a UDP port, or as packets over the electricity grid. The telecommunications node is just one example of end user equipment, and the real-time cost of power may be provided to any power-consuming equipment. | 07-05-2012 |
20120173889 | Power Saving Hardware - A method and apparatus are provided which allow telecommunication equipment to adjust its power consumption. By replicating the functionality of a standard component for processing traffic on a general purpose CPU, traffic can be routed within the equipment to the general purpose CPU for processing instead of the component under certain conditions. If the maximum bandwidth supported by the functionality on the general purpose CPU is less than the maximum bandwidth supported by the component, then the component can be powered down during times of low traffic and the traffic routed to the general purpose CPU instead. Since the maximum bandwidth supported by the functionality on the general purpose CPU is less than the maximum bandwidth supported by the component, less power is necessary to operate the telecommunication equipment and hence cost is reduced. | 07-05-2012 |
20130061072 | POWER SAVING NODE CONTROLLER - A method and apparatus are provided which allow telecommunication equipment to adjust its power consumption. A controller within a telecommunication node uses data to determine whether to reduce the power consumption of components within the node. The data can be real-time data fed to the node or controller, or data read from storage, or both, depending on the particular implementation. Various examples of data and decision-making are given. | 03-07-2013 |
20130329566 | OAM Power Packet - A method and apparatus are provided for determining the power cost of transmitting packets along a specified path. A particular type of OAM packet is transmitted along the path by a first node, and each node along the path adds its power cost of transmitting packets to the OAM packet. Upon reaching the end of the path, the OAM packet is returned to the first node where the power cost of the total path is determined and stored in association with the path. | 12-12-2013 |
20140075217 | Power Saving Network Controller - A method and system are provided for reducing power usage in a telecommunications network. An intelligent network manager within a network operations center determines whether to change the power usage of the network, such as reducing power usage at limes of low network activity. The network operations center is in communication with the network elements of the network, and using the communication channels between the network operations center and the network elements the intelligent network manager instructs various ones of the network elements to operate at a lower capacity or even not at all. | 03-13-2014 |
20140095902 | Power Saving Traffic Management Policies - A method and system are provided for reducing power usage in a telecommunications network. Policies are applied during traffic management of packets, the policies taking into account the power cost of transmitting a packet onward, including over a network. Embodiments are provided in which such policies are used during classification, scheduling, and traffic shaping of packets. | 04-03-2014 |
20140334311 | SYMMETRICAL LATENCY WITH TDM CIRCUIT EMULATED SERVICE - A method and system are provided for allowing time-alignment of teleprotection measurements of power signals. Teleprotection observations are communicated between teleprotection ends through a packet switched network. At each end of a teleprotection segment, a teleprotection device communicates with the network through a router providing CES and located at the edge of the network. Clocks within the two routers are synchronized using IEEE 1588v2 signals. Using this synchronization, accurate one-way latency of data through the network between the two routers in each direction can be determined. The router at the incoming end of the faster path delays playout of packets by the difference between the two one-way latencies, thereby ensuring time-alignment of observations as they are sent from the routers to the teleprotection devices. | 11-13-2014 |
20140348278 | USING MULTIPLE OSCILLATORS ACROSS A SUB-NETWORK FOR IMPROVED HOLDOVER - A method and system are provided for improving maintenance of timing information when a node enters holdover due to a lost connection between a sub-network and a reference clock. Each node within the sub-network sends information concerning the drift of its local oscillator to a single node, and the single node uses this information to determine timing information for the entire sub-network. The single node may also use knowledge of the characteristics of the local oscillators. In this way, drift from the reference clock can be minimized without incurring significant added hardware costs. | 11-27-2014 |