Patent application number | Description | Published |
20080240723 | Systems and methods for chirp control of a dual arm Z-modulator to minimize dispersion effect of fiber plant - The present invention provides systems and methods for chirp control of a dual arm Z-modulator to minimize dispersion in the fiber plant. The chirp control is based upon a real-time control loop based upon performance monitoring data between a transmitter and a receiver. Advantageously, the present invention enables improved performance in high-speed optical systems, and in some cases can eliminate or minimize the need for external dispersion compensation fiber (DCF). | 10-02-2008 |
20090232512 | SYSTEMS AND METHODS FOR CHIRP CONTROL OF A DUAL ARM Z-MODULATOR TO MINIMIZE DISPERSION EFFECT OF FIBER PLANT - The present invention provides systems and methods for chirp control of a dual arm Z-modulator to minimize dispersion in the fiber plant. The chirp control is based upon a real-time control loop based upon performance monitoring data between a transmitter and a receiver. Advantageously, the present invention enables improved performance in high-speed optical systems, and in some cases can eliminate or minimize the need for external dispersion compensation fiber (DCF). | 09-17-2009 |
20110090787 | SPANNING TREE FLOODING BACKBONE SYSTEMS AND METHODS FOR LINK STATE ROUTED NETWORKS - The present disclosure provides systems and methods for a spanning tree topology used as a “flooding backbone” for control messages on a link state routed network. Specifically, control messages are only broadcast on the flooding backbone thereby significantly reducing message flooding. The present disclosure also provides systems and methods for correctly and efficiently reconfiguring/fixing the spanning tree topology in the event of any spanning tree link failures without re-running the spanning tree protocol. | 04-21-2011 |
20110116366 | SYSTEMS AND METHODS FOR AUTOMATICALLY BUILDING AND REPAIRING A SPANNING TREE FLOODING BACKBONE IN LINK STATE ROUTED NETWORKS - The present disclosure provides systems and methods for a spanning tree topology used as a spanning tree flooding topology for messages on a link state routed network. Specifically, messages are only broadcast on the links in the spanning tree flooding topology thereby significantly reducing message flooding. The present disclosure also provides systems and methods for automatically, correctly, and efficiently creating, reconfiguring, and fixing the spanning tree topology in the event of any spanning tree link failures. | 05-19-2011 |
20130100817 | METHOD FOR DISCOVERY AND LOAD BALANCING OF PATH COMPUTATION ELEMENTS BASED ON TRANSPORT PLANE LINK METRICS - A method and system for path computation in a communications network having multiple domains are disclosed. According to one aspect, a method of path computation across multiple domains includes identifying a plurality of border nodes at borders of a plurality of domains, each domain having at least one border node. The method includes providing a path computation element at each of the plurality of border nodes of the domains of the network. The locations of the path computation elements are known to be at the border nodes prior to determining a path in response to a path computation request. | 04-25-2013 |
20130114953 | OPTICAL TRANSPORT NETWORK PORT PROTECTION SYSTEMS AND METHODS USING FLEXIBLE SWITCH CRITERIA - The present disclosure provides Optical Transport Network (OTN) port protection systems and methods using flexible switch criteria. Specifically, the OTN port protection systems and methods provide linear protection in OTN such as 1+1 Protection with Automatic Protection Switching (APS) and/or 1+1 Subnetwork Connection Protection (SNCP) Protection. The OTN Port Protection with flexible switch criteria allows a user to provision a protection application on an OTN Port and select a switch criteria, Section Monitoring, Path Monitoring, or Tandem Connection Monitoring, without considering the provisioning state of an Optical channel Data Unit level k (ODUk) entity. The ODUk entity may either be cross-connected in the LO case or terminated in the HO case. The ODUk entity may be provisioned independently, after the port protection has been established. | 05-09-2013 |
20130208595 | ADAPTIVE ETHERNET FLOW CONTROL SYSTEMS AND METHODS - A network element implemented method includes receiving an Ethernet connection at a first rate, transmitting the Ethernet connection at a second rate, monitoring a buffer fill associated with the Ethernet connection, and periodically transmitting pause frames to a device associated with the Ethernet connection, wherein the pause frames include a determined optimal pause quanta value based on the first rate, the second rate, and the buffer fill. A network element includes a first port receiving an Ethernet connection at a first rate, a second port transmitting the Ethernet connection at a second rate, and monitor circuitry configured to monitor a buffer fill associated with the Ethernet connection and cause the first port to periodically transmit pause frames, wherein the pause frames include a determined optimal pause quanta value based on the first rate, the second rate, and the buffer fill. | 08-15-2013 |
20150365193 | OTN SWITCHING SYSTEMS AND METHODS USING AN SDN CONTROLLER AND MATCH/ACTION RULES - A method and network include receiving a Time Division Multiplexing (TDM) connection; determining information in overhead of the TDM connection; and if match/action rules defined by controller exist for the TDM connection, establishing the TDM connection based on matching an associated rule in the match/action rules. A Software Defined Networking (SDN) controller is configured to receive a request from a node related to a new TDM connection in the network; determine one or more routes in the network for the new TDM connection; determine match/action rules for the one or more routes at associated nodes of the one or more nodes; if the one or more routes include at least two routes, determine a group table at associated nodes of the one or more nodes to distinguish between the at least two routes; and provide the match/action rules and the group table to the associated nodes. | 12-17-2015 |