Patent application number | Description | Published |
20120246347 | SYSTEMS AND METHODS FOR UTILIZING VARIABLE LENGTH DATA FIELD STORAGE SCHEMES ON PHYSICAL COMMUNICATION MEDIA SEGMENTS - One exemplary embodiment is directed to a segment of physical communication media. The segment comprises a physical communication medium, a connector attached to the physical communication medium, and a storage device configured to store information therein using a self-defining variable length data field scheme (such as a key-length-value triplet). | 09-27-2012 |
20120246362 | DOUBLE-BUFFER INSERTION COUNT STORED IN A DEVICE ATTACHED TO A PHYSICAL LAYER MEDIUM - One exemplary embodiment is directed to a connector assembly. The connector assembly comprises a port having a media interface configured to interface with a storage device interface of a connector. The connector is attached to a segment of physical communication media. The connector also includes a storage device. The connector assembly also comprises a programmable processor configured to execute software that stores information to the storage device using a plurality of redundant storage operations by which a plurality of copies of the information is sequentially stored in the storage device. | 09-27-2012 |
20120246523 | DYNAMICALLY DETECTING A DEFECTIVE CONNECTOR AT A PORT - A connector assembly comprises a plurality of ports. Each of the plurality of ports is configured to receive a respective connector attached to a respective segment of physical communication media. Each of the plurality of ports comprises a respective media interface configured to receive data from a respective storage device attached to the respective connector. The connector assembly is configured to determine if a first connector attached to a first port included in the plurality of ports is defective by determining if a signal level received on the respective media interface associated with the first port has stabilized after a first predetermined amount of time has elapsed since the first connector was connected to the first port. If the signal level has not stabilized after the first predetermined amount of time has elapsed since the first connector was connected to the first port, the first connector is considered defective. | 09-27-2012 |
20130021899 | M-PAIR MODE PROTECTION SWITCHING - A communication comprises a plurality of digital subscriber line (DSL) links, a first node having at least one application port configured for an elastic service and a plurality of DSL ports, and a second node having at least one application port configured for an elastic service and a plurality of DSL ports. Each of the first and second nodes is configured to interleave data received over the at least one application port across the plurality of DSL ports, each DSL port allocated a set of DSL timeslots for transport of the data received over the at least one application port. When a failure is detected on one of the DSL links, each of the first and second nodes is configured to interleave the data received over the at least one application port across the remaining DSL ports not connected to the failed DSL link without adjusting the set of DSL timeslots allocated to each of the remaining DSL ports for transport of the data from the at least one application port. | 01-24-2013 |
20130022094 | N+N PROTECTION SWITCHING - A communication system comprises a plurality of DSL links comprising a first group and second group of DSL links, each group comprising more than one DSL link. The communication system also comprises a first node and a second node each having at least one application port and a plurality of DSL ports. Each DSL port is coupled to a respective one of the DSL links such that the first and second nodes are communicatively coupled via the DSL links. Each of the first and second nodes is configured to interleave a first copy of data received over the respective application port across the first group and to interleave a second copy of the data across the second group. When a failure is detected on a DSL link in the first group, each of the first and second nodes is configured to switch from the first group to the second group. | 01-24-2013 |
20130054725 | RATE ADAPTIVE AUTO-NEGOTIATION - A method to reduce link-up time between nodes in a communication system is provided. The method includes determining a node in the communication system is in a HANDSHAKE state; randomly configuring the node in one of a master mode and a slave mode based on a determination that the node is in the HANDSHAKE state; determining if the node is in a LINK-UP state with a selected node in the communication system based on the random configuring of the node; and randomly re-configuring the node in one of the master mode and the slave mode based on a negative determination that the node is in the LINK-UP state with the selected node. | 02-28-2013 |
20140219656 | SYSTEMS AND METHODS FOR ASSOCIATING LOCATION INFORMATION WITH A COMMUNICATION SUB-ASSEMBLY HOUSED WITHIN A COMMUNICATION ASSEMBLY - An exemplary optical distribution frame includes a frame structure defining multiple positions into which multiple chassis can be inserted and a frame controller unit attached to the frame structure. The frame structure includes a frame controller and a switch communicatively coupled to the frame controller, wherein the switch includes a multiple ports. The frame structure including multiple cables, each cable being attached to a respective one of the ports of the switch and routed and attached to the optical distribution frame so that each cable can be attached to a chassis inserted into a predetermined one of the positions in the optical distribution frame, wherein the frame controller is configured to communicate port mapping information to a management entity that is communicatively coupled to the frame controller for use by the management entity in associating location information with a chassis inserted into the optical distribution frame. | 08-07-2014 |
20150030323 | SYSTEMS AND METHODS FOR DETECTING COMPONENT ROTATION WITHIN A COMMUNICATION ASSEMBLY - Systems and methods for detecting component rotation within a communication assembly are provided. In certain embodiments, a system includes a module; an adapter block that includes multiple front ports and multiple rear ports configured to receive an optical connector; a managing entity configured to control port identification for the front and rear ports; and a circuit board mounted to the adapter block, wherein the circuit board comprises multiple front contact assemblies and multiple rear contact assemblies, wherein each front port is associated with a front contact assembly and each rear port is associated with a rear contact assembly, wherein when a rear contact assembly is electrically coupled to a connector, the connector generates an event that is sent to the managing entity, whereupon the managing entity remaps the port identification for the front and rear ports. | 01-29-2015 |