CN1464674A - Method for implementing optical network signal control platform - Google Patents

Abstract

The invention provides a process for realizing optical network signaling control platform comprising, setting signaling route module in each network element, constructing independent IP grouping exchange signaling network using the signaling route module, classifying the functional elements in the network into different IP sub-networks, the IP data between the sub-networks is transferred through the signaling route module according to IP route. The functional unit packs the signaling information to be transmitted into IP packages, after receiving data, each network signaling route module searches the route table for grouping exchange. The signaling route module initializing the main route and backup route between each nodes of the signaling network, thus when failure occurs on the main route, the signaling route will switch to the preset backup route directly.

Description

A kind of implementation method of optical network signal control platform

Technical field

The present invention relates to the implementation method of signal control platform in a kind of optical-fiber network, belong to the optical communication field, particularly relate to and a kind ofly realize in the optical-fiber network transmission and control communication signaling based on the IP packet-switch technology.

Background technology

In optical-fiber network, be divided into three independently planes, be transport plane (transport plane), control plane (control plane) and management plane (management plane), wherein the unified signaling transfer protocol of control plane definition is responsible for the transmission of signaling between each node device of optical-fiber network.The present invention just is to use the IP agreement to set up a unified optical network signal control platform, and each internodal signaling of optical-fiber network is with the form transmission of IP bag.

In wavelength division multiplexing (DWDM) system, current common use Optical Supervisory Channel (OSC) transmission communication control signaling, each OSC passage uses a primary group, and each primary group is divided into 32 time slots.In 32 time slots of primary group, distribute several fixedly time slots as data communication channel (DCC), by time division multiplexing mode with the Communication Control signal multiplex in the primary group of OSC passage in pre-assigned several fixedly time slots as DCC.Solve the Communication Control signaling information by demultiplexing in the fixedly time slot that the DWDM equipment of other node in the DWDM network distributes for DCC from the OSC passage.But quick increase along with institute's loaded service amount on the complexity day by day of the network configuration of optical-fiber network, network element structure and the network, the capacity of primary group has been not enough to meet the demands, has generally proposed the scheme of OSC passage use SDH/SONET signal (for example STM-1 signal).

The OSC passage uses the SDH/SONET signal that tangible deficiency is arranged, and mainly shows:

The signaling network that the SDH/SONET signal is formed belongs to Synchronization Network, and DWDM network itself does not have this requirement, and this will obviously increase the complexity of network technology and increase probability of failure;

When forming signaling network with the SDH/SONET signal, though itself have fairly perfect protection mechanism, need provide bigger extra resource, increased the complexity and the cost of networking.

Summary of the invention

The technical problem to be solved in the present invention is the implementation method that proposes a kind of optical network signal control platform based on the IP packet switching, in optical-fiber network, use the IP packet-switch technology to replace the scheme of the original SDH/SONET of use, both avoided the synchronous requirement of the whole network, jumbo OSC passage (for example using 100M Ethernet or GE technology etc.) can be provided again, mode with the IP routing addressing provides many alternate routings simultaneously, improves the survivability of communication between network element.

Technical scheme of the present invention is that signaling is transmitted between network element with the form of IP bag in optical network system, signalling route module of design is as the controlling platform of communication signaling in each network element, the main effect of this module is carried out the IP packet switching to communication signaling exactly, and the control communication signaling transmits between network element internal and network element in the mode of IP bag.

The method of the invention, it is characterized in that: step 1: a signalling route module is set in each network element, the signalling route module mainly is divided into two parts, IP packet switch unit and IP route maintenance unit, the IP packet switch unit adopts hardware that the IP packet is carried out routing inquiry and packet switching, realizes the surface speed forwarding of IP bag; The IP routing unit is by the IP route table of software maintenance control whole signaling net, according to the break-make situation of topology of networks and signalling path, the converting route in the hardware that upgrades in time.Just safeguard the routing table of signaling network, the IP packet is transmitted, with real-time tasks such as non real-time task such as route calculating, control and packet forward separately, finish by different parts by hardware by software arrangements;

Step 2: use the signalling route module in the overall optical network, to make up an independently IP packet switching signaling network;

Step 3: the functional unit in the network element is divided among the different IP subnets, and the IP packet between subnet is transmitted according to IP route table by the signalling route module;

Step 4: the signaling information that the functional unit of network element internal will need to transmit is packaged into the IP bag, after each network element signalling route module receives data, searches routing table and carries out packet switching according to the IP address;

Step 5: the signalling route module according to the topological structure of signaling network pre-set between the signaling network arbitrary node main road by and route stand-by, when the signaling network main road when breaking down, signalling route directly is switched on the route stand-by that pre-sets;

The present invention has following characteristics with respect to using OSC channel transfer Communication Control signaling:

The controlling platform standard is unified, and related standards has only defined use OSC as signalling path at present, and does not define the time slot allocation of concrete OSC passage, so the signaling network of devices from different manufacturers can't intercommunication.After using the IP packet switching network as the Control on Communication platform, unified the signaling network control protocol, made the interconnected possibility that becomes of different vendor's equipment.

Use the IP packet switching to replace original time gas exchange, improved the survivability of network.Owing to use the IP packet switching not need the whole network synchronised clock, under the situation that signalling path lost efficacy, can use the backup signalling path to transmit signaling information by starting route stand-by.

Signaling network is according to the certain algorithm of topology of networks foundation, be to calculate many static routing between any network element in advance, after the signaling network topological structure changes, do not need to carry out again routing convergence and calculate, the backup static routing according to precomputing directly reconfigures the whole network route rapidly, avoided the use dynamic routing algorithm (for example: OSPF, RIP) the slow problem of routing convergence, thus satisfy the real-time requirement of telecommunications network

The signalling route flexible configuration, the route of signaling network can use software to be configured and to safeguard according to topology of networks among the present invention, and is convenient, flexible.

Description of drawings

Fig. 1 is a signalling route functions of modules schematic diagram of the present invention.

Fig. 2 is the schematic diagram of the independent signaling network of signalling route module composition among the present invention.

Embodiment

Embodiments of the invention are described below with reference to the accompanying drawings.

The present invention proposes a kind of brand-new optical-fiber network controlling platform, problems such as the controlling platform survivability can differ from before solving.The signalling route module of each network element constitutes the optical-fiber network controlling platform, and the function of signalling route module is seen Fig. 1, and it realizes that by software and hardware two parts software section is responsible for the maintenance of route, the monitoring of link, and hardware components is responsible for the forwarding of IP bag.The IP Routing Forward Module is realized by hardware, directly searches the hardware route forwarding table, to the packet switching of IP bag.Routing management module is in advance according to topology of networks in the software, between any two network elements, calculate many routing configuration in the static IP routing table, after the Link State monitoring module detected link failure, routing management module was responsible for the route stand-by in the static IP routing table is synchronized in the hardware converting route.

The schematic diagram of the independently signaling network that the present invention forms is seen Fig. 2, wherein the signalling route module realizes the function of signalling route module, NCP, SCP, RPP, OWP are the functional unit of network element internal, and these functional units need be undertaken communicating by letter between network element internal and network element by SRP.SHU is an Ethernet switch, and its major function is that the information of network element internal functional unit is carried out two layers of forwarding, and it connects with SRP by 100baseTX electricity mouth.The signalling route module connects with the network element internal functional unit by 100baseTX electricity mouth, and the SRP with other network element connects by 100baseFX light mouth.Fig. 2 is the signaling network that four network elements are formed, and can expand according to the topology situation of network when specifically using, and the functional unit of each network element is divided under the different IP subnets, and the port of each signalling route module is the gateway of this IP subnet.

When the functional unit in each network element sends information, signaling is encapsulated into the IP bag, if source IP address and purpose IP address be not in same IP subnet, then carry out two layers of forwarding by SHU, if source IP address and purpose IP address are in same IP subnet, then the gateway that the IP bag is sent after the signalling route module is received this IP bag, is searched IP route table sends to this IP bag other network element by corresponding ports signalling route module.

The signalling route module is pre-configured two routes of any two nodes of signaling network according to the topological structure of signaling network, and one is that main road is a route stand-by by another.Press main road under the normal condition between network element by transmitting the IP bag, when main road by after breaking down, be switched on the route stand-by immediately.In this schematic diagram, between network element A, D, configuration A-B-D be main road by, A-B-D is a route stand-by, after A-B-D breaks down, after the signalling route module that fault section is adjacent detects routing failure, according to calculating good route stand-by in advance, with the routing switch between network element A, D to A-B-D.

Claims (2)

1, a kind of implementation method of optical network signal control platform is characterized in that:

Step 1: a signalling route module is set in each network element;

Step 2: use the signalling route module in the overall optical network, to make up an independently IP packet switching signaling network;

Step 3: the functional unit in the network element is divided among the different IP subnets, and the IP packet between subnet is transmitted according to IP route table by the signalling route module;

Step 4: the signaling information that the functional unit of network element internal will need to transmit is packaged into the IP bag, after each network element signalling route module receives data, searches routing table and carries out packet switching according to the IP address;

Step 5: the signalling route module according to the topological structure of signaling network pre-set between the signaling network arbitrary node main road by and route stand-by, when the signaling network main road when breaking down, signalling route directly is switched on the route stand-by that pre-sets.

2, the implementation method of optical network signal control platform according to claim 1, it is characterized in that: described signalling route module is divided into two parts, IP packet switch unit and IP route maintenance unit, the IP packet switch unit adopts hardware that the IP packet is carried out routing inquiry and packet switching, realizes the surface speed forwarding of IP bag; The IP routing unit is by the IP route table of software maintenance control whole signaling net, according to the break-make situation of topology of networks and signalling path, the converting route in the hardware that upgrades in time.

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