Fujitsu Network Communications, Inc. Patent applications |
Patent application number | Title | Published |
20140325836 | METHOD AND SYSTEM FOR HIGH DENSITY PRESS-FIT CONNECTOR REMOVAL - A system for removing connector pins from a circuit board includes two clamp plates. The system further includes a plurality of pin plates coupled between the clamp plates. The plurality of pin plates are configured to be positioned between adjacent rows of the connector pins. The system also includes an attachment block coupled between the clamp plates. The attachment block is configured with an inset that corresponds with a notch on each of the plurality of pin plates for linking vertical movement of the plurality of pin plates and the attachment block. The system includes a tightening mechanism to tighten the clamp plates and the plurality of pin plates around the connector pins. | 11-06-2014 |
20140325835 | METHOD AND SYSTEM FOR POWER CONNECTOR REMOVAL - A system for removing a plurality of connectors from a circuit board includes two clamp plates. The system includes a divider plate coupled between the two clamp plates. The divider plate is configured to be positioned between adjacent rows of the plurality of connectors. The system further includes a tightening mechanism to tighten the clamp plates and the plurality of pin plates around the plurality of connectors. The system also includes an ejector coupled to the divider plate. The ejector includes a slot that corresponds to a projection on the divider plate, and the divider plate is configured to slide relative to the ejector. | 11-06-2014 |
20140233939 | SYSTEMS AND METHODS OF COMMUNICATING PATH STATUS IN OPTICAL NETWORKS - The present disclosure may include a method to be performed by an electronic device in an optical network. The method may include generating a message associated with a slot and at least one connection identification (ID) corresponding to the slot. The message may include a slot counter region configured to identify the slot, a request region configured to activate a protect path utilizing the slot, a connection ID counter region configured to identify the at least one connection ID, and a status region configured to convey status of the at least one connection ID corresponding to the slot. The method may also include transmitting the message to other electronic devices in the optical network. The disclosure also includes associated systems and apparatuses. | 08-21-2014 |
20140153406 | Systems and Methods of Test Packet Handling - The present disclosure may include a method of handling test packets in an apparatus with a first unit communicatively coupled with a second unit. The method may comprise designating a test packet with type information, the type information indicating whether the test packet is handled by the first unit, the second unit, or either unit. The method additionally may include setting one or more bits of a register of the first unit to select whether the first unit will handle all of the test packets with type information designating either unit. The disclosure further includes associated systems and apparatuses. | 06-05-2014 |
20140133305 | Test Packet Injection System - A networking device of one embodiment includes a processor, a memory, a networking module, and a traffic manager module. The networking module is configured to receive a packet comprising a first header (the first header comprising information identifying a flow), add a second header to the packet (the second header identifying the packet as a test packet), and assign processing rules to the packet based at least on the information identifying the flow. The traffic manager module is configured to remove one of the first header and the second header from the packet and process the packet in accordance with the processing rules. | 05-15-2014 |
20140119743 | OPTICAL QPSK SIGNAL REGENERATION AND AMPLIFICATION - A method for regenerating and amplifying optical signals includes determining a source optical signal, adding a first pump optical signal and a second pump optical signal to the source optical signal to yield an intermediate optical signal, duplicating the intermediate optical signal to yield a first duplicate signal and a second duplicate signal, phase-shifting the first duplicate signal, passing the phase-shifted first duplicate signal and the second duplicate signal bi-directionally through a nonlinear optical element, and performing degenerate phase-sensitive amplification on the phase-shifted first duplicate signal and the second duplicate signal. | 05-01-2014 |
20140013576 | Press Fit Tool Assembly for Circuit Board Connector - In accordance with the present disclosure, a press fit tool assembly may include a press fit tool having a plurality of parallel blades configured such that each row of pins of a male connector may mechanically couple to adjacent blades when the press fit tool is mechanically coupled to the male connector. The press fit tool assembly may also include a press fit tool cap mechanically coupled to the press fit tool, with the press fit tool cap having at least one protrusion configured to be received by a corresponding notch of the male connector when the male connector is mechanically coupled to the press fit tool. | 01-16-2014 |
20130272702 | OPTICAL SIGNAL REGENERATION AND AMPLIFICATION OF M-PSK AND M-QAM MODULATION FORMATS USING RECONFIGURABLE WAVELENGTH SELECTIVE PROCESSORS AND PHASE-SENSITIVE AMPLIFIERS - A method for regenerating optical signal includes determining a source optical signal to be regenerated, adding a first pump optical signal and a second pump optical signal to the source optical signal to yield an intermediate optical signal, creating a first conjugate optical signal and a second conjugate optical signal from the intermediate optical signal, and performing degenerate phase-sensitive amplification utilizing the first conjugate optical signal, the second conjugate optical signal and the source optical signal to yield an output optical signal. The source optical signal is modulated with a multilevel modulation format. Each conjugate optical signal has a phase that is a conjugate of a multiple of the phase of the source optical signal. | 10-17-2013 |
20130148512 | DISTRIBUTED CONTROL PLANE FOR LINK AGGREGATION - In accordance with embodiments of the disclosure, a method may include communicating, via an inter-card communication channel, local link status information regarding at least one local physical port resident on a first network interface, wherein the at least one local physical port is a member port of a link aggregation group, to one or more other network interfaces, other than the first network interface, having member ports of the link aggregation group. The method may also include receiving, via the inter-card communications channel, non-local link status information regarding at least one non-local physical port resident on the one or more other network interfaces, wherein the at least one non-local physical port is a member port of the link aggregation group. The method may further include designating a link status of the at least one local physical port based on the local link status information and the non-local link status information. | 06-13-2013 |
20130128774 | SYSTEM AND METHOD FOR DISTRIBUTED INTERNET GROUP MANAGEMENT PROTOCOL PROCESSING - A method may include receiving, at a network interface of a first network element, an Internet Group Management Protocol (IGMP) message from a second network element. The method may also include updating first multicast group data associated with the network interface based on the received IGMP message, the first multicast group data including one or more entries setting forth a multicast group and one or more other network elements which are members of the multicast group. The method may additionally include determining whether the second network element is the sole member of its multicast group based on the IGMP message and the first multicast group data. The method may further include forwarding the IGMP message to a switching element of the first network element in response to determining that the second network element is the sole member of its multicast group, the switching element communicatively coupled to the network interface. | 05-23-2013 |
20130090143 | SYSTEM AND METHOD FOR ENHANCING CELL-EDGE PERFORMANCE IN A WIRELESS COMMUNICATION NETWORK - A method may include scheduling for the downlink control channel, by a first base station during a partial loading sub-frame, at least a first group of wireless communication devices present in the first cell, the first group of wireless communication devices comprising wireless communication devices determined by the first base station to be near an edge of the first cell. The method may additionally include scheduling for the downlink control channel, by the first base station during a normal loading sub-frame, at least one other group of wireless communication devices present in the first cell other than wireless communication devices in the first group of wireless communication devices, the at least one other group of wireless communication devices determined by the first base station to be in greater proximity to the first case station than wireless communication devices in the first class. | 04-11-2013 |
20130077974 | SYSTEM AND METHOD FOR IDENTIFYING A TARGET SIGNAL IN AN OPTICAL TRANSPORT NETWORK FRAME STRUCTURE - In accordance with embodiments of the present disclosure, a method for identifying a target signal in an optical transport network frame structure may be provided. The method may include determining an Access Identifier (AID) for the target signal. The method may also include determining at least one attribute for the target signal. The at least one attribute may define at least one of an Optical Transport Network (OTN) multiplexing structure associated with the target signal and one or more attributes associated with one or a higher order or an intermediate higher order optical data unit entity for a supporting entity of a lower order optical data unit associated with the target signal. The method may further include identifying the target signal based on the AID and the at least one attribute. | 03-28-2013 |
20130077962 | METHODS AND SYSTEMS FOR BLOCK ALIGNMENT IN A COMMUNICATION SYSTEM - A method may include receiving a stream of datagrams, the datagrams having a first bit length. The method may also include selecting a block of bits from consecutively-received datagrams, the block having a second bit length greater than the first bit length. The method may additionally include determining whether a particular data field is present at a particular bit position within the block. The method may further include outputting the block as a valid block in response to determining that the particular data field is present at the particular bit position. The method may additionally include, in response to determining that the particular data field is not present at the particular bit position: discarding a received datagram from the stream of datagrams; and repeating the receiving, selecting, determining, and discarding steps until a determination is made that the particular data field is present at the particular bit position. | 03-28-2013 |
20130070645 | ADDRESS TABLE FLUSHING IN DISTRIBUTED SWITCHING SYSTEMS - Methods and systems for improved address table flushing in distributed switching systems may be provided. In accordance with embodiments of the disclosure, a switch may include a plurality of line cards and a processor. Each line card may including a table of addresses. The processor may be configured to, in response to receipt of a plurality of simultaneous requests, each request a request to flush addresses associated with a particular flooding domain present on the switch, perform flushing of addresses based on an aggregate number of address entries for each particular flooding domain associated with the requests. | 03-21-2013 |
20130051243 | SYSTEMS AND METHODS FOR IMPLEMENTING SERVICE OPERATION, ADMINISTRATION, AND MANAGEMENT FOR HAIRPINNED ETHERNET SERVICES - In accordance with embodiments of the present disclosure, a method may include designating one of at least one maintenance point associated with a physical port of a line card as a primary maintenance point, the primary maintenance point comprising either a UP-Maintenance Entity Group End Point (UP-MEP) or one Maintenance Entity Group Intermediate Point (MIP). The method may also include configuring the line card such that the line card stores source addresses of Service Operation, Administration, and Management (SOAM) frames communicated by the primary maintenance point. The method may further include configuring the line card such that the line card does not store source addresses of Service Operation, Administration, and Management frames communicated by maintenance points associated with the physical port other than the primary maintenance point. | 02-28-2013 |
20130028072 | METHOD AND SYSTEM FOR MANAGEMENT OF FLOOD TRAFFIC OVER MULTIPLE 0:N LINK AGGREGATION GROUPS - In accordance with embodiments of the present disclosure, a method and system may include receiving a plurality of packets comprising flood traffic of a bridged VLAN domain at an ingress line card port. The system and method may further include splitting the packets into multiple internal streams and forwarding the packets associated with the internal streams to a switch fabric. The system and method may further include forwarding each packet associated with a particular internal stream to one or more egress line cards associated with the internal stream. The system and method may further include mapping each internal stream to a single egress port of the egress line card, the single egress port comprising one of a plurality of egress ports associated with a LAG. The system and method may further include recovery from a port failure. | 01-31-2013 |
20130022349 | SYSTEMS AND METHODS FOR PROTECTION OF ADAPTATION LAYER IN A COMMUNICATION NETWORK - A method may include: (i) provisioning a first network-side interface of a first plug-in unit and a second network-side interface of a second plug-in unit as members of a network-side protection group, the first plug-in unit and the second plug-in unit integral to an adaptation layer network element; (ii) provisioning a first client-side interface of the first plug-in unit and a second client-side interface of the second plug-in unit as members of a client-side protection group; (iii) designating one of the first and second network-side interface as an active network-side interface of the network-side protection group; and (iv) designating one of the first second client-side interface as an active client-side interface of the client-side protection group, such that traffic ingressing on the active network-side interface may egress on the active client-side interface and traffic ingressing on the active client-side interface may egress on the active network-side interface. | 01-24-2013 |
20130003539 | SYSTEM AND METHOD FOR CONFIGURATION ADMISSION CONTROL OF SERVICE INSTANCES - A method for configuring admission control of service instances in a network element may include: (i) reading a pre-determined maximum service-idle utilization of a processor approximately equal to maximum utilization of the processor in the absence of services executing on the processor; (ii) reading, for each particular service instance of a desired configuration of service instances, a pre-determined maximum utilization of the processor associated with the particular service instance; (iii) calculating an aggregate maximum utilization for the desired configuration, based on the pre-determined maximum service-idle utilization and the pre-determined maximum utilizations for each of the particular service instances; (iv) determining whether the aggregate maximum utilization is greater than a threshold maximum utilization for the processor; (v) allowing or denying the desired configuration based on the determination. | 01-03-2013 |
20130003535 | SYSTEMS AND METHODS FOR DISTRIBUTED SERVICE PROTECTION ACROSS PLUG-IN UNITS - A method may include provisioning: a first flow from a client-side port to a network-side port of the plug-in unit; a second flow from the network-side port to the client-side port; a third flow from the network-side port to a mate link configured to interface with a fourth flow from the mate link to a second client-side port of the second plug-in unit; a fifth flow from the mate link to the network-side port configured to interface with a sixth flow from the second client-side port to the mate link; a seventh flow from the client-side port to the mate link configured to interface with an eighth flow from the mate link to a second network-side port of the second plug-in unit; and a ninth flow from the mate link to the client-side port configured to interface with a tenth flow from the second network-side port to the mate link. | 01-03-2013 |
20130003528 | JOINT NEAR-END AND FAR-END STATE MACHINE FOR SERVICE PROTECTION NETWORKS - In one embodiment, a method for telecommunications includes determining the operational state of a first network switch, determining the operational state of a second network switch, determining the existence of an actionable condition, accessing information on the first switch, and changing the operational state of the first switch. The second network switch is coupled to the first network switch by a protected path. Determining the actionable condition and changing the operational state use references to the operational state of the first network switch, the operational state of the second network switch, and the actionable condition. | 01-03-2013 |
20120327768 | System and Method for Dynamic Rate Limiting and Shaping of Traffic Based on Available Bandwidth - A method may include monitoring available aggregate bandwidth of a network element and determining if the available aggregate bandwidth is sufficient to communicate traffic at a rate equal to an aggregate sum of committed information rates for a plurality of classes of traffic. If the available aggregate bandwidth is sufficient to communicate traffic at the rate equal to the aggregate sum of committed information rates for a plurality of classes of traffic, traffic may be communicated for each of the plurality of classes in accordance with the respective committed information rate for each class. Otherwise, traffic may be communicated for each of the plurality of classes in an amount proportional to the respective committed information rate for a particular class and the available aggregate bandwidth. | 12-27-2012 |
20120320930 | MAC ADDRESS TABLE COLLECTION IN DISTRIBUTED SWITCHING SYSTEMS - In accordance with embodiments of the present disclosure, a switch may include a processor and a plurality of line cards, each line card including a table of addresses. The processor may be configured to: (i) read, from a first line card of the plurality of line cards, addresses relating to all flooding domains present on the first line card; (ii) store the addresses read from the first line card on a memory accessible to the processor; (iii) determine a second line card of the plurality of line cards, the second line card having the presence of at least one flooding domain not present on the first line card; (iv) read, from the second line card, addresses relating to all flooding domains present on the second line card; and (v) store the addresses read from the second line card on the memory. | 12-20-2012 |
20120315030 | METHOD AND SYSTEM FOR REDUCING TRAFFIC DISTURBANCE IN A COMMUNICATION NETWORK CAUSED BY INTERMITTENT FAILURE - A method may include: (i) in response to clearing of a fault on a working path of a protection switching group to which a first network element is interfaced: (a) transitioning, by the first network element, its state to a first state in which a protection path of the protection switching group is active; and (b) initiating, by the first network element, a wait to restore timer, the wait to restore timer having a duration such that upon expiration of the timer, the first network element is configured to switch the working path to active; and (ii) in response to receiving a message from a second network element interfaced to the protection switching group indicating that a failure has occurred on the working path: (a) maintaining, by the first network element, its state in the first state; and (b) continuing, by the first network element, the wait to restore timer. | 12-13-2012 |
20120281525 | METHOD AND SYSTEM FOR PRIORITY BASED (1:1)n ETHERNET PROTECTION - A method and system for priority based (1:1) | 11-08-2012 |
20120254672 | Method and System for SOAM Flow Switching - According to one embodiment, a method may include generating a first plurality of Service Operation, Administration, and Management (SOAM) flows intended for a working port and a second plurality of SOAM flows intended for a protection port, wherein the working port and the protection port form a link aggregation group, determining whether each of the working port and the protection port is an active port or an inactive port, dropping all of the first plurality of SOAM flows if the working port is the inactive port, communicating all of the first plurality of SOAM flows to the working port if the working port is the active port, dropping all of the second plurality of SOAM flows if the protection port is the inactive port, and communicating all of the second plurality of SOAM flows to the protection port if the protection port is the active port. | 10-04-2012 |
20120254397 | Method and System for Frame Discard on Switchover of Traffic Manager Resources - In accordance with some embodiments of the present disclosure, a method may include receiving a plurality of frames in a flow from a plurality of traffic managers, determining whether a traffic manager from which a frame in the flow was sent is a primary traffic manager for the flow or a secondary traffic manager for the flow based on a class marker for the frame, switching the frame if the frame is from the primary traffic manager for the flow, and discarding the frame if the frame is from the secondary traffic manager for the flow. | 10-04-2012 |
20120250508 | Method and System for Protection Group Switching - According to one embodiment, a method may include receiving a plurality of flows, the plurality of flows comprising a working group of flows received via a working path and a protection group of flows received via a protection path, marking each flow in the working group with a first class marker, marking each flow in the protection group with a second class marker, determining whether each of the working group and the protection group is an active group or an inactive group, determining whether each of the plurality of flows is in the active group or in the inactive group based on whether each of the plurality of flows is marked with the first class marker or the second class marker, dropping each flow in the inactive group, and passing each flow in the active group. | 10-04-2012 |
20120250505 | Method and System for Writing to a VLAN Tag - According to one embodiment, a method may include writing a congestion forward indicator (CFI) bit of an outer virtual local area network (VLAN) tag in an Ethernet frame to one of a first setting or a second setting, reading the CFI bit of the outer VLAN tag at a switching element, copying priority (PRI) bits of the outer | 10-04-2012 |
20120250502 | Method and System for Egress Policy Indications - According to one embodiment, a method may include assigning one egress profile identifier out of a plurality of egress profile identifiers to an Ethernet frame based at least on an egress connection identifier (eXid) tag of the Ethernet frame at a traffic manager, receiving the Ethernet frame at a switching element from the traffic manager, receiving metadata at the switching element from the traffic manager, the metadata comprising the assigned egress profile identifier, an internal class of service marker, and an internal congestion marker, and mapping the internal class of service marker and the internal congestion marker to a priority marker and an external congestion marker in the Ethernet frame based on the egress profile identifier. | 10-04-2012 |
20120237206 | SYSTEM AND METHOD FOR REDUCING INTERFERENCE OF A POLARIZATION MULTIPLEXED SIGNAL - In accordance with the present disclosure, disadvantages and problems associated with polarization dependent effects of a polarization multiplexed optical signal may be reduced through polarization scrambling. In accordance with an embodiment of the present disclosure a method for detecting polarization scrambling of a polarization multiplexed optical signal comprises receiving a polarization multiplexed optical signal associated with an optical network. The polarization multiplexed optical signal including a scrambled polarization orientation, the polarization orientation scrambled according to a scrambling frequency. The method further comprising receiving a polarization signal indicating the polarization scrambling of the received optical signal. The method additionally comprises descrambling the optical signal according to the polarization scrambling as indicated by the polarization signal. | 09-20-2012 |
20120195190 | METHOD AND SYSTEM FOR SOLVING COMMUNICATION FAILURE AND TRAFFIC LOSS IN SERVICE PROTECTION NETWORKS - A method for solving communication failure includes transmitting user traffic over an automatic protection switching (“APS”) connection between a near network node and a far network node, determining that a protect path on the APS connection has failed, sending a message to the far network node that the protect path has failed, and switching user traffic to the working path at the near network node. | 08-02-2012 |
20120195186 | METHOD AND SYSTEM FOR PREVENTING TRAFFIC LOSS CAUSED BY WAIT-TO-RESTORE MECHANISMS IN SERVICE PROTECTION NETWORKS - A method for preventing traffic loss includes transmitting user traffic over an automatic protection switching (“APS”) connection with revertive operation between a first switch and a second switch, determining that the working path on the APS connection has failed, moving user traffic to the protect path of the APS connection, and initiating a wait-to-restore mode including a wait-to-restore time period associated with the first switch. The method also includes, upon termination of the wait-to-restore time period of the first switch, maintaining traffic on the protect path until a message designating the working path is received on the protect path. The method further includes, upon receiving a message designating the working path, switching user traffic to the working path. The APS connection includes the protect path and the working path. | 08-02-2012 |
20120155485 | EFFICIENT SPACE UTILIZATION OF DISTRIBUTED MAC ADDRESS TABLES IN ETHERNET SWITCHES - A method for networked communications includes receiving, on an inbound port, a frame to be forwarded, mapping the received frame to a flooding domain, determining an inbound port through which a frame is received, wherein the plurality of ports includes the inbound port, determining a destination address of the received frame, and determining one or more of the plurality of ports through which the received frame is to be forwarded. If the line card contains a port that is part of the flooding domain, the method includes populating a forwarding table associated with the line card with information regarding the received frame and information regarding the flooding domain. If the line card contains no ports that are part of the flooding domain, the method includes populating no forwarding tables associated with the line card with information regarding the received frame and information regarding the flooding domain. | 06-21-2012 |
20120147743 | DYNAMIC CONNECTION ADMISSION CONTROL TO ENFORCE SERVICE LEVEL AGREEMENTS IN MULTICAST NETWORKS - A method for networked communications includes determining a group identifier associated with a received request for multicast data, determining an available upstream bandwidth and an available downstream bandwidth, adding an entry for the identified group into a multicast forwarding table, allocating bandwidth from the available upstream bandwidth and available downstream bandwidth, the allocated bandwidth corresponding to bandwidth required by the requested multicast data, and forwarding the received request to an upstream network destination. The method includes, if no response is received in response to the received request within a designated timeout period, removing the entry for the identified group in the multicast forwarding table, and restoring the allocated bandwidth to the available upstream bandwidth and available downstream bandwidth. | 06-14-2012 |
20120102162 | DYNAMIC BANDWIDTH ADJUSTMENT FOR MULTIPLE SERVICE SUPPORT - A system and method are provided for dynamically modifying a first bandwidth profile assigned to end user | 04-26-2012 |
20120093152 | Method and System for Communicating Multicast Traffic Over Protected Paths - In accordance with embodiments of the present disclosure, a method is provided for communicating multicast traffic. The method may include in response to receipt of multicast control traffic at a network element to be communicated to a protection switching group, communicating the multicast control traffic to each of a working path and a protection path of the protection switching group. The method may also include in response to receipt of multicast control traffic via either of the working path and the protection path, processing the multicast control traffic as if the multicast control traffic was received via both the working path and the protection path. | 04-19-2012 |
20110280567 | IDENTIFYING FAULT LOCATIONS IN A NETWORK - Systems and methods for identifying a fault location in an optical network are disclosed. In accordance with one embodiment of the present disclosure, a method for identifying a fault location in an optical network comprises monitoring, by a network element, an eastward optical path and a westward optical path for faults. The method further comprises transmitting, by the network element, a first data packet along the eastward path and a second data packet along the westward path. The first and second data packets comprise an eastward fault indicator and a westward fault indicator comprising information associated with any eastward or westward faults occurring on the eastward or westward paths. The fault indicators indicate the existence of an eastward or westward fault and the network element that detected the fault. | 11-17-2011 |
20110280248 | Hierarchical Isolated Learning and Flooding for Metro Ethernet Bridging Domains - In one embodiment, a switch includes a processor coupled to a memory, one or more forwarding tables residing within the memory, and one or more ports. The one or more ports are associated with a plurality of virtual local area networks. The one or more ports are associated with a plurality of bridge domains. Each of the bridge domains is associated with one of the forwarding tables, and each of the forwarding tables is associated with one of the bridge domains. The processor is configured to assign a first tag to a received packet, the first tag comprising an identification of an active bridge domain, assign a second tag to the received packet, look up the destination address of the received packet in one of the forwarding tables, and if the destination address is not found in the forwarding table, and selectively flood the one or more ports of the active bridge domain with a copy of the received packet. The active bridge domain includes one of the plurality of bridge domains. The active bridge domain is associated with the ingress port of the received packet. The second tag includes an identification of one of the plurality of virtual local area networks. | 11-17-2011 |
20110249673 | SOFTWARE-ASSISTED VLAN AGING TIMER SCHEME FOR DISTRIBUTED SWITCHING SYSTEMS - A network processing unit includes a first table, a forwarding table, and a processor. The first table includes a first entry for a network, including a network aging, which includes the network processing unit. The forwarding table includes a second entry associated with a network entity which includes an indication of whether network traffic associated with the entity has been encountered in the current or previous network aging period. The processor is configured to receive an indication from a hardware timer that a hardware aging cycle has ended, and then determine whether the network aging period has ended. If so, the processor is configured to determine for a first network entity in the forwarding table whether traffic associated with the entity has been encountered in the current or previous network aging period. If not, then the processor is configured to remove the given first network entity from the forwarding table. | 10-13-2011 |
20110237178 | METHOD AND SYSTEM FOR CPRI CASCADING IN DISTRIBUTED RADIO HEAD ARCHITECTURES - A method of communicating between a base band unit and a plurality of remote radio heads includes the steps of receiving a first signal through an antenna in a first remote radio head, transmitting the first signal to a second remote radio head through a digital radio interface, receiving a second signal through an antenna in the second remote radio head, compensating for a delay accrued in the first signal, adding the first signal and the second signal to obtain a resulting signal, and transmitting the resulting signal to a base band unit through a digital radio interface. | 09-29-2011 |
20110236024 | METHOD AND APPARATUS FOR PICOCELL DISTRIBUTED RADIO HEADS PROVIDING MACROCELL CAPABILITIES - In one embodiment, a system for telecommunications includes a base band unit, a backhaul network, a shared network, a cascaded chain of remote radio heads, and an optical node coupled to the cascaded chain of remote radio heads. The backhaul network is coupled to the base band unit and to the shared network. The cascaded chain includes a first remote radio head coupled to a first set of antennas, a second remote radio head coupled to a second set of antennas. The second remote radio head is coupled to the first remote radio head through the shared network. The cascaded chain of remote radio heads is coupled to the shared network. The second remote radio head is configured to receive signals from the second set of antennas and communicate the signals to the first remote radio head. The first remote radio head is configured to receive signals from the first set of antennas, receive signals from the from the second remote radio head, and transmit the signals to the base band unit. The base band unit, the first remote radio head, and the second remote radio head communicate through a digital radio interface. The optical node is configured to communicate signals between the backhaul network and data subscribers accessing the shared network. | 09-29-2011 |
20110235640 | METHOD AND SYSTEM FOR FORWARDING AND SWITCHING OVER PROTECTED PATHS - In one embodiment, a method for telecommunications includes steps of receiving a first packet through a first port, and determining whether the first packet arrived over a protected path. If the first packet arrived over a protected path, the method also includes the steps of hashing a source address of the first packet, adding a first entry into a forwarding table, and adding a second entry into the forwarding table. The protected path is coupled to at least the first port and a second port. The first entry includes the result of hashing the packet, and an identification of the first port. The second entry includes the result of hashing the packet, and an identification of the second port. | 09-29-2011 |
20110217009 | System for Mounting Optical Modules in an Optical Network - A system for connecting optical modules in an optical network may comprise a printed circuit board, two cages, and two connectors. The printed circuit board may house electronic circuitry and a plurality of electronic components. The printed circuit board may have a component side and a solder side. The two cages may be mounted back-to-back on opposite sides of the printed circuit board, each cage having a connector end and an I/O end. The two connectors may be mounted back-to-back on opposite sides of the printed circuit board. Each of the two cages may be configured to guide an optical module into the respective connector. Each of the two cages may be mounted at an angle from the respective surface of the printed circuit board such that the respective I/O ends of the two cages are farther apart than the respective connector ends of the two cages. | 09-08-2011 |
20110203844 | Composite Conductive Plastic Filler Panel - A filler panel for blocking an unused portion of a communications system. That filler panel may include an electromagnetic shielding base and a base cover removably coupled to the electromagnetic shielding base. The filler panel may also include an air dam composed substantially of low-cost, nonconductive material coupled to either the electromagnetic shielding base or to the base cover through the electromagnetic shielding base. | 08-25-2011 |
20110194562 | Systems and Methods for Communication of Management Traffic Over Link Aggregation Group Interface for a Network Element with Distributed Architecture - According to one embodiment, a network element may include one or more network interfaces and a master control unit communicatively coupled to the one or more network interfaces. The one or more network interfaces may include in the aggregate, a plurality of physical ports configured as member ports of a link aggregation group. The master control unit may be configured to maintain a routing table, such routing table including information regarding which of the plurality of physical ports of the link aggregation group is designated as an active port for management traffic egressing via the link aggregation group, wherein the active port carries a communication channel for the management traffic segregated from carrier traffic, and communicate the routing table to each of the one or more network interfaces. | 08-11-2011 |
20110180315 | Filler Panel for Air Flow Management - A filler panel for an electronics shelf is provided. The electronics shelf includes a plurality of slots each configured to receive an electronic device. The filler panel includes a non-conductive main body that includes a front wall, a back wall, a top wall, a bottom wall and a single side wall. The front wall, back wall, top wall and bottom wall are configured to fill a width of a slot of the electronics shelf. The side wall is configured to extend into a depth of the slot, The filler panel also includes an electromagnetic shielding portion comprising a conductive material that is coupled to the main body. The main body further includes one or more vents positioned in each of the top wall and the bottom wall, the vents configured to allow air flow though the main body. | 07-28-2011 |
20110180314 | Filler Panel with Cable Management Feature - A filler panel for an electronics shelf is provided. The electronics shelf includes a number of slots each configured to receive an electronic device. The filler panel includes a non-conductive main body that includes a front wall, a side wall, and a back wall. The front wall and back wall are configured to fill a width of a slot of the electronics shelf and the side wall is configured to extend into a depth of the slot. The filler panel also includes an electromagnetic shielding portion made of a conductive material and coupled to the main body. Furthermore, the main body includes one or more cable clips each configured to retain one or more cables within the main body. | 07-28-2011 |
20110167119 | Systems and Methods for Processing Heartbeat Messages - According to one embodiment, a method for processing heartbeat messages includes processing heartbeat messages received at a first network interface integral to a first network element from a second network element to determine a first status parameter associated with the second network element. The method may also include processing heartbeat messages received at a second network interface integral to the first network element from the second network element to determine a second status parameter associated with the second network element. The method may further include determining a status of the second network element based on the first status parameter and the second status parameter. | 07-07-2011 |
20110154099 | METHOD AND SYSTEM FOR MASKING DEFECTS WITHIN A NETWORK - A method and system for masking defects within a network are disclosed. In accordance with an embodiment of the present invention, a method for masking defects within a network comprises detecting by a service entity defects within a network. The method further comprises determining a number of detected defects associated with a network component included in the network. The method further comprises generating by the network component a summary alarm if the number of detected defects within the network is greater than a first threshold. | 06-23-2011 |
20110153804 | METHOD AND SYSTEM FOR REPORTING DEFECTS WITHIN A NETWORK - A method and system for reporting defects within a network are disclosed. In accordance with an embodiment of the present invention, a method for reporting defects within a network comprises generating a summary alarm by a network element based on defects detected within a network. The method further comprises receiving at the network element a first request for the detected defects within the network from a network management system in response to generation of the summary alarm. The method further comprises reporting the detected defects by the network element in response to the first request from the network management system. | 06-23-2011 |
20110117915 | METHOD AND SYSTEM FOR DETERMINATION OF WIRELESS DEVICE SPEED VIA CHANNEL QUALITY INDICATOR FADING CHARACTERISTICS - A method for determining the speed of a wireless device includes the steps of receiving channel quality indicator data, determining the fast fading characteristics of the received channel quality indicator data, comparing the fast fading characteristics of the received channel quality indicator data against benchmark channel quality indicator data, and determining the speed of the wireless device based on the comparison. The channel quality indicator data is indicative of the signal quality at a wireless device. The benchmark data includes fast fading characteristics. | 05-19-2011 |
20110103223 | System and Method to Determine Resource Status of End-to-End Path - Determining availability of an end-to-end physical path associated with reserved resources of a tunnel may include determining, for one or more nodes, a resource status for one or more resources integral to each node. Resource status for the integral resources of each node may be recorded in a message. Each node may communicate its associated message to one or more other nodes. At least one particular node of the one or more nodes may receive the messages communicated from the one or more nodes. The at least one particular node may store resource statuses for each of the one or more nodes. Based on an analysis of resource statuses, the at least one particular node may determine an availability of an end-to-end path of reserved resources of a tunnel including one or more of the nodes based on an analysis of resource statuses. | 05-05-2011 |
20110081145 | DEVICE AND METHOD TO ALLOW FOR UNI-DIRECTIONAL TRAFFIC ON LOCAL AREA NETWORKS - A communication network access device is adapted for duplex communication and provides transmit and receive signal paths. A controllable socket is coupled to the transmit and receive signal paths and linked to a control interface for activating/deactivating the control interface. A pluggable module is coupled to the transmit and receive signal paths via the controllable socket in an activated status and to a transmission path carrying uni-directional signals. The module includes a first optical device and a splitter in the transmission path and is coupled to a second optical device via the splitter. The second optical device responds to a portion of uni-directional signals provided by the splitter for placing the communication access device in a link up condition for uni-directional signals provided by the first optical device to the transmission path serving an optical local area network. | 04-07-2011 |
20110080846 | Determining Paths In A Network With Asymmetric Switches - According to particular embodiments, determining paths in a network with asymmetric switches includes receiving a graph representing the network. Each asymmetric switch has defined degree connectivity between one or more pairs of degrees of the asymmetric switch. The graph is transformed to yield a transformed graph that accounts for the asymmetric switches. A routing process is applied to the transformed graph to yield one or more paths through the network. | 04-07-2011 |
20110038267 | System and Method for Monitoring the Connectivity of a Path Between Nodes in a Network - A method and system for determining a path between nodes in a network are disclosed. In accordance with an embodiment of the present disclosure, a system for determining a path between nodes in a network comprises a destination node and a link aggregation group (LAG) that includes a first link and a second link. The system further comprises a source node communicatively coupled to the destination node by the LAG where the source node, the LAG and the destination node form a path. The source node is operable to determine a link availability status for each of the first and second links using a layer-2 protection scheme. The source node is further operable to monitor the path for connectivity based on the link availability status using a layer-3 protection scheme. | 02-17-2011 |
20110004661 | METHODS AND SYSTEMS FOR MANAGING NETWORK ELEMENTS - A system for managing networks includes a gateway capable of receiving a first TARP request from a requesting node and generating a second TARP request based on the first TARP request. The second TARP request includes an NSAP address of the gateway. The gateway is further capable of transmitting the second TARP request to a destination node. The gateway is also capable of receiving a first TARP response from the destination node and generating a second TARP response based on the first TARP response. The second TARP response includes the NSAP address of the gateway. The gateway is further capable of transmitting the second TARP response to the requesting node. | 01-06-2011 |
20100323535 | System and Apparatus for Reducing Crosstalk - An electrical system includes a backplane, a first electrical component, and a second electrical component. The backplane includes a first column of connectors, a second column of connectors, a third column of connectors, and a fourth column of connectors. The backplane also includes a first plurality of conductive paths that couple the connectors in the first column to an alternating sequence of connectors in the third column and the fourth column. Additionally, the backplane includes a second plurality of conductive paths that couple the connectors in the second column to an alternating sequence of connectors in the fourth column and the third column. The first electrical component couples to the backplane through the first column and the second column. The second electrical component couples to the backplane through the third column and the fourth column. | 12-23-2010 |
20100312878 | Providing Ring Protection For Access Networks - According to one embodiment, an apparatus comprises one or more hub interfaces and one or more processors. A hub interface is coupled to an access network element of a ring network comprising a number of access network elements. The ring network comprises a pair of rings: a first ring traveling in a first direction and a second ring traveling in a second direction. The processors perform the following for each access network element: facilitate establishing a pair of point-to-point logical connections to couple a access network element to a hub interface at a corresponding dedicated bandwidth, a first connection traveling along the first ring, a second connection traveling along the second ring; facilitate establishing a pair of tunnels on the pair of point-to-point connections; and utilize the tunnels to protect the ring network. | 12-09-2010 |
20100296396 | Traffic Shaping Via Internal Loopback - A method for traffic shaping includes receiving traffic from one or more clients at one or more ingress ports of forwarding engine of a network node. The method also includes transmitting at least a portion of the traffic through the forwarding engine to one or more first egress ports of the forwarding engine and shaping the traffic transmitted to the egress ports. Furthermore, the method includes looping the shaped traffic internally within the network node back to one or more ingress ports of the forwarding engine. The method further includes transmitting the looped traffic through the forwarding engine to one or more second egress ports (the second egress ports different than the first egress ports) and outputting the shaped traffic from the network node. | 11-25-2010 |
20100288552 | System and Method for Utilizing Plastic Conductive Gaskets - A system and method for shielding electromagnetic radiation includes an apparatus for shielding electromagnetic radiation. The apparatus includes a conductive surface comprised of electrically-conductive plastic. The apparatus further includes a flexible element comprised of electrically-conductive plastic extending from the conductive surface. The element is operable to contact an adjacent surface abutting the flexible element and form a conductive connection with the adjacent surface. When assembled with other components in a housing, the electrically-conductive surface and the flexible element may form a portion of a Faraday shield. | 11-18-2010 |
20100254409 | System and Method for Optimizing Network Bandwidth Usage - A method of optimizing bandwidth usage in a link aggregated network includes identifying available bandwidth on a plurality of data links in a link aggregation group, selecting the data link with the least available bandwidth, and determining whether the available bandwidth of the selected data link is less than a guaranteed bandwidth of an incoming data flow. If the available bandwidth of the selected data link is less than the guaranteed bandwidth of the incoming data flow, the method includes selecting the data link with the next least available bandwidth and repeating the previous steps until the available bandwidth of the selected data link is greater than the guaranteed bandwidth of the incoming data flow. The method further includes assigning the data flow to the data link determined to have an available bandwidth greater than the guaranteed bandwidth of the incoming data flow. | 10-07-2010 |
20100216319 | Protected and Unprotected Interfaces via I/O Panel Choice - A system comprises a backplane configured to receive a first signal and a second signal from a first plug-in unit, and a third signal and a fourth signal from a second plug-in unit, wherein the backplane is further configured to communicate each of the signals to one or more mid-plane connectors. The system further comprises the one or more mid-plane connectors configured to output the first and third signals at a first output as separate signals, and configured to output the second and fourth signals at a second output as separate signals. The system further comprises one or more I/O panels each configured to receive the first and third signals at a first input and to receive the second and fourth signals at a second input. | 08-26-2010 |
20100202117 | Backplane Wiring For An Input-Output Panel Used For Front Or Rear Access - According to one embodiment, an input-output (I-O) panel is transformed. The I-O panel is configured to couple to an array of first midplane connectors of a first shelf configured according to a first format, where the first shelf has rear access. The I-O panel comprises an array of I-O panel connectors and defines an xy-plane. An array of second midplane connectors of a second shelf is transformed to substantially align the second midplane connectors with the I-O panel connectors. The second shelf is configured according to a second format, where the second shelf has front access. The array of second midplane connectors is arranged in columns defining a midplane column axis and rows defining a midplane row axis. | 08-12-2010 |
20100189116 | Routing A Packet Flow In A VLAN - According to one embodiment, routing a packet flow includes routing the packet flow from a sender along a first VLAN to a receiver by applying a first service tag to the packet flow. The first service tag comprises a first VLAN identifier with a first masked portion indicating the first VLAN, where the first masked portion is masked to the receiver. The packet flow is sent to the receiver along the first VLAN. The packet flow is switched to a second VLAN associated with the first VLAN by applying a second service tag to the packet flow. The second service tag comprises a second VLAN identifier with a second masked portion indicating the second VLAN, where the second masked portion is masked to the receiver. The packet flow is sent to the receiver along the second VLAN. | 07-29-2010 |
20100088577 | Multi-Mode Forward Error Correction - According to one embodiment, a system for multi-mode forward error correction comprises a substrate, forward error correction (FEC) modules, and a controller. The FEC modules are disposed outwardly from the substrate. A first FEC module performs forward error correction according to a first FEC scheme, and a second FEC module performs forward error correction according to a second FEC scheme. The controller configures the first FEC module and the second FEC module to convert from an input FEC scheme to an output FEC scheme for a stream. | 04-08-2010 |
20100085687 | Power Distribution System - A back-wiring board that connects to a main circuit board of a power distribution system. The back-wiring board includes a plurality of connectors configured to mechanically secure to a plurality of bus bars. The connectors of the back-wiring board are further configured to receive a voltage signal from the plurality of bus bars and to transmit the voltage signal to the back-wiring board. The back-wiring board also includes a plurality of wire-wrap pins integrated into a surface of the back-wiring board, wherein the wire-wrap pins are configured to receive data input signals. The back-wiring board includes a right-angle connector configured to couple the back-wiring board to the main circuit board. | 04-08-2010 |
20100077460 | System And Method For Securing A Network - A method of securing a telecom network, the operation of the telecom network controlled using a plurality of telecom network commands, includes grouping at least some of the plurality of telecom network commands into a plurality of different task sets. Each task set includes one or more telecom network commands. The method further includes grouping at least some of a plurality of users into a plurality of different user groups. In addition, the method includes each user group to the plurality of task sets. The method also includes allowing the at least one user access to the plurality of telecom network commands based on the association of each user group to the plurality of task sets. | 03-25-2010 |
20100058311 | Providing Code To A Programmable Device - According to one embodiment, providing a bitstream to one or more programmable devices of a service unit card includes receiving the bitstream at a snooper of the service unit card. The snooper determines whether the bitstream is current. If the bitstream is current, the bitstream is loaded onto the programmable devices. If the bitstream is not current, the received bitstream is discarded, and a substitute bitstream is identified. The substitute bitstream is loaded onto the programmable devices. | 03-04-2010 |
20100054153 | Communicating Information Between Core And Edge Network Elements - In particular embodiments, a network element filters information sent to a neighboring network element. In the embodiments, the core network element may determine whether the neighboring network element is an edge network element or a core network element. If the neighboring network element is an edge network element, the core network element may set a filter, remove traffic engineering information according to the filter, and send the remaining information to the neighboring network element. | 03-04-2010 |
20100023613 | Managing Pluggable Modules Of A Network Element - Managing pluggable modules of a network element includes receiving an approved pluggable module list for the network element. A pluggable module is received at the network element, and a component identifier of the pluggable module is determined. If the component identifier is on the approved pluggable module list, the pluggable module is approved for operation with the network element. If the component identifier is not on the approved pluggable module list, the pluggable module is rejected for operation with the network element. | 01-28-2010 |
20090313703 | File-Based Chat System And Method - A method for computer-based chat includes coupling a plurality of clients to at least one chat file residing in a file system. The method also includes appending a first text from at least one of the plurality of clients to the at least one chat file. In addition, the method includes updating the plurality of clients with changes made to the at least one chat file. | 12-17-2009 |
20090279544 | Provisioning Point-To-Multipoint Paths - Establishing a point-to-multipoint path includes establishing a first label switched path from a source to a first destination, where the first label switched path is represented by a first label set comprising first node-label pairs. A second label switched path is established from the source to a second destination, where the second label switched path is represented by a second label set comprising second node-label pairs. One or more of the second node-label pairs are equivalent to one or more of the first node-label pairs. The first label set and the second label set are combined to establish the point-to-multicast path. | 11-12-2009 |
20090276830 | Facilitating Protection Of A Maintenance Entity Group - According to one embodiment, maintenance points of a maintenance entity group are identified. The maintenance points comprise end points and intermediate points. A secure connectivity association set is established for the maintenance points. The following is performed for each frame of a number of frames: determining security data of the secure connectivity association set; placing the security data into a frame; and communicating the frame to a maintenance point. The maintenance point is configured to determine whether a frame is acceptable from the security data of the frame. | 11-05-2009 |
20090136229 | Method and System for Transmitting Information in an Optical Communication System Using Distributed Amplification - A method and system for transmitting information in an optical communication system includes modulating a non-intensity characteristic of an optical carrier signal with a data signal to generate an optical information signal. The optical information signal is transmitted over an optical link. The optical information signal is amplified over a length of the optical link with a co-launched amplification signal traveling in the optical link in a same direction as the optical information signal. | 05-28-2009 |
20090067337 | TESTING A CIRCUIT USING A SHARED BANDWIDTH TEST BUS - According to one embodiment, a method for testing a circuit includes receiving a test access session request, where the test access session request indicates that a test session is to be performed on a circuit path. A reservation message is sent to a test bus, where the reservation message reserves the test bus for the test session. The test bus includes a portion of bandwidth shared among a plurality of network elements. Traffic associated with the circuit path is copied to the test bus. | 03-12-2009 |
20090052445 | System and Method for Synchronizing Packet Forwarding Information - In accordance with the teachings of the present invention, a system and method for synchronizing packet forwarding information is provided. In a particular embodiment, the system includes a control processor configured to implement a control plane to generate first forwarding information and transfer the first forwarding information to an active forwarding table of a network processor. The system also includes a network processor configured to implement a forwarding plane to receive packets and use the first forwarding information in the active forwarding table to forward the received packets to one or more network devices. After the control plane is restarted, the control processor is further configured to use the restarted control plane to generate second forwarding information and incrementally update the first forwarding information in the active forwarding table with the second forwarding information while the network processor's forwarding plane continues to forward traffic. | 02-26-2009 |
20090038148 | Press-Fit Connector Removal Tool - A system for removing connector pins from a backplane comprises at least two clamp plates and a plurality of pin plates coupled between the clamp plates, the pin plates configured to be positioned between adjacent rows of the connector pins. The system further comprises a tightening mechanism to tighten the clamp plates and the pin plates around the connector pins. In some embodiments, the system comprises a frame assembly configured to be positioned over the clamp plates, and configured to pull the clamp plates, the pin plates, and the connector pins off of the circuit board. | 02-12-2009 |