Patent application number | Description | Published |
20080212496 | COMMUNICATION NETWORK SYSTEM AND SIGNAL TRANSMISSION METHOD BETWEEN LEAF-NODES OF MULTICAST TREE AND NODE THEREOF - A method of leaf-node of the multicast tree signal transmission and communication network system and node thereof in the communication network. Establishing the connection between the source leaf-node and root node of the transmitting signal in the multicast tree; the source leaf-node of the transmitting signal in the multicast tree transmits signal to the root node through the established connection; the root node in the multicast tree receives the transmitted signal and transmits the signal to the destination leaf-node in the multicast tree. An establishing method of the preparative bi-directional connection from the root-node to the leaf-node in the multicast tree. When the multicast service supported multicasting tree was established in the connection-oriented network, each leaf-node in the multicast tree may act as the signal source node that send signal to other leaf-nodes in the multicast tree, and it is able to share the multicast tree possessive network resource furthest during the signal transmitting between multi leaf-nodes. | 09-04-2008 |
20080219187 | METHOD FOR DATA PROCESSING IN BRIDGED NETWORK, BRIDGE AND BRIDGED NETWORK - A method for data processing in a bridged network includes: spanning tree is generated in the bridged network, and a unicast forwarding table of the spanning tree is established by using a register packet by the bridge; when a data packet out of the bridge network arriving the bridge network, from an entrance bridge arrived by the data packet, the data packet is transferred basing on the unicast forwarding table along the spanning tree and the data packed is transmitted through an outer port of an exit bridge in the exit bridge. According to the method and system for data processing in the bridged network, the unicast forwarding table is established by the control protocol, original processing of address learning can be closed. Therefore, software may be upgraded easily and the burden of hardware processing is reduced. | 09-11-2008 |
20090074410 | METHOD AND APPARATUS FOR SYNCHRONOUS CROSS-CONNECT SWITCHING IN OPTICAL TRANSPORT NETWORK - A method for synchronous cross-connect switching in optical transport network, the method includes: receiving optical channel transport unit (OTU) signals; mapping the OTU signals into interim switching units, wherein the interim switching units match bit rates of the received OTU signals; performing a synchronous cross-connect switching for the interim switching units; and demapping the interim switching units obtained after the synchronous cross-connect switching to obtain the OTU signals. | 03-19-2009 |
20100040363 | METHOD, SYSTEM, AND APPARATUS FOR MANAGING ALARMS IN LONG-REACH PASSIVE OPTICAL NETWORK SYSTEM - A method, system and apparatus for managing alarms in a Long Reach Passive Optical Network (LR-PON) system are disclosed. The method includes: obtaining a PON signal from an Optical Line Terminal (OLT) or an Optical Network Unit (ONU) on one side; checking whether the obtained PON signal fails; and notifying the ONU or the OLT on the other side if the PON signal fails. The method, system and apparatus under the present invention monitor the LR-PON transmission quality and process various alarm indications raised in the LR-PON signal monitoring. | 02-18-2010 |
20100111532 | METHOD, SYSTEM AND DEVICE FOR REALIZING DATA TRANSMISSION EXTENSION IN PASSIVE OPTICAL NETWORK - A method, a device, and a system for realizing data transmission extension in a passive optical network (PON) are provided. Between a burst-mode clock and data recovery (BCDR) module and an electrical-optical (E/O) amplification module, the device includes a delimiter matching module and a preamble buffering and compensating module. The delimiter matching module is adapted to receive a data frame sent by the BCDR module and determine a location of a delimiter in the data frame. An optical-electrical (O/E) amplification module performs O/E conversion, amplification, and shaping on the data frame. The BCDR module then performs clock and data recovery processing on the data frame. The preamble buffering and compensating module is adapted to receive and buffer the data frame output from the delimiter matching module, insert a compensation preamble in the data frame according to the location of the delimiter in the data frame determined by the delimiter matching module, and send the data frame to the E/O amplification module according to a retiming clock of a downstream direction. Therefore, the data transmission extension is realized in an optical-electrical-optical (OEO) manner. | 05-06-2010 |
20100119228 | METHOD, SYSTEM AND DEVICE FOR PROTECING LONG-REACH PASSIVE OPTICAL NETWORK - A method, system and device for protecting a Long Reach Passive Optical Network (LR-PON) system are provided. The Electrical Relay (E-R) device receives the optical signal transmitted on two fiber transmission paths by the Optical Line Terminal (OLT) or Optical Network Unit (ONU) on one side, performs optical-to-electrical (O/E) conversion, signal regeneration, and electrical-to-optical (E/O) conversion for the optical signal, and sends the signal to the ONU or the OLT on the other side through the two fiber transmission paths. Through backup of the fiber transmission path, an LR-PON system protection method is provided to improve the reliability of the LR-PON system. The method, system, and device for protecting the LR-PON system under the present invention all support and are compatible with the existing functions of all devices in the existing LR-PON system. | 05-13-2010 |
20100142944 | METHOD, SYSTEM AND DEVICE FOR PASSIVE OPTICAL NETWORK DATA TRANSMISSION - A central office optical line terminal (S-OLT) and a local optical line terminal (L-OLT) are connected to through a transmission link form a transmission network. The S-OLT sends service data sent by a service network to the L-OLT through a transmission channel, receives the service data sent by the L-OLT from the transmission channel, and sends the service data to the service network. The L-OLT receives the service data sent by the S-OLT from the transmission channel and sends the service data to an optical network unit (ONU), and sends the service data sent by the ONU to the S-OLT through the transmission channel. Thus, the service data of the L-OLT is sent to the service network through the S-OLT, thereby solving a problem in the existing PON that the service data requires another transmission of the transmission network to reach the service network. | 06-10-2010 |
20100265953 | METHOD AND APPARATUS FOR SIGNAL SPLITTING AND COMBINING - A method and apparatus for splitting an asynchronous signal are provided. The method includes: buffering, according to frame sequence, an asynchronous signal to be split; and sending n frames of data respectively on n channels in parallel whenever n frames of data have been buffered, where n is a ratio of a rate level of the asynchronous signal before split to that of the asynchronous signal after split. A method and apparatus for signal combination are provided. The method includes: buffering n channels of parallel signals to be combined simultaneously according to frame sequence; and sending n channels of frames serially after one frame is buffered for each of the n channels of the parallel signals; wherein n is a ratio of a rate level of the parallel signals after combined to a rate level of the parallel signals before combined. | 10-21-2010 |
20110038632 | Method, Apparatus, and System for Extending Passive Optical Network - A PON extender includes an optical amplifier that is adapted to compensate optical power for PON signals in a downlink channel. An optical control switch is connected with an ONU and is adapted to extract overhead information of the PON signals in the downlink channel and to select one channel of ONU uplink signals as output uplink channel PON signals according to the extracted overhead information. A regenerating device is adapted to regenerate optical signals for the uplink channel PON signals output under control of the optical control switch. | 02-17-2011 |
20110142448 | PACKET ADD/DROP MULTIPLEXER AND DATA TRANSMISSION METHOD OF PACKET ADD/DROP MULTIPLEXER - A packet add/drop multiplexer and a data transmission method of a packet add/drop multiplexer are provided. The packet add/drop multiplexer includes: a line interface unit including a first line interface and a second line interface; a scheduling unit, configured to schedule a data frame of an input transporting side and send a data frame of an output transporting side through the second line interface; a branch unit, configured to encapsulate received data to a third Transmission Container (T-CONT) data packet and send the third T-CONT data packet to the scheduling unit, or decapsulate a first T-CONT data packet sent by the scheduling unit to recover data. In the packet add/drop multiplexer and the data transmission method of the packet add/drop multiplexer, a T-CONT data packet of a transporting side is used as a packet add/drop multiplexing structure of a packet scheduling entity, the data packet has a simple structure and a capability of self-synchronization, and the logic is simple when the data packet is processed. | 06-16-2011 |
20110150463 | METHOD AND APPARATUS FOR MULTI-SERVICE ADAPTATION AND CARRIAGE - A method and an apparatus for multi-service adaptation and carriage, comprising: mapping at the service adaptation layer different types of services into uniform enhanced Gigabit Passive Optical Network Encapsulation Method (E-GEM) frames; combining at the channel layer E-GEM frames encapsulating the same type of services into the same type of T-CONT frames; setting a priority for each type of T-CONT; guaranteeing bandwidth for T-CONT frames with high priority and preferentially sending it. | 06-23-2011 |
20110164877 | METHOD, DEVICE, AND SYSTEM FOR TRANSMITTING CONSTANT RATE DATA STREAM - In the field of optical network communication technologies, a method, a device, and a system for transmitting a constant rate data stream are provided. The method for transmitting the constant rate data stream by the first network device includes: receiving a constant rate data stream; calculating an input rate of the constant rate data stream or a rate difference between the input rate and a standard rate of the constant rate data stream in each cycle of a reference clock; encapsulating the constant rate data stream into a Gigabit-Passive Optical Network (GPON) Encapsulation Method (GEM) frame by using a bit as a minimum encapsulation unit; and encapsulating the GEM frame into a GPON Transmission Convergence Layer (GTC) frame, and sending the GTC frame to the second network device through a GPON network. Therefore, the technical solutions may be widely applied to the GPON network. | 07-07-2011 |
20110200323 | INFORMATION TRANSFER AND RECEIVING METHOD, SYSTEM, AND DEVICE - The information transfer method includes: determining an indicator of a start bit in a protection time slot or a preamble time slot of a laser, and establishing a communication channel according to the indicator of the start bit; inserting Operation Administration and Maintenance (OAM) information of a Long Reach-Passive Optical Network (LR-PON) device into an upstream frame sent to an Optical Line Terminal (OLT) device by the LR-PON device at a position indicated by the indicator of the start bit, and transporting the upstream frame to the OLT device through the communication channel. Therefore, OAM functions of the LR-PON device are extended, so that the OAM information can be transported by the LR-PON device independently, and OAM characteristics of the LR-PON device are enhanced. For example, PON protection is better supported, and the speed and success ratio of protection switching of a PON system are increased. | 08-18-2011 |
20110305458 | METHOD AND DEVICE FOR SERVICE ADAPTATION - A service adaptation device includes: a service access unit, configured to obtain service data, where the service data includes a Gigabit-Passive Optical Network (GPON) Encapsulation Method (GEM) frame, Time Division Multiplex (TDM) service data, and Ethernet (ETH) service data; and an Enhanced GPON Encapsulation Method (E-GEM) adaptation unit, configured to encapsulate the service data obtained by the service access unit into an E-GEM frame. A service adaptation method includes: obtaining service data, where the service data includes a GEM frame, TDM service data, and ETH service data; and encapsulating the obtained service data into an E-GEM frame. | 12-15-2011 |
20120176990 | DATA TRANSMISSION AND RECEIVING METHOD AND APPARATUS - A data transmission method is disclosed in the present invention, where the method includes: mapping a data stream to be transmitted to an orthogonal frequency division multiplexing access, OFDMA, sub-carrier; scheduling the OFDMA sub-carrier; multiplexing the OFDMA sub-carrier to generate an OFDMA frame; and transmitting the OFDMA frame. A data transmission apparatus and a data receiving apparatus are also disclosed in the present invention. Through the present invention, a cross connection capability on the basis of the OFDMA sub-carrier is implemented, and in this way, not only all convergence services from a slave node to a master node are supported, but also a private line connection between two slave nodes is supported. | 07-12-2012 |
20120230693 | SIGNAL PROCESSING METHOD, DEVICE, AND SYSTEM IN A PASSIVE OPTICAL NETWORK - A signal processing method, device, and system in a passive optical network are provided. The signal processing method in the passive optical network includes: performing baseband encoding processing on a received service signal; modulating the service signal after baseband encoding processing onto allocated Orthogonal Frequency Division Multiple Access subcarriers through an Orthogonal Frequency Division Multiplexing modulation manner; performing digital/analog conversion on the modulated OFDMA subcarriers to obtain an electric domain Orthogonal Frequency Division Multiple Access signal; modulating the electric domain Orthogonal Frequency Division Multiple Access signal to an uplink optical signal to obtain an optical domain Orthogonal Frequency Division Multiple Access signal; and transmitting the optical domain Orthogonal Frequency Division Multiple Access signal. | 09-13-2012 |