| Entries |
| Document | Title | Date |
|---|
| 20080279548 | METHOD AND APPARATUS FOR PROCESSING FAULT DEPENDENCY OF DIFFERENT LEVELS OF TANDEM CONNECTION MONITORING - A method for processing fault dependency of different levels of tandem connection monitoring is provided. The method comprises obtaining monitored coverage scopes of the different levels of tandem connection monitoring (TCM); locating a fault section according to an overlapping relationship between monitored coverage scopes of the at least two different levels of TCM at which the warnings are reported and performance degradation degrees of the at least two different levels of TCM, the fault section being located when warnings are reported in at least two different levels of TCM; and outputting location-related information that includes information of the fault section to a user. | 11-13-2008 |
| 20080298799 | GATEWAY DEVICE, OPTICAL NETWORK TERMINAL, AND PASSIVE OPTICAL NETWORK SYSTEM - In a broadband access network, calls can be kept active even when a telephone network fails. A voice gateway function captures callee telephone number information sent from a caller subscriber telephone to the telephone network and, when the telephone network fails, keeps the call active by retaining the connection between the caller and the callee. Furthermore, when the telephone network fails, the operation mode of the voice gateway and all ONTs is switched from an H.248 gateway mode to an SIP softswitch mode, allowing the voice gateway function to relay communication packets between ONTs and new call connections to be made in the broadband access network. | 12-04-2008 |
| 20080304822 | Response to OTUk-BDI for OTN Interfaces to Restore Bidirectional Communications - In an OTN (Optical Transport Network), an OTN interface of a network element may receive a BDI (Backwards Defect Indicator) signal from a far end network element to which OTN frames are being transmitted. A BDI signal indicates the occurrence of a unidirectional failure in the transmission of OTN frames to which the far end network element responds by switching its routing to the network element. The OTN interface generates an AIS (Alarm Indication Signal) for its network element so that the network element switches network communication channels to the far end network element to ensure bidirectional switching upon a unidirectional failure. | 12-11-2008 |
| 20090028548 | Operation and construction method of network using multi-rate interface panel - The present invention provides a network at a low cost with a reduced number of components and simple management among networks anticipated to become more and more complicated, the network being capable of quick pass change upon service addition/change and failure occurrence. Namely, the present invention realizes a network configuration unnecessary for replacement of interface panels upon pass change, by using a multi-rate compatible interface panel capable of freely changing a signal type to be processed, under control of an upper level operation. | 01-29-2009 |
| 20090047012 | OPTICAL BYPASS METHOD AND ARCHITECTURE - This invention pertains to optical fiber transmission networks, and is particularly relevant to transmission of high volume of data and voice traffic among different locations. In particular, the improvement teaches improvements to an optical transport system to allow for efficient and flexible network evolution. | 02-19-2009 |
| 20090087178 | SELF-CONTAINED SECURE VIDEOCONFERENCING CONSOLE - Disclosed is a secure/non-secure bypass switch, including at least one input port for receiving signals; a control module for determining if a secure or a non-secure operating mode is selected; if a non-secure mode is selected, configuring at least one relay to route the signals through at least two fiber optic modems; and if a secure mode is selected, configuring the at least one relay to route the signals through an encryption device. | 04-02-2009 |
| 20090103915 | Protocol-Less All-Optical 1+1 Bidirectional Revertive Linear Protection System - In an optical network a 1+1 bidirectional protection system is presented. Each node across a link has photodiodes to monitor the power of signals received by the node on receiving working and protection optical fibers and also optical switches connected to transmission working and protection optical fibers to modulate signals to its counterpart node across the link. When a node detects a fault in the receiving working optical fiber, not only does the node switch to the receiving protection optical fiber, but it also switches to the transmission protection optical fiber to signal the fault to the node across the link. The optical switches on transmission working and protection optical fibers allow the two nodes across the link to signal each other at a protocol-less or primary protocol level for the link to revert back to its initial state. | 04-23-2009 |
| 20090116833 | OPTICAL WAVELENGTH MULTIPLEXED TRANSMISSION APPARATUS - Each network device holds as a database parameters relating to the size of a factor of signal degradation of the device, and relays the parameters according to a path through which a signal passes. When each network device receives a relayed parameter, it accumulates the parameter of the device to the received parameter value, and transmits the result to the network device at the next stage. The network device on the terminating side of the path estimates the size of the degradation of the signals in the entire path using the received parameter, thereby determining the reachability as to whether or not a signal can be transmitted through the path. | 05-07-2009 |
| 20090148155 | OPTIMIZED CDR APPLICATION FOR VARIABLE DATA RATE SIGNALS IN SFPs FOR JITTER REDUCTION - Systems and methods for conditioning an optical signal are provided for applications which require management of both low and high-data-rates. Upon receipt of a data signal, a determination is made as to whether the data signal is a high or low-data-rate signal. If the data signal is a high-data-rate signal, a clock and data recovery circuit is activated along the data path. If the data signal is a low-data-rate signal, the clock and data recovery circuit is bypassed. When activated, the clock and data recovery circuit conditions the data signal to reduce jitter and other distortion effects which tend to produce larger detrimental effects as data rates increase. | 06-11-2009 |
| 20090257742 | Joint IP/optical layer restoration after a router failure - A method and system for providing joint IP/Optical Layer restoration mechanisms for the IP over Optical Layer architecture, particularly for protecting against router failure within such architecture, includes any one of plural node elements participating in the detection and restoration of the joint IP/Optical Layer architecture upon the failure of a router in one of the nodes. The plural node elements may include, but are not limited to, one of plural routers and an optical cross-connect. | 10-15-2009 |
| 20090285574 | FLEXIBLE SHARED MESH PROTECTION SERVICES FOR INTELLIGENT TDM-BASED OPTICAL TRANSPORT NETWORKS - A system includes one or more active/working circuit groups to transfer information through a protection domain, the protection domain defined by a plurality of network devices and a plurality of links connecting the network devices between a start point and an end point; and a protection circuit group through the protection domain, the protection circuit group being disjoint from the one or more active/working circuit groups to provide shared protection for the one or more active/working circuit groups, where the protection circuit group is comprised of an individual protection circuit and where a capacity of the protection circuit group is dynamically adjusted based on a capacity of the one or more active/working circuit groups. | 11-19-2009 |
| 20090324215 | ACTIVE/STANDBY SWITCHOVER METHOD AND DEVICE OF ASYNCHRONOUS BACKPLANE IN TRANSPORT NETWORK - An active/standby switchover device and an active/standby switchover method of an asynchronous backplane in a transport network are provided. A local oscillator clock is adopted to obtain a clock of a working path, so as to replace the clock of the working path tracked in a phase-locked loop mode. An active/standby switchover operation is realized by using the local oscillator clock, so that the implementation cost is greatly reduced, and the hysteresis problem of the phase-locked loop tracking clock during the active/standby clock switchover is eliminated, thereby effectively achieving the lossless switchover of services. | 12-31-2009 |
| 20100027989 | Network Protection Switching Mechanisms and Methods of Network Protection - A network protection switching mechanism comprises a plurality of optical switches located at a plurality of nodes; a plurality of optical communication paths between said switches; switch based fault detectors located as part of at least two switches which generate detection results representative of the identification of a fault; switch based controllers located as part of said at least two switches; and internal switch-communication means between said fault detectors and said controllers which facilitate the transmission of detection results from said fault detectors to said controllers; wherein said controllers directly cause switching to an alternative optical communication path dependent upon the receipt of said detection results; whereby autonomous switch based protection without dependence on either inter-switch control communication or higher level network control communication is achieved. | 02-04-2010 |
| 20100034532 | Communications Network - The invention relates to a communications node ( | 02-11-2010 |
| 20100061719 | Utilizing Optical Bypass Links in a Communication Network - Optical By-Pass (OBP) links may be created by adding wavelengths between nodes on the network. The OBP may extend between any pair of nodes on the network. Intermediate nodes on the OBP are transient nodes and simply forward traffic optically. An OBP extends between a pair of nodes and, unlike express links, is created in such a manner that it does not affect the previous allocation of resources on the network. This enables capacity to be added between pairs of nodes on the network to alleviate congestion at a portion of the network, without changing other traffic patterns on the network. This enables inclusion of an OBP to be deterministic and of linear impact on the network. The OBP links may be statically provisioned or created on demand. Optionally, the OBP links may be crated to coincide with PBB-TE tunnels on the network. | 03-11-2010 |
| 20100061720 | Provision of Alternative Communications Paths in a Communications Network - A method of processing data for computing alternative paths in an optical network ( | 03-11-2010 |
| 20100098406 | METHOD AND APPARATUS FOR INTERCONNECTING A PLURALITY OF OPTICAL TRANSDUCERS WITH A WAVELENGTH DIVISION MULTIPLEXED OPTICAL SWITCH - In a WDM optical communication system that includes a plurality of nodes interconnected by communication links, a node is provided that includes a first plurality of transponders each generating and/or receiving an information-bearing optical signal at a different channel wavelength from one another. An optical coupling arrangement, which may include one or more reconfigurable optical switches, transfers the channel wavelengths between a link connected to the node and the first plurality of transponders. The arrangement is adaptable to reconfigure its operational state to selectively direct different ones of the channel wavelengths from the link to different ones of the transponders without disturbing the optical path through the node traversed by any other channel wavelengths. A communications and configuration arrangement is provided, which transfers data identifying the respective channel wavelengths at which the transponders operate from the transponders to the optical coupling arrangement. In response to the transferred data, the communications and configuration arrangement reconfigures the operational state of the optical coupling arrangement. | 04-22-2010 |
| 20100124416 | Transmission apparatus - In a transmission apparatus, unlike in the conventional transmission apparatus, a protection switch is not arranged on the signal path, but a TSI having only the basic function performs the function of the protection switch as a substitute, a processing unit to perform the switching function at a low rate is artificially constructed on a TSI, the switch process of SONET protection type is artificially executed by the TSI, and a signal for controlling the TSI function is further controlled thereby to realize the protection switch function. The logic of switching at the main signal rate in addition to the conventional TSI function is deleted. | 05-20-2010 |
| 20100142940 | OPTICAL COMMUNICATION SYSTEM, OPTICAL RECEIVING TERMINAL, AND OPTICAL SIGNAL FAULT DETECTION METHOD - An optical communication system includes an optical transmission terminal including a first transmitter for transmitting an optical signal, and a second transmitter for transmitting information that indicates the first transmitter transmitting the optical signal; and an optical receiving terminal including an optical receiver for receiving the optical signal and the information transmitted from the first and second transmitter, respectively, a storage device for storing a power value of the optical signal monitored in response to receipt of the information transmitted from the second transmitter, and a fault detector for detecting fault of the optical signal by continuously monitoring a power value of the optical signal received by the optical receiver in comparison with the power value stored in the storage device. | 06-10-2010 |
| 20100166419 | TECHNIQUES FOR PROTECTING PASSIVE OPTICAL NETWORKS - A method for performing a protection in passive optical networks. The method comprises forming a protection maintenance link between an active optical line terminal (OLT) and a standby OLT; forming a synchronization link between the active OLT and the standby OLT; computing a base differential distance value; continuously measuring round trip time (RTT) values by the active OLT using the protection maintenance link; periodically sending at least RTT values calculated by the active OLT to the standby OLT over the synchronization link; and computing, by the standby OLT, a new RTT value based on at least a RTT value measured by the active OLT and a standby differential distance value, when a switch-over action is triggered, thereby allowing the standby OLT to serve optical network units (ONUs) in the PON without performing a ranging process. | 07-01-2010 |
| 20100209099 | Network Restoration Under Link or Node Failure Using Preconfigured Virtual Cycles - The design of telecommunication networks is such that there is provision of end-to-end path protection to multiple demands under a single link or node failure in the networks. Restoration routes are provided on Preconfigured Virtual Cycles (PVC's), where each demand is assigned one restoration route and specific restoration wavelengths on a segment of one cycle. Multiple demands may share restoration wavelengths, and the number of restoration wavelengths may vary among the PVC links. First, a plurality of candidate PVC's are generated where each demand may be assigned to multiple candidates. Assignment of demands with common failure scenarios are allowed, under certain conditions, to the same PVC. Next, a set of PVC's is selected from among the candidates, while minimizing total reserved restoration capacity and ensuring that all demands are protected. Next duplicate assignments are eliminated. Finally, conflicts of wavelength assignments are resolved. The invention focuses primarily on optical networks. | 08-19-2010 |
| 20100232782 | OPTICAL TRANSMISSION DEVICE, OPTICAL TRANSMISSION SYSTEM INCLUDING THE SAME, AND OPTICAL TRANSMISSION METHOD - An optical transmission device includes a wavelength multiplexing/demultiplexing unit, a plurality of transponders, an optical switch unit and a controller. The controller includes a table in which a plurality of items at least including priority order, a transmission label, a receiving label and a receiving label expected value correspond to the respective transponders. And the controller rewrites the transmission label of the transponder corresponding to the client device of the lower priority order than the priority order of the client device connected to the transponder of the irregular input, upon the optical signal provided by the wavelength multiplexing/demultiplexing unit to one of the transponders being irregular, and controls the label-changed transponder for which the transmission label has been rewritten so that the label-changed transponder provides the wavelength multiplexing/demultiplexing unit with the optical signal including the rewritten transmission label. | 09-16-2010 |
| 20100254701 | LINEAR PROTECTION METHOD OF THE OPTICAL NETWORK - The present invention discloses a linear protection method for an optical network, used for protecting a failed service path in the optical network, and the method comprises: setting priorities of services carried on service paths participating in linear protection of the optical network as service priorities; selecting, from the service paths participating in the linear protection, a service path of which the service priority is lower than that of the failed service path as a protection path, and bridge switching the service on the failed service path to the protection path. The present invention implements protection of service paths according to the priority of the service carried on the failed service path, and enhances the security of service paths. | 10-07-2010 |
| 20100266274 | Method, System and Board Apparatus for Implementing Automatic Protection Switching Between Active Board and Standby Board - A method for implementing Automatic Protection Switching (APS) between an active board and a standby board includes detecting Synchronous Digital Hierarchy (SDH) data of main services, wherein the SDH data is received by a working port of the active board from a working line. If the SDH data received by the working port is detected as abnormal, SDH data of main services received by a protection port of the standby board is selected from a protection line, and service processing is performed for the SDH data. | 10-21-2010 |
| 20100290778 | COMMUNICATION APPARATUS, APPARATUS ACTIVATION CONTROL METHOD, COMMUNICATION CONTROL METHOD, AND COMMUNICATION CONTROL PROGRAM - [PROBLEMS] To certainly restore path information to its original status when a trouble occurs on a network. [MEANS FOR SOLVING PROBLEMS] After reactivation, an apparatus control part ( | 11-18-2010 |
| 20100322618 | METHODS, SYSTEMS, AND COMPUTER READABLE MEDIA FOR PROVIDING VIRTUAL 1:N AUTOMATIC PROTECTION SWITCHING (APS) AND DYNAMIC, IN SERVICE CONFIGURATION CHANGE FOR OPTICAL NETWORK INTERFACE EQUIPMENT - The subject matter described herein includes providing virtual 1:N automatic protection switching and dynamic, in service configuration change for optical network interface equipment. According to one aspect of the subject matter described herein, a method for providing virtual 1:N automatic protection switching (APS) for optical network interface equipment is disclosed. The method includes configuring N optical network interface cards (ONICs) as working cards, each working card having sending and receiving optical interfaces, wherein N is an integer greater than 1. A single ONIC is configured as a protection card for providing N optical interfaces for providing redundant interface protection for each of the optical interfaces on the N working cards. In response to detecting a failure of one of the N working cards or a failure of one of the optical interfaces on one of the N working cards, optical networking communications that would have been sent to or received by the failed card are automatically sent and received using a protecting interface on the protection card that is associated with the failed card. | 12-23-2010 |
| 20110064404 | Network Restoration Under Dual Failures Using Path Protecting Preconfigured Cycles - The design of optical telecommunication networks is such that there is provision of end-to-end path restoration to specified demands under up to two links or nodes failures. Restoration routes are provided on Path Protecting Preconfigured Cycles (PP-PCs), where each demand is assigned one or two restoration routes and restoration wavelengths on a segment of one cycle. Splitting of demand across multiple restoration routes is not allowed. All restoration routes and restoration wavelengths are predetermined where multiple demands may share restoration wavelengths without resorting to intermediate switching or wavelength conversions along restoration routes. First, numerous candidate PP-PCs are generated. Assignment of demands with common failure scenarios are allowed, under certain conditions, to the same PP-PC. Next, a set of PP-PCs is selected from among the candidates, while minimizing total reserved restoration wavelengths cost and ensuring that all demands are protected as required. Finally, conflicts of wavelength assignments are resolved. | 03-17-2011 |
| 20110103792 | PASSIVE OPTICAL NETWORK SYSTEM AND OPTICAL LINE TERMINAL - A transmission speed of a protection (backup) line using 1G-OLT unit and 1G-ONU unit is set to be lower than a transmission speed of a working (primary) line using 10G-OLT unit and 10G-ONU unit. A priority and band of each communication service in ONU are preset individually and separately every LLID for a working (primary) line and a protection (backup) line. When bands are allocated to the protection (backup) line, the band allocation is performed so as to secure a minimum number of bands of each communication service. A monitoring controller refers to a predetermined band information table according to an operation state of the working (primary) line or the protection (backup) line with respect to a downstream signal packet. | 05-05-2011 |
| 20110116786 | HOT-SWAPPING IN-LINE OPTICAL AMPLIFIERS IN AN OPTICAL NETWORK - An amplifier node, in an optical network, includes a first switch connected to a working path from which network traffic is received; a second switch connected to the working path to which the network traffic is transmitted; and two amplifiers that interconnect the first switch and the second switch, where the network traffic travels from the first switch to the second switch via a first amplifier. The amplifier node also includes a controller to receive an instruction to switch the network traffic from the first amplifier to a second amplifier that enables the first amplifier to be repaired; send, to the first switch and the second switch, another instruction to switch the network traffic from the first amplifier to the second amplifier; receive an indication that the network traffic is traveling via the second amplifier; and send a notification that the first amplifier can be repaired based on the indication. | 05-19-2011 |
| 20110116787 | Simplified remote interface device and method for determining a failure at an optical fiber link terminated with a remote interface device - The invention relates to a remote interface device ( | 05-19-2011 |
| 20110170856 | Optical transmission device - An optical transmission device includes a first optical output unit including a chip and outputting an optical signal having a predetermined wavelength according to a temperature, a second optical output unit including a chip of which a temperature is controlled independently of the chip of the first optical output unit and outputting an optical signal having a predetermined wavelength according to a temperature, a failure detecting unit detecting a failure of the chip in operation of the first optical output unit, a switching unit switching its operation to the chip of the second optical output unit whose output optical signal has a same wavelength as that of the optical signal of the chip in operation of the first optical output unit when the failure detecting unit detects the failure, and a transmitting unit transmitting the optical signal output from the chip of the second optical output unit. | 07-14-2011 |
| 20110200322 | Flexible Branching Unit and System Including the Same - Fault tolerance may be achieved in a branched optical communication system such that a fault in one optical path may not affect optical signals coupled from a healthy optical path. In general, a flexible branching unit is configured, when adding and dropping channels, to select channels from a healthy path and not from the faulty path (e.g., a trunk path or a branch path) to prevent non-uniform channel loading on the trunk path after the branching unit. In this manner, a fault detected on the trunk path may not affect signals from the branch path and a fault detected on the branch path may not affect signals from the trunk path, thereby providing fault tolerance. A flexible branching unit may also be capable of adjusting the number and selection of channels that are added and dropped at the branching unit. | 08-18-2011 |
| 20110229122 | RESTORATION SCHEME FOR AN OPTICAL NETWORK AND METHOD OF USING SUCH A SCHEME - A method of restoration for an optical network, the network comprising a plurality of nodes ( | 09-22-2011 |
| 20110262128 | MESH RESTORATION IN OPTICAL TRANSPORT NETWORKS - The present disclosure provides mesh restoration systems and methods with Optical Transport Network (OTN) links using a signaling and routing protocol, such as Optical Signaling and Routing Protocol (OSRP), Automatically Switched Optical Network (ASON), Generalized Multi Protocol Label Switching (GMPLS), and the like. The present invention includes an optical node, network, and method using the signaling and routing protocol for OTN lines of differing bandwidth granularities. The present invention utilizes OTN overhead for in-band signaling and may include capability for supporting SONET/SDH lines as well as OTN lines in the same system using the signaling and routing protocol. | 10-27-2011 |
| 20110317994 | METHOD AND SYSTEM FOR AUTOMATIC LANE NEGOTIATION IN AN OPTICAL NETWORK - Systems and methods for distributing signals in an optical network are disclosed. In accordance with one embodiment of the present disclosure a method for distributing signals in an optical network comprises combining input signals into one or more output signals, determining, an availability status of optical lanes for carrying the output signals and distributing the output signals to optical transmitters associated with the optical lanes if the availability status indicates that the optical lanes are available. The method further comprises, transmitting the output signals as optical signals using the optical transmitters associated with the lanes that are available and determining that a previously available optical lane is not available for carrying the output signals, terminating distribution of the output signals to the optical transmitter associated with the lane that is not available and redistributing the output signals to the plurality of transmitters associated with the lanes that are still available. | 12-29-2011 |
| 20110317995 | PASSIVE OPTICAL NETWORK PROTECTION METHOD, SWITCHOVER CONTROL DEVICE, AND PASSIVE OPTICAL NETWORK PROTECTION SYSTEM - The present invention discloses a passive optical network (PON) protection method, a switchover control device, and a PON protection system. In embodiments of the present invention, a protection optical line terminal (OLT) is connected to optical links of at least two working OLTs through the switchover control device; when a working OLT or working optical link fails, the switchover control device replaces the working OLT through the protection optical link, thus ensuring smooth communication. In addition, by using the networking mode of multiple working OLTs and one protection OLT, the embodiments of the present invention greatly saves the networking cost and facilitates the application of the PON technology. | 12-29-2011 |
| 20120076488 | METHOD AND DEVICE FOR REALIZING OPTICAL CHANNEL DATA UNIT SHARED PROTECTION RING - A method and a device for realizing an optical channel data unit (ODU) shared protection ring (SPRing) are disclosed by the present invention. The method includes: A first ODU of a first service transmitted in an optical line is taken as a protection granularity, where the first ODU is an ODUk that is directly multiplexed to the optical line; the first ODU is monitored, and a monitoring result is obtained; when the monitoring result indicates that a failure occurs, a switching is performed through cross of a second ODU of the first service, where the second ODU is an ODUm that is multiplexed to the first ODU, and m is smaller than or equal to k. Through the embodiments of the present invention, a protection switching speed may be accelerated. | 03-29-2012 |
| 20120087650 | SERVICE PROTECTION METHOD AND DEVICE BASED ON AUTOMATIC SWITCHED OPTICAL NETWORK - The present invention discloses a service protection method and device based on an automatic switched optical network (ASON), which are adapted to restoring a service when a fault occurs in the connection of the service. The method comprises: comparing a dynamic restoration lag time of the service with a protection switching lag time of the service; and starting a protection switching process to restore the service if the dynamic restoration lag time is greater than the protection switching lag time; and starting a dynamic re-routing process to restore the service if the protection switching lag time is greater than the dynamic restoration lag time. By the present invention, the reliability of the network is enhanced and the self-healing capacity of the ASON is improved. | 04-12-2012 |
| 20120163796 | DISTRIBUTED ELECTRICAL CROSS DEVICE, AND SYSTEM AND METHOD THEREOF FOR IMPLEMENTING SUB-NETWORK CONNECTION (SNC) CASCADE PROTECTION - The present invention discloses a distributed electrical cross apparatus, and a system and method for the distributed electrical cross apparatus implementing an SNC cascade protection. The apparatus includes a backboard and at least four single-boards integrated with electrical cross units, wherein the single-boards are inserted in the limited number of slots in the backboard, and these single-boards also set line-side service access units, client-side service access units and backboard access units. The present invention has both accessing of line-side services and accessing of client-side services in the same single-board, access and flexible scheduling of various services such as line-side services and client-side services and so on are implemented on the backboard with limited number of slots, and the function of the distributed electrical cross system processing various services is increased in the case of low cost. | 06-28-2012 |
| 20120163797 | Apparatus and method for rerouting multiple traffics - The disclosure discloses an apparatus and method for rerouting multiple traffics. The apparatus includes a path computation unit and a traffic path incorporation unit, the path computation unit forwards a received uniform route computation notification message including multiple pieces of failed traffic connection information to the traffic path incorporation unit, and also forwards a route inquiry request transmitted from the head node of the fault traffic to the traffic path incorporation unit; the traffic path incorporation unit analyzes and detects the failed traffic connection information according to traffic incorporating and route inquiry statistic algorithm, and uniformly obtains and records the recovery route information from the path computation unit; when receiving the route inquiry request forwarded by the path computation unit, the traffic path incorporation unit is further configured to search the record according to the route inquiry request, and return the found corresponding recovery route information to the head node which requests the recovery through the path computation unit. The disclosure uses a incorporating and uniform route inquiry method, the resource loss of the path computation unit is reduced, and the efficiency of link restoration is improved. | 06-28-2012 |
| 20120237199 | OPTICAL NETWORK SYSTEM AND WDM APPARATUS - An optical network system that performs transmission of N:1 protection includes a node that includes transmission-side operating muxponders that multiplex client signals for every M-channel signal bundle and convert multiplexed signals into optical signals having different wavelengths, transmission-side optical couplers that branch the client signals into two channels of operating and redundant, transmission-side optical switches each selecting one channel from redundant signals as a redundant client signal, and a transmission-side redundant muxponder that performs a predetermined transmission-side process according to an accommodation mode set on the redundant client signal and then multiplexes the redundant client signals, converts the multiplexed signal into an optical signal having a wavelength different from that of the operating signal, thereby making the accommodation mode settable for each channel in an independent manner. | 09-20-2012 |
| 20130011132 | HYBRID PACKET-OPTICAL PRIVATE NETWORK SYSTEMS AND METHODS - The present disclosure provides hybrid packet-optical private network systems and methods for a private and dedicated multi-point Ethernet Private Local Area Network (EPLAN). The network systems and methods include a Layer 1 infrastructure service with the inclusion of reserved, dedicated packet switch capacity upon which clients can build their personal, private packet networks. In the systems and methods described herein, packet networking methods are not used to partition the isolated LAN connectivity. Instead, dedicated Ethernet Private LANs (EPLs) are defined between dedicated virtual switching instances (VSIs) that are defined, as necessary, within larger packet-optical switches. Each VSI is partitioned from the remainder of its packet switch fabric as a dedicated, private resource for a specific EPLAN. A packet network is then built by the customer on top of the private EPLAN bandwidth and operated as an isolated, private network with no influence by other carrier's network resources. | 01-10-2013 |
| 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 |
| 20130084062 | HITLESS PROTECTION FOR TRANSMITTING TRAFFIC IN HIGH-SPEED SWITCHING SYSTEM - A system to provide hitless protection includes a primary line card with a synchronous interface, the primary line card processing traffic with cells and encapsulating the traffic into synchronous frames in a predetermined format; and a back-up line card with a synchronous interface, the back-up line card processing the traffic with the cells and encapsulating the traffic into the synchronous frames in the predetermined format, wherein each line card includes a buffer to align the traffic before transmission, wherein the cell information sent by the primary line card is passed to the back-up line card, and wherein the back-up line card follows the received information to send to the destination cell. | 04-04-2013 |
| 20130084063 | HITLESS PROTECTION FOR TRAFFIC RECEIVED FROM 1+1 PROTECTING LINE CARDS IN HIGH-SPEED SWITCHING SYSTEMS - A communication system includes a synchronous interface coupled to a switch fabric; cells for switching; and a 1+1 protection unit with a primary and back-up line cards. | 04-04-2013 |
| 20130089316 | METHOD AND ARRANGEMENTS FOR PROTECTION IN AN OPTICAL NETWORK - Method and arrangement for protecting optical network systems, the arrangement ( | 04-11-2013 |
| 20130089317 | METHOD AND SYSTEM FOR HYBRID MULTI-LAYER MESH RESTORATION IN A COMMUNICATION NETWORK - In accordance with embodiments of the present disclosure, a method may include sorting potential optical layer link failures in a network in an increasing order of failed traffic amount. The method may further include, for each potential optical link failure in increasing order of failed traffic amount: determining the additional higher layer link capacity required on existing higher layer links associated with the potential optical link failure using higher layer restoration of the potential optical link failure; determining the additional optical layer capacity required for restoring the existing higher layer links associated with the potential optical link failure using optical layer restoration; and selecting one of the higher layer and the optical layer as a restoration layer for restoration of the existing higher layer links associated with the potential optical link failure based on the determined additional higher layer link capacity and the determined additional optical layer capacity. | 04-11-2013 |
| 20130089318 | Methods, Systems, and Computer-Readable Media for Providing Notification of a Power Failure - Methods, systems, and computer-readable media provide for notifying an optical line termination (OLT) of a power failure. According to embodiments, a method for notifying an OLT of a power failure is provided. According to the method, a notification of a power failure at an optical network termination (ONT) is received. In response to receiving the notification, power is retrieved from a dedicated power storage unit dedicated to providing power for the transmission of a dying gasp alarm. The dying gasp alarm is transmitted to the OLT utilizing at least a portion of the power from the dedicated power storage unit. The dying gasp alarm notifies the OLT of the power failure. | 04-11-2013 |
| 20130101283 | DATA SYNCHRONIZATION METHOD AND SYSTEM, AND OPTICAL NETWORK UNIT - Embodiments of the present disclosure provide a data synchronization method and system, and an optical network unit. An ONU receives synchronization data that is transmitted by a first OLT through a GEM port corresponding to a predetermined GEM port ID or a logical link corresponding to a predetermined LLID, and stores the synchronization data. When a fault occurs on the first OLT or on a backbone optical fiber connected to the first OLT, the ONU transmits the synchronization data to a second OLT so that the second OLT recovers services according to the synchronization data. | 04-25-2013 |
| 20130121683 | APPARATUS AND METHOD FOR DETERMINING A LOCATION OF FAILURE IN A TRANSMISSION NETWORK - A plurality of transmission devices are communicably coupled to each other in a first transmission network. A first transmission device receives data from a second transmission device, and extracts, from the received data, attribute information including report-destination identification information identifying a third transmission device and routing information identifying a transmission route through which the data has been transmitted to the first transmission device via the second transmission device in the first transmission network. The first transmission device stores the extracted attribute information in a memory, and notifies, upon detecting a failure that has occurred in the first transmission network, the third transmission device of failure information that indicates an occurrence of the failure and includes the route information, based on the report-destination identification information included in the attribute information stored in the memory, through a second transmission network different from the first transmission network. | 05-16-2013 |
| 20130129340 | DUAL OPTICAL ELECTRICAL CONVERSION MODULE - In an embodiment, a dual optical-electrical conversion (DOEC) module is described that includes an optical host interface, an optical network interface, and an integrated circuit. The optical host interface includes an optical transmitter and an optical receiver. The optical network interface includes an optical transmitter and an optical receiver. The integrated circuit conditions electrical signals communicated between the optical host interface and optical network interface. Optical signals received at and transmitted by the optical host interface may have different parameter requirements than optical signals received at and transmitted by the optical network interface, such as such as different wavelength parameters and/or fiber link length parameters. | 05-23-2013 |
| 20130148956 | EQUALIZATION DELAY AGNOSTIC PROTECTION SWITCHING IN PROTECTED PASSIVE OPTICAL NETWORKS - Systems, methods and apparatus for operating an optical network terminal (ONT) in a passive optical network include maintaining an operational state in the passive optical network, estimating an upstream channel, adjusting equalization delay and physical layer frame offset values and switching from a backup mode to a primary mode of operation upon detecting a failure condition. | 06-13-2013 |
| 20130156416 | PACKET-OPTICAL COMBINED SWITCHING SYSTEM AND PROTECTION SWITCHING METHOD THEREOF - A protection switching method of packet-optical combined switching system in accordance with the inventive concept may include detecting whether or not an obstacle occurs in a packet path; performing a first protection switching using a preliminary path if an obstacle is detected from the packet path; generating an imaginary preliminary path using a preliminary resource of optical path when the first protection switching is failed; and performing a second protection switching using the imaginary preliminary path. | 06-20-2013 |
| 20130163981 | SIGNALLING IN OPTICAL TRANSMISSION NETWORKS - A connection-oriented optical network ( | 06-27-2013 |
| 20130163982 | TRANSMISSION APPARATUS - A transmission apparatus interconnects a core network for making a communication by forming a connection and a metro network for m a communication by adding an address to data and by executing a forwarding process. The transmission apparatus includes a function of transmitting the data to the connection of the core network, to which an address of the metro network is made to correspond, and transfers the data to the connection of the core network, which is made to correspond to the address added to the data received from the metro network. | 06-27-2013 |
| 20130195439 | TRANSPARENT PROTECTION SWITCHING OPERATION IN A PON - The invention relates to a method for performing a switch operation between a first Optical Line Terminal OLT and a second OLT in a Passive Optical Network PON, said first and second OLTs being connected to a plurality of Optical Network Units ONUs through at least one splitter. The invention enables to avoid the detection of a timestamp drift error during protection switching operation by modifying the threshold of the detection in the second OLT. | 08-01-2013 |
| 20130195440 | WAVELENGTH MULTIPLEXING OPTICAL TRANSMISSION SYSTEM, TRANSMITTER, AND RECEIVER - When a failure occurs in operational transmission multiplexing transponders | 08-01-2013 |
| 20130236168 | OPTICAL TRANSMISSION APPARATUS AND OPTICAL TRANSMISSION METHOD - An optical transmission apparatus includes a transmitter that transmits to a counterpart receiver via a transmission path and transmits as optical signals for a plurality of channels, input signals for a plurality of channels; and a controller that when a transmission failure between the transmitter and the receiver is detected, distributes to properly operating channels, data for a channel subject to the transmission failure, increases a transmission rate for the properly operating channels to a given transmission rate, and continues data transmission for all channels including the channel subject to the transmission failure. | 09-12-2013 |
| 20130251360 | Method And Apparatus For Displaying A Three Dimensional Representation Of Available Wavelength Paths Across A Network - Due to demand for more network bandwidth, a need for multi-user optical network topologies has, and will continue to, increase. A method or corresponding apparatus in embodiments of the present invention provide for an availability determination tool for determining and displaying wavelength and subrate availabilities within a network. Benefits of embodiments of a tool include allowing a user to identify the availability and capacity of any wavelength on any network, via an interactive graphical user interface, such as by using three-dimensional representations. In one embodiment, the disclosed availability determination tool allows users to locate and view any combination of available wavelengths between nodes in an optical network topology, and generate graphical and tabular reports of the availability in order to maintain an efficient and organized method or apparatus for determining and controlling wavelengths in a network. Consequently, service providers using the tool can keep performance rates high and costs low. | 09-26-2013 |
| 20130259465 | ETHERNET PRIVATE LOCAL AREA NETWORK SYSTEMS AND METHODS - The present disclosure provides hybrid packet-optical private network systems and methods for a private and dedicated multi-point Ethernet Private Local Area Network (EPLAN). The network systems and methods include a Layer 1 infrastructure service with the inclusion of reserved, dedicated packet switch capacity upon which clients can build their personal, private packet networks. In the systems and methods described herein, packet networking methods are not used to partition the isolated LAN connectivity. Instead, dedicated Ethernet Private LANs (EPLs) are defined between dedicated virtual switching instances (VSIs) that are defined, as necessary, within larger packet-optical switches. Each VSI is partitioned from the remainder of its packet switch fabric as a dedicated, private resource for a specific EPLAN. A packet network is then built by the customer on top of the private EPLAN bandwidth and operated as an isolated, private network with no influence by other carrier's network resources. | 10-03-2013 |
| 20130266305 | OPTICAL-LAYER MULTIPATH PROTECTION FOR OPTICAL NETWORK - A multi-path provisioning scheme is provided to ensure full protection while reducing or minimizing resource overbuild. A signal to be provisioned is divided at a source node into a plurality of sub-signals that are independently routed from the source node to a destination node. Bandwidth for back-up traffic B is allocated in addition to bandwidth for primary traffic T. In some embodiments, the initial bandwidth B of the backup traffic equals the bandwidth of the primary traffic. The T+B traffic is initially distributed so that no link carries more than B traffic. The traffic distribution pattern is then iteratively revised to reduce the bandwidth requirements for the backup traffic while still meeting requirements for protection. | 10-10-2013 |
| 20130279899 | METHOD AND APPARATUS FOR PROVIDING A CONTROL PLANE ACROSS MULTIPLE OPTICAL NETWORK DOMAINS - Method and apparatus for providing a control plane across multiple optical network domains is described. In one example, topology and resource discovery is employed in a transport network having a plurality of control domains. Topology information for each of the control domains is summarized to produce summarized topology information. The summarized topology information for each of the control domains is exchanged among the control domains. At each of the control domains, the summarized topology information of each of the control domains is combined to produce combined topology information. The combined topology information is passed among network elements within each of the control domains using an intra-domain routing protocol. | 10-24-2013 |
| 20130294762 | OPTICAL TRANSMISSION DEVICE AND OPTICAL TRANSMISSION METHOD - An optical transmission device includes: a switching configured to be capable of switching a transmission path to which light is input from a first transmission path to a second transmission path; a first calculation unit configured to calculate, based on a difference between a first light level of the first transmission path and a second light level of the second transmission path, a first control amount for the second light level; and a control unit configured to perform a first control in which the second light level is decreased or increased based on the first control amount upon switching of the transmission path. | 11-07-2013 |
| 20130302026 | APPARATUS AND METHOD FOR SEARCHING A COMMUNICATION NETWORK INCLUDING AN ASYMMETRY NODE FOR A ROUTE - An apparatus searches for one or more first routes coupling starting and ending point nodes in a communication network including an asymmetry node, based on topology information indicating a connection relationship between nodes on the communication network. The apparatus determines, for each of the one or more first routes, whether or not signals are transmittable between the starting and ending point nodes under path restriction imposed on the asymmetry node, based on asymmetry-node information indicating the path restriction imposed on the asymmetry node. The apparatus determines a second route that has a minimum sum of link costs among one or more third routes for which it is determined that signals are transmittable between the starting and ending point nodes under the path restriction imposed on the asymmetry node, based on cost information storing a link cost of a link connecting each pair of adjacent nodes on the communication network. | 11-14-2013 |
| 20130322867 | OPTICAL TRANSPORT NETWORK GENERIC NON-CLIENT SPECIFIC PROTECTION SYSTEMS AND METHODS - Systems and methods for generic non-client specific 1+1 protection are described supporting a uni-directional protection scheme for client interfaces on Optical Transport Network (OTN) networking equipment, regardless of the client protocol and without hardware which can participate in those client protocols. This generic non-client specific 1+1 protection can be implemented in an OTN node, an OTN switching device, or via an OTN method. Faults on client signals are escalated to, and processed at, the ODU path layer instead of the client protocol layer, providing a normalized mechanism for client signal protection. | 12-05-2013 |
| 20140016923 | MULTILAYER COMMUNICATIONS NETWORK SYSTEM FOR DISTRIBUTING MULTICAST SERVICES AND A METHOD FOR SUCH A DISTRIBUTION - A multilayer communications network system for distributing multicast services and a method for such a distribution The system comprises a switched optical transport network layer, such as a WSON, and an electronic packet switched network layer, such as a IP/MPLS, where the switched optical transport network layer transports multicast flows services and the electronic packet switched network layer is a backup layer of a dynamic restoration mechanism for recovery against one or more failures occurring in the switched optical transport network layer. The method comprises transporting multicast flows services through the switched optical transport network layer, and performing a recovery against one or more failures occurring in the switched optical transport network layer by means of a dynamic restoring carried out by using said electronic packet switched network layer as a backup layer. | 01-16-2014 |
| 20140050471 | Apparatus And Method For Providing Protection In A Passive Optical Network - A manner of protecting communications in a PON (passive optical network). A switch array is provided in a CO (central office) and placed in communication with a number of primary OLTs, which each can thereby communicate with a respective feeder fiber when the associated switch of the switch array is in a first state. When the switch is placed in a second state, the feeder fiber instead communicates with a protection OLT. In some embodiments each switch communicates with the OLT more or less directly, while in others the protection OLT is in communication with a first switch of the switch array and the others communicate with the OLT via the first switch and possibly other intervening switches. The switches of the switch array may also be connected to redundant feeder fibers for additional protection. A system controller may be used to detect the need for protection and to control switch states accordingly to provide it. | 02-20-2014 |
| 20140086570 | Regenerators Placement Mechanism For Wavelength Switched Optical Networks - The method of placing regenerators along a trail connecting a source network node with a destination network node of an automatically switched optical network first identifies N tentative regeneration sites and n+1 optical paths along the trail. Wavelengths are assigned to each optical path, and the performance of the trail is assessed based on regenerator placement data and wavelength assignment data. | 03-27-2014 |
| 20140086571 | PASSIVE OPTICAL NETWORK WITH IMMEDIATE FAULT PROTECTION AND METHOD FOR PROTECTING SERVICES OF THE SAME - A passive optical network ( | 03-27-2014 |
| 20140093231 | PROCEDURE, APPARATUS, SYSTEM, AND COMPUTER PROGRAM FOR NETWORK RECOVERY - A procedure for recovering a communication network, and a system, apparatus, and computer program that operate in accordance with the procedure. The procedure comprises aggregating network related information. A determination is made, based on the network related information, of whether one or more predetermined failure thresholds have been exceeded, to generate a determining result. The one or more predetermined failure thresholds are based, at least in part, on an aggregation of a predetermined number of failures. A re-provisioning algorithm is executed to re-provision one or more portions of the communication network based on at least one of the network related information and the determining result. | 04-03-2014 |
| 20140105592 | System and Method of Redundancy in Network Communications - The present disclosure includes a network element comprising a first card configured to receive a duplicatively split first signal comprising a data component and a management component, and further configured to receive and transmit a duplicatively split second signal, and a similar second card. The network element also includes a selector configured to select either the first card or the second card to receive the management component of the first signal and to detect a change in designation between the first card and the second card to transmit the second signal. The selector is also configured to modify the selection to select the card designated to transmit the second signal to also receive the management component of the first signal. The disclosure also includes associated methods and systems. | 04-17-2014 |
| 20140126897 | TRANSMISSION DEVICE AND TRANSMISSION SYSTEM - A transmission device includes an optical amplifier to amplify an optical main signal to be transmitted on an optical transmission path; a first controller to stop output of the optical amplifier and output of an optical monitor signal to be transmitted on the optical transmission path when a failure of the optical transmission path is detected; a second controller to be switched from the first controller and to operate and stop the output of the optical amplifier and the output of the optical monitor signal when the failure of the optical transmission path is detected; an optical monitor signal transceiver to transmit and receive the optical monitor signal including control information; and a switch to switch an operation from the first controller to the second controller, based on information of the failure of the optical transmission path based on the states of transmission and reception of the optical monitor signal. | 05-08-2014 |
| 20140140689 | CONFIGURABLE SINGLE-FIBER OR DUAL-FIBER OPTICAL TRANSCEIVER - An optical transceiver performs dual mode operations in an optical network. The dual mode operations include a single-fiber mode, in which a single fiber connecting the optical transceiver and another network node carries bi-directional optical signals, and a dual-fiber mode, in which two fibers connecting the optical transceiver and another network node carry respective uni-directional optical signals in opposite directions. A switching module coupled to the optical transceiver is set in accordance with a control signal such that a transmitter module transmits and a receiver module receives via a first optical connector receptacle to enable the single-fiber mode, or such that the transmitter module transmits via the first optical connector receptacle and the receiver module receives via a second optical connector receptacle to enable the dual-fiber mode. | 05-22-2014 |
| 20140186020 | APPARATUS AND METHODS FOR ENABLING RECOVERY FROM FAILURES IN OPTICAL NETWORKS - Apparatus for enabling recovery from failures in up to M working paths of a set of N working paths that are allocated N frequency slots of L different slot widths, where M, N and L are positive integers, N≧L>1, and N>M>1. The apparatus includes a processor and a control plane interface. The processor is operative to allocate protection frequency slots to M protection paths in different manners depending on whether M is greater than L, equal to L or less than L. The control plane interface is operatively associated with the processor and is operative to effect provisioning of the M protection paths for supporting recovery from the failures. Related network, apparatus and methods are also disclosed. | 07-03-2014 |
| 20140186021 | OPTICAL COMMUNICATION SYSTEM, DEVICE AND METHOD FOR DATA PROCESSING IN AN OPTICAL NETWORK - An optical communication system, a method and a network device for an optical network are provided, wherein the device comprises a first port coupled with a first optical fiber link, a second port coupled with a second optical fiber link, the first port and the second port being configured to be coupled with respect to each other in case of a failure of the first optical fiber link or in case of a failure of the second optical fiber link | 07-03-2014 |
| 20140193146 | Apparatus and Method For Optical Transport Networks - An optical transport network comprises a first node and a second node adapted to communicate one or more lower order optical channel data unit (LO-ODU) traffic signals via a higher order optical channel data unit (HO-ODU) traffic signal. An adaptation function between a lower order optical channel data unit traffic signal and a higher order optical channel data unit traffic signal is modified to enable protocol information for bidirectional protection switching to be conveyed in one or more lower order optical channel data unit traffic signals that are conveyed between the first node and the second node using the higher order optical channel data unit traffic signal. This enables the protocol information to be used at a higher order optical channel data unit entity to perform bidirectional protection switching. | 07-10-2014 |
| 20140199060 | Interconnect system and method for ethernet networks - A system and method for data communication is provided. The system includes a first port, a transmission layer module and a signaling layer module. The transmission layer module supports a first priority and a second priority. The signaling layer module can route data between the first port and a second port and can route data between the first port and a third port. The signaling layer module supports alternate routing if one or both of the second port and the third port fail. | 07-17-2014 |
| 20140212129 | REMOTE RADIO HEADER SELECTION - Techniques for optimizing data transmission efficiency and accuracy in cellular network environments using remote radio headers are presented. In an aspect, a mobile device includes a collection component configured to collect fiber loss data from a plurality of remote radio devices in a cellular network. The fiber loss data can include data representative of data transmission loss over fibers respectively connecting the plurality of remote radio devices to a base station device. The mobile device further includes a selection component configured to select a remote radio device from the plurality of remote radio devices with which to access based in part on the fiber loss data. | 07-31-2014 |
| 20140233938 | SYSTEM FOR INTERCONNECTING NODES ATTACHED TO A PASSIVE OPTICAL NETWORK - A system for interconnecting one or more leaf nodes attached to the leaves of an optical distribution network (ODN), comprising: A first and a second optical distribution network respectively comprising a remote node for distributing signals from a central office and/or an optical line terminal to a plurality of leaf nodes connected to said optical distribution network; a link connecting a first leaf node connected to the first optical distribution network to a second leaf node connected to the second optical distribution network, wherein the remote node of the second optical distribution network is adapted to forward an optical signal from said second leaf node which has received the signal from said first leaf node to the other leaf nodes of said second optical distribution network. | 08-21-2014 |
| 20150043904 | METHOD AND APPARATUS FOR PERFORMING PATH PROTECTION FOR RATE-ADAPTIVE OPTICS - A method and apparatus for performing path protection for rate-adaptive optics is provided. As part of the method, an aggregate input bit stream is received. The aggregate input bit stream is then transmitted using a rate-adaptive optical transceiver when transmitting on a first optical path. When the first optical path has a fault, the aggregate input bit stream is then transmitted on a second optical path using the rate-adaptive optical transceiver and a fixed-rate optical transceiver. | 02-12-2015 |
| 20150050015 | High-reliability Active Optical CABLE (AOC) with Redundant Emitters - An apparatus includes an array of electro-optical transducers, control circuitry, and a connector housing. The electro-optical transducers are configured to convert between electrical signals and respective optical signals conveyed over respective optical fibers. The control circuitry is configured, in response to a failure of a first electro-optical transducer in the array that is associated with a given optical fiber, to switch one or more of the electrical signals and the optical signals so as to replace the first electro-optical transducer with a second electro-optical transducer in the array in conveying an optical signal over the given optical fiber. The connector housing contains the array of the electro-optical transducers and the control circuitry. | 02-19-2015 |
| 20150055945 | PROTECTION IN METRO OPTICAL NETWORKS - An optical network is configured to optimize network resources. The optical network includes multiple optical nodes, light paths between the multiple optical nodes, and a network monitoring device. The network monitoring device monitors the optical network to identify a failure in the optical network. When the failure is a fiber failure, light paths are re-routed around the fiber failure while maintaining the required bandwidth for the optical network. When the failure is a transponder card failure within one of the multiple nodes, a floating spare card may be provisioned to service a particular light path associated with the transponder card failure. When the failure is a node failure, transponder cards in some of the multiple optical nodes are provisioned to reconfigure some of the plurality of light paths to route traffic around the failed node. | 02-26-2015 |
| 20150078739 | APPARATUS AND METHODS FOR ENABLING RECOVERY IN OPTICAL NETWORKS - Apparatus for enabling an M:N recovery scheme in an optical network includes a set of N working DSP-enabled optical transceivers/transponders including at least one working DSP-enabled optical transceiver/transponder that uses a first set of transmission parameters and at least one working DSP-enabled optical transceiver/transponder that uses a second set of transmission parameters which is different from the first set of transmission parameters, and a set of M protection DSP-enabled optical transceivers/transponders operable to protect the set of N working DSP-enabled optical transceivers/transponders and including L protection DSP-enabled optical transceivers/transponders, each having a capability of using a set of adjustable transmission parameters enabling it to protect every one of the N working DSP-enabled optical transceivers/transponders, and, when M>L, M−L protection DSP-enabled optical transceivers/transponders, each having a capability of protecting at least one, but not all, of the N working DSP-enabled optical transceivers/transponders. Related network and methods are also disclosed. | 03-19-2015 |
| 20150086191 | METHOD AND APPARATUS FOR OPTICAL TRANSMITTER AND RECEIVER REDUNDANCY WITHIN A DIRECTIONLESS OPTICAL NODE - Example embodiments of the present invention relate to an optical node comprising of at least two degrees, a plurality of directionless add/drop ports, a plurality of primary WDM transmitters and receivers, and at least one protection WDM transmitter and receiver, wherein the at least one protection WDM transmitter and receiver can transmit and receive in place of any of the plurality of primary WDM transmitters and receivers. | 03-26-2015 |
| 20150117850 | OPTIMIZATION OF PHOTONIC SERVICES WITH COLORLESS AND DIRECTIONLESS ARCHITECTURE - A method, in a node operating in a network with a control plane, to optimize wavelength retuning on service redials, includes detecting a failure on a link associated with the node; and, for each affected connections on the link, sending a respective release message to an associated originating node via the control plane, the release message including a protect path and a wavelength, wherein the release message is utilized by the associated originating node to redial the affected connections with the protect path and the wavelength determined by the node, to minimize wavelength retuning on the affected connections. | 04-30-2015 |
| 20150117851 | USING FLOATING TRANSPORT CARD FOR BEST EFFORT TRAFFIC - A network management device monitors an optical network that is configured for a required bandwidth. The optical network includes multiple optical nodes and a plurality of light paths between the multiple optical nodes. The multiple optical nodes include transport cards with a majority of the transport cards provisioned as active cards to receive a traffic load of up to full capacity of the transport cards, and with a minority of the transport cards provisioned as floating spare cards for the active cards. The network management device identifies an unused first floating spare card and an unused second floating spare card in a pair of the multiple optical nodes and automatically provisions, by the network management device, the first floating spare card and the second floating spare card to service a light path for best-effort traffic between the pair of the multiple optical nodes | 04-30-2015 |
| 20150326309 | Protection for Optical Transport Network with Dual Homed Attachment Circuits - For protecting traffic on paths extending from a source client entity (CE | 11-12-2015 |
| 20150326311 | ROGUE OPTICAL NETWORK INTERFACE DEVICE DETECTION - Techniques are described for identifying a rogue network interface device whose laser is not under control of a controller of the network interface device. The techniques identify the rogue network interface device based on reception of a predefined data pattern in a timeslot that is not reserved for any of the network interface devices without needing to disable upstream data transmission from the network interface devices during their assigned timeslots. The techniques also relate to a network interface device determining whether the network interface device is transmitting optical signals at a wavelength different than the wavelength that the OLT to which the network interface device is associated receives. | 11-12-2015 |
| 20150333821 | MULTI-FAILURE RESOLUTION OPTICAL NODE, OPTICAL COMMUNICATION SYSTEM USING SAME, AND WAVELENGTH PATH SWITCHING METHOD - This multi-failure resolution optical node has: an operating system wavelength path; two or more standby system wavelength paths which are assigned to the operating system wavelength path and have been assigned a ranking; and node control means that can separately operate the operating system wavelength path and the standby system wavelength paths in a normal power consumption mode or a reduced power consumption mode. Thus, it is possible to provide an optical node with which power consumption is reduced and with which switching to a standby system wavelength path can be performed quickly in response to a failure in the operating system wavelength path. | 11-19-2015 |
| 20150365163 | Proactive Optical Restoration System - A router configured to communicate data with a destination router over an IP path that includes an IP link that uses a first optical path. The router configured to proactively maintain the performance of the communication of data. The router configured to receive a signal to move the communication off of the first optical path, before performance of the first optical path has failed. The router configured to establish a second optical path to the destination router an associate the IP link with the second optical path and move the communication of data with the destination router to the second optical path. The router may optionally be configured to tear down the first optical path. The trigger received by the router may be an indication of a performance degradation of the first optical path or an indication of a router interface used by the IP link being switched into maintenance mode. | 12-17-2015 |
| 20160006502 | Protection for Optical Transport Network Using Operational Status of Dual Homed Attachment Circuits - For protecting traffic from a source client entity (CE | 01-07-2016 |
| 20160036522 | NETWORK DESIGN APPARATUS, NETWORK DESIGN METHOD, AND STORAGE MEDIUM STORING NETWORK DESIGN PROGRAM - A network design apparatus includes: a memory; and a processor coupled to the memory and configured to execute: accommodation design processing of, based on a traffic of a protection-applied or protection-unapplied first link in a first layer, generating a protection-unapplied second link in a second layer lower than the first layer, and generating a working path and a protection path of the first link on a network configured of the second link, and protection application processing of, based on the protection-unapplied second link and the working path and the protection path of the first link that are generated in the accommodation design processing, selecting or generating a protection-applied link in the second layer from the protection-unapplied second link. | 02-04-2016 |
| 20160056888 | Active and Standby Changeover Method, Apparatus, Device, and System for Network Device - A main and standby switchover method, apparatus, device, and system for a network device relate to the technical field of wireless networks. The method includes: receiving an interrupt signal indicating that a switchover needs to be performed for main and standby GE ports; performing a switching operation of the main and standby GE ports, setting the main GE port in a blocked state, and in the blocked state, the main GE port only forwarding a bridge protocol data unit (BPDU) message, and stopping learning a MAC address; and enabling the standby GE port, setting the standby GE port in a forwarding state, and in the forwarding state, the standby GE port forwarding messages of all types, and learning the MAC address. | 02-25-2016 |
| 20160072575 | SYSTEMS AND METHODS FOR OPTICAL DARK SECTION CONDITIONING - A method for optical dark section conditioning includes determining a section in an optical network is a dark section that includes connected fiber spans that are functional with no traffic carrying channels present thereon; and causing generation of at least one of broadband noise and a signal at a head end of the dark section. An apparatus configured to perform optical dark section conditioning includes logic configured to determine a section in an optical network is a dark section that includes connected fiber spans that are functional with no traffic carrying channels present thereon; and logic configured to cause generation of at least one of broadband noise and a signal at a head end of the dark section. | 03-10-2016 |
| 20160127034 | NETWORK PROTECTION THROUGH EXCESS DIRECTIONS OF RECONFIGURABLE OPTICAL ADD/DROP MULTIPLEXOR (ROADM) - A first reconfigurable optical add/drop multiplexers (ROADM) and a second ROADM are connected by a primary light path and a protection light path. The first ROADM includes a first direction and a second direction, and the second ROADM includes a third direction and a fourth direction. The primary light path is coupled between the first direction and the third direction, and the protection light path is coupled between the second direction and the fourth direction. Transmissions on the primary light path are monitored, and when a problem is detected on the primary light path, the first and third directions are deactivated and the second and fourth directions are activated so that additional light signals are sent on the protection light path and not on the primary light path. | 05-05-2016 |
| 20160156410 | Method, System and Node for Implementing Automatic Protection Switching in Optical Burst-switching Ring | 06-02-2016 |
| 20160182146 | NETWORK CONTROLLER HAVING PREDICTABLE ANALYTICS AND FAILURE AVOIDANCE IN PACKET-OPTICAL NETWORKS | 06-23-2016 |
| 20160182184 | ELECTRIC APPARATUS | 06-23-2016 |
| 20160191151 | INTEGRATED DRIVER REDUNDANCY FOR A SILICON PHOTONICS DEVICE - In an example, the present invention includes an integrated system on chip device. At least a pair of laser devices are associated with a channel and coupled to a switch to select one of the pair of laser devices to be coupled to an optical multiplexer to provide for a redundant laser device. | 06-30-2016 |
