CN1188976C - Integrated intelligent photoelectric mixed router - Google Patents

Abstract

The present invention relates to an integrated intelligent photoelectric mixed router. The present invention uses a distributed modular soft hardware system structure, and comprises five functional units and six interfaces. A wave length exchange unit achieves one stage of service exchange of large grain degree wave length and a by-path IP service which does not need to be processed by packets, and a packet exchange unit achieves the linear speed transmission of an IP packet; simultaneously, the packet exchange unit and the wave length exchange unit achieve the service exchange and transmission with different granularity under the coordination control of a uniform network management plane unit based on SNMP or CORBA, and a uniform control plane unit based on multiprotocol label switching technology. The present invention integrates the advantages of flexibility and intelligence of the packet exchange of an electric layer, and large capacity of the wavelength exchange of an optical layer, and can meet the functional requirements of the network building of the next generation of IP Over WDM optical internet. Simultaneously, the present invention reduces network layers, obviously enhances availability and robust performance of the network, and reduces construction and maintenance cost of a main broadband network.

Description

Integrated intelligent photoelectric mixed router

Technical field:

What the present invention relates to is a kind of big capacity integrated intelligent photoelectric mixed router (abbreviation optical router) with novel architecture, technological merit in conjunction with traditional electrical router and light wavelength router, solve the needs of problems of optical internet of future generation (IP OverWDM network), belong to the broadband network technology field the big capacity (surpassing the T bit) of network core node device, intelligent (based on the control plane of GMPLS (GMPLS) technology), robustness and assurance multi-service service quality (QoS).

Background technology:

The architecture of next generation Internet (NGI) will evolve to the leading IPOver WDM network (title optical internet) of light from the leading four-layer network network of present electricity, the flattening trend of backbone network is obvious further, and the novel big capacity under this architecture, intelligentized route-exchanging device are just becoming the focus that at present external each research institution is paid close attention to.Doubled in meanwhile the capacity explosive increase of wavelength-division multiplex technique (WDM) optical transmission system and the every 6-9 of IP operation month, give that core exchange route (service node equipment) system has caused great processing pressure and performance challenges in the communication network, become the march toward main bottleneck of T bit levels of broadband network at present.Tradition based on the router of electricity layer treatment technology owing to face technological limit and cost problem such as electronic bottleneck, simultaneously because the latent defect of its architecture will be difficult to deal with big capacity IP packet switch (surpassing the T bit) and the professional demand of multiple service quality (QoS).Existing light/the defect map of electricity exchange route series products (as: optical cross-connection equipment (OXC), digital cross connect equipment (DXC), ATM switch, IP Router etc.) in real network is used is present: business interface density and capacity can't satisfy the every 6-9 of IP operation data month demand of doubling; Business provide the cycle long (generally hour to calculate, have in addition reach some months); A little less than service dispatching and the Bandwidth Management ability; Network resource utilization is low; QoS (QoS) is difficult to effective assurance; Network survivability is poor; Network management is safeguarded complicated; The extended capability of network and node device is limited etc.In a word, the deficiency of node device embodies a concentrated reflection of at present: two aspects such as the low and big capacity disposal ability deficiency of intelligent level.

Because the top shortcoming of narrating, the legacy network node device can not become the main flow equipment of optical internet of future generation, and therefore the novel node device Study on Technology based on the light switching technology has been subjected to increasing attention in the world.It is a kind of that to study many and more feasible be that (as: OXC) introduces IP-based control plane technology in optical switching device, thus the intelligent control ability of raising network.As AT﹠amp; The Greenberg of T research laboratory, G.

People such as and J.Yates are at Optical Fiber Commun.Conf., a kind of novel router architecture technology based on the WDM transmission technology reported in the article of delivering on 2000 that is entitled as " SmartRouters-Simle Optics.The Future Architecture for the Optical Internet ", the advantage of the type node device is that intelligent degree is improved, as light path dynamically is provided, realize network traffic engineering (TE), network survivability is good etc., but deficiency is only to support wavelength to exchange a kind of mode at Forwarding plane (switching network), in essence, the business of the type equipment is dredged granularity (grooming granularity) and ability still be apparent not enough (because no packet switch transfer capability).Other has the optical router technology of many mechanisms research based on light packet switching (OPS) technology or light burst-switched (OBS) technology; as C.Guillemot; people such as M.Renaud are at Journal of lightwave and Technology; special issue onPhotonic Packet Switching Systems; the article of delivering on the Technologies and Techniques 1998 that is entitled as " Transparent optical packet switching:the European ACTS KEOPS project approach "; reported the big Capacity Optical Packet Switch Node of a kind of broadcasting selection type device structure; this structure adopts optical branching device in a large number; tunable wavelength converter; semiconductor optical switch (SOA); fibre delay line novel light/electric devices such as (FDL) has been realized small grain size light grouping (IP bag; ATM cell etc.) big capacity switching technology (reaching the T bit); the advantage of this node device structure is to carry out the packet switching of big capacity small grain size; but shortcoming is QoS; traffic engineering (TE); intelligent network levels such as protection/recovery capability do not obtain embodying and do not obtain fine solution in other words; the node device of the type structure is feasible in theory and technology in addition; but in actual development process; owing to can't obtain the support of devices/chips that can be commercial, we can say in 10 years and can't realize its commercial use.

From technical literature of having published and the achievement in research that retrieves, no matter be the router/switch of which kind of type, its architecture all not exclusively has following ability: big capacity and the ability that can smoothly expand; The exchange capacity of multiple granularity; Photoelectricity aspect based on GMPLS is unified control ability; Photoelectricity based on Simple Network Management Protocol (SNMP) is unified network management capabilities; The elasticity appointment ability of the high flexible of networking and network function etc.

Summary of the invention:

The objective of the invention is to deficiency at existing photosphere and electricity layer treatment technology, a kind of integrated intelligent photoelectric mixed router of novel architecture is provided, abbreviate optical router as, enable to satisfy optical internet of future generation big many granularities of capacity exchange capacity of node device, multiple QoS are guaranteed ability, unit-modularized strong extended capability and the functional requirements such as intelligent ability of management, maintenance and control.

For realizing such purpose, the present invention gets up the flexibility of electricity layer packet switch and the big capacity advantages of intelligent advantage and optical layer wavelength exchange, the integrated intelligent photoelectric mixed router of a kind of novel architecture of design on traditional router architecture basis, mainly adopted the DWDM optical transport technology, the big capacity photoelectricity hybrid switching network technology that adds high-speed line interfacing (as: OC-192/STM-64 etc.) and surpass the T bit is to realize the operation exchange and the transmission of big capacity and many granularities (wavelength and packet switch equigranular); Introduce photosphere/unified control plane of electricity layer simultaneously based on multi protocol label exchange (GMPLS) technology, this control plane mainly comprises unified route and unified signaling protocol processing two large divisions, Routing Protocol is partly finished the real-time update of network topology and resource information, forms the unified routing table of network and is used for bag forwarding and channel selecting; Signaling protocol partly finish label switched path (LSP) foundation, safeguard and operation such as dismounting that this control plane also has stronger protect networks and recovery capability simultaneously, be the key of realization intelligent network based on the control plane of GMPLS.The structure of optical router has also comprised other multiple functional process unit with standard interface (physics and logic interfacing) simultaneously, the all functions processing unit is realized full-duplex communication by internal communication network unit (CNU), this unit is equivalent to electric backboard, and the modular capability of system and autgmentability are just very strong like this.

Adopt the software and hardware architecture structure of distributed modular in the technical scheme of the present invention, mainly comprised five functional units and six interfaces (comprising inside and outside interface), wherein:

The major function unit of optical router comprises: (1) wavelength crosspoint, this unit mainly is an operation exchange of finishing coarsegrain wavelength one-level, the IP operation that bypass need not packet-by-packet be handled, this unit line physical interface mainly adopts the DWDM interface, and LI(link interface) is mainly OC-192/STM-64 (can expand to OC-768/STM-256); (2) light adaptation unit, this unit is connected to wavelength crosspoint or packet switch unit with legacy network line interface (as: POS/GE/10GE etc.) and relevant interface according to network management configuration information, perhaps the traditional circuit interface is fitted to the wavelength crosspoint through this unit; (3) packet switch unit, the surface speed forwarding of IP bag is finished in this unit, line interface mainly is the legacy network interface as ATM, POS, Ethernet (ETHERNET) etc., and this unit and wavelength crosspoint are finished the operation exchange and the transmission of the many granularities of big capacity under the coordination control of management plane unit and control plane unit simultaneously; (4) unified management flat unit is finished the unified management function of a plurality of light/electric units, is based on the united net management unit of SNMP/CORBA; (5) unify the control plane unit, this unit is based on the unified network control technology of GMPLS, finishing the route and the signaling protocol of photosphere and electricity layer handles, form integrated unified network topology and resource information and tabulate, finally be used for bag forwarding and optical routing selection according to network topology table and the unified routing table of the Resources list formation network; This unit also comprises the operations such as foundation, maintenance and dismounting of relevant signaling process function to finish label switched path (LSP) simultaneously; this unit also comprises protect networks and restore funcitons simultaneously; because the integrated control plane of physical layer/Link layer/network layer (L1/L2/L3); the L1 physical layer topology of optical router is visible for the IP layer of L3; when therefore breaking down on physics connection road; network can have been accelerated resume speed at the directly fast quick-recovery of IP/GMPLS layer.

The major function interface of optical router comprises: (1) control plane interface, with common channel signalling information and routing iinformation and deliver to a concentrated unified control plane unit with the routing iinformation on road and unify to gather, focus on, physical interface can be various ways, as: GE, 100FE, POS etc.; (2) management plane interface, administrative class information such as the warning information of each unit module, configuration information, performance statistics are sent to a concentrated unified management flat unit handle, physical interface is generally Gigabit Ethernet and 100,000,000 Fast Ethernets (100FE); (3) outside line interface (WDM), the main interconnect backbone network of this WDM interface has an independent wavelength to be used for control channel (transmitting signaling and route process information) at each WDM interface, selects this road wavelength to do common road control channel; (4) outside tributary interface, main interconnected traditional IP or access wavelength business, as: 10GE, POS etc. also comprise channel associated signalling/routing iinformation; (5) inside wavelength interface is transparent service wavelength optical interface, can be directly interconnected by optical fiber connection or light back board; (6) internal optical fiber interface is transparent professional optical interface, can be directly interconnected by optical fiber connection or light back board.

The said optical router of the present invention is based on the integrated intelligent photoelectric mixed router of IP Over WDM, its art-recognized meanings is different in many aspects with the optical router of existing foreign study with architecture, combine the advantage of existing photosphere and electricity layer route-exchanging device, have outstanding feature and progress.Be in particular in:

■ vast capacity: the disposal ability that surpasses the T bit, because the circuit physical interface of wavelength crosspoint mainly adopts the DWDM interface, LI(link interface) is mainly OC-192/STM-64 (can expand to OC-768/STM-256), the support of system resilience switching network mixes many granularity exchanges, therefore can reach and surpass present all-router scale and not have electronic bottleneck.

■ high-performance: the linear speed IP bag forwarding capability that QoS guarantees that has that different brackets, different exchange granularities can be provided according to configuration.Five kinds of professional granularities such as (switching network) inherent support package exchange on Forwarding plane, second layer exchange (as exchanges such as ATM, Ethernets), TDM exchange, wavelength exchange, optical fiber exchange (can according to the actual disposition adjustment).

■ is modularization completely: the software and hardware architecture structure of distributed modular, internal interface are that the light/electric bus of standard is interconnected, are very easy to expansion, can smooth excessiveness to optical router based on full light packet switching (OPS).

■ introduces the control plane technology based on GMPLS: by intelligentized unified network control technology, reduce the network level expense, improve utilization rate of network resource, this unification control plane will be total to road and channel associated signalling and Routing Protocol information and unify aggregation process, concentrates distributing network topological sum resource information simultaneously, unify the routing table of path setting and bag forwarding.

The ■ robustness, the network survivability ability is strong, because the integrated control plane of L1/L2/L3, the L1 physical layer topology of optical router is visible for the IP layer of L3, when therefore breaking down on physics connection road, network can have been accelerated resume speed directly at the directly fast quick-recovery of IP/GMPLS layer.

The network management that ■ simplifies: the photovoltaic element management by unified, reduced the management complexity and the maintenance management expense of operator.Ratio of performance to price height.

■ elasticity multi service platform: can under the multiple network environment, satisfy operator's networking demand under the multiple use, possesses compound network function role, this optical router can be used as polytype node device (as: as OXC, ip router, optical router etc.) (as optical transfer network (OTN), IP backbone, multi-service MAN backbone network etc.) on the polytype backbone network and uses, and can satisfy the multiple complex function requirement of operator to node device.

Utilized the designed optical router that comes out of the present invention can satisfy the networking function demand of IP Over WDM optical internet of future generation, and can significantly improve network performance simultaneously, reduce the construction cost of key broadband network.

Description of drawings:

Fig. 1 is a theory structure block diagram of the present invention.

Fig. 2 is the internal structure block diagram of one embodiment of the invention.

Among Fig. 1 Fig. 2: the 1st, the wavelength crosspoint; The 2nd, the light adaptation unit; The 3rd, the packet switch unit; The 4th, the unified management flat unit; The 5th, unified control plane unit; The 6th, the control plane interface; The 7th, the management plane interface; The 8th, outside line interface; The 9th, outside tributary interface; The 10th, the inside wavelength interface; The 11st, the internal optical fiber interface; The 12nd, Optical Amplifier Unit; The 13rd, multiplex/demultiplex unit (having the power equalization function); The 14th, the wavelength switch fabric unit; The 15th, the Line cards unit; The 16th, the packet network unit; The 17th, the internal communication network unit; The 18th, common channel signalling interface card unit; The 19th, the control plane processing unit.

Embodiment:

For understanding technical scheme of the present invention better, be further described below in conjunction with drawings and Examples.

Accompanying drawing 1 is a theory diagram of the present invention.

As shown in Figure 1, the present invention includes five major function unit and six interfaces that comprise inside and outside interface: wavelength crosspoint (1); Light adaptation unit (2); Packet switch unit (3); Unified management flat unit (4); Unified control plane unit (5); Control plane interface (6); Management plane interface (7); Outside line interface (WDM) (8); Outside tributary interface (9); Inside wavelength interface (10); Internal optical fiber interface (11) etc.

Wavelength crosspoint (1) connects WDM light group signals by outside line interface (8), passes through internal wave simultaneously

Wavelength crosspoint (1) connects WDM light group signals by outside line interface (8), be connected to light adaptation unit (2) by inside wavelength interface (10) simultaneously, light adaptation unit (2) connects outside tributary interface (legacy network line interface signal) (9), simultaneously according to administration configuration, by internal optical fiber interface (11) a part of signal is routed to packet switch unit (3) and carries out packet switch, perhaps by on the inside wavelength interface (10)/following road carries out wavelength exchange to wavelength crosspoint (1), unified management flat unit (4) links to each other with each unit by management plane interface (7), and unified control plane unit (5) links to each other with packet switch unit (3) with wavelength crosspoint (1) by control plane interface (6).

During work, light group signals (WDM) at first enters wavelength crosspoint (1) by outside line interface (WDM) interface (8), the operation exchange of coarsegrain wavelength one-level is finished in this unit, the IP operation that bypass need not packet-by-packet be handled, enter light adaptation unit (2) according to network management configuration again by inside wavelength interface (10) signal, this unit will be connected to wavelength crosspoint (1) or packet switch unit (3) by the outside tributary interface (9) of legacy network line interface (as: POS/GE/10GE etc.) according to network management configuration information, and this unit is also finished functions such as light conversion (OTU) and light top and bottom path simultaneously; Signal outputs to packet switch unit (3) through internal optical fiber interface (11) then, and the surface speed forwarding function of IP bag is finished in this unit.By wavelength crosspoint (1), light adaptation unit (2), the unit collaborative works such as (3) of packet switch unit, finish the exchange and the transmission of multiple granularity service signal at last.Wavelength crosspoint (1) is connected with unified control plane unit (5) by control plane interface (electrical interface) (6) with packet switch unit (3) simultaneously, is used for road and information processings such as agreement such as the route that is total to the road, signaling, renewal and the issue of topological sum resource information; Each unit all is connected with unified management flat unit (4) by management plane interface (electrical interface) (7), is used for the operations such as transmission, processing and renewal of information such as each configuration of cells category information, alarm category information and performance statistics class.The line that is connected with unified control plane unit (5) among Fig. 1 is represented control channel (two-way), is used to transmit control category informations such as route, signaling; The line that is connected with unified management flat unit (4) is management channels (two-way), is used for transmitting administrative class information such as configuration, statistics.

Accompanying drawing 2 is the theory diagram of one embodiment of the invention.

Embodiment shown in Figure 2 is a design example with the principle of the optical router of 1.6T, and its main design objective is:

◆ the elasticity photoelectricity of clog-free, modularization and easily expansion mixes many switching networks framework, can progressively carry out the transition to single optical packet switch network, system's equivalence switching network capacity is 1.6T (light/electric switching network elasticity configuration), and the architecture support expands to the full light packet switching of P bit.

◆ abundant group road and tributary interface type: WDM interface, SDH, GE/10GE etc., equivalent I/O interface are 4 WDM (line interfaces of 40 ripples/10G).

◆ unified control plane system, can realize functions such as the unified signaling based on agreements such as GMPLS, unified route;

◆ support the not linear speed bag retransmission technique of (＞8) of multipriority, IP bag forwarding rate is not less than 200Mpps, and bag is transmitted average retardation " 100 microseconds, the maximum 1ms of bag forward delay, the rate of substitute under 80% line load PLR " 10 ^-10.

◆ the unified route table items number 1M that can hold

◆ unified network management, realize the optoelectronic integration network management based on SNMP;

◆ possess compound network function role, various topological structures is supported in networking.

◆ satisfy the carrier class instructions for use, support multiple self-healed protection recovery algorithms etc.

As shown in Figure 2, this T bit optical router mainly contains 10 unit (or subsystem) composition: Optical Amplifier Unit OAU (12); Multiplex/demultiplex unit (having the power equalization function) MDU (13); Wavelength switch fabric unit WSU (14); Light adaptation unit OCU (2); Line cards unit LCU (15); Packet network unit PSU (16); Internal communication network unit CNU (17); Common channel signalling interface card cell S IU (18); Control plane processing unit CPU (19); Management plane processing unit MPU (4).Business interface comprises: 4 40 ripples/10G WDM interfaces (8); 32 10G line interfaces of equivalence (10G POS or 10GE) (9) etc.Be that the boundary has four major function unit with four frame of broken lines simultaneously, they are core cells of system.

In the present embodiment, the Optical Amplifier Unit of Fig. 1 (1) is decomposed into Optical Amplifier Unit OAU (12), multiplex/demultiplex unit MDU (13) and wavelength switch fabric unit WSU (14), packet switch unit (3) is decomposed into Line cards unit LCU (15) and packet network unit PSU (16), and unified control plane unit (5) is decomposed into common channel signalling interface card cell S IU (18) and control plane processing unit CPU (19).Unified management flat unit (4) is replaced by internal communication network unit CNU (17) with the logic connecting relation of unified control plane unit (5) with other unit, be that unified management flat unit (4) is connected with internal communication network unit (17) by the GE interface with unified control plane unit (5), and by interconnecting function unit, internal communication network unit (17).Internal communication network unit (17) is equivalent to the electric backboard of a physics, is used for replacing the logic connecting relation among Fig. 1.

4 40 ripples/10G WDM line interface signals (8) directly enter Optical Amplifier Unit (OAU) (12), and Optical Amplifier Unit (OAU) (12) all is connected by light back board with multiplex/demultiplex unit (MDU) (13) and wavelength switch fabric unit (WSU) (14); Wavelength switch fabric unit (WSU) (14) is connected to light adaptation unit (OCU) (2) by optical fiber simultaneously, and 32 10G line interfaces of equivalence (10G POS or 10GE) (9) etc. also are connected to light adaptation unit (OCU) (2); Line cards unit (LCU) (15) connects light adaptation unit (OCU) (2) by optical fiber; Line cards unit (LCU) (15) is connected by 32 core flat optical cables with packet network unit (PSU) (16); Wavelength switch fabric unit (WSU) (14) connects common channel signalling interface card unit (SIU) (18) by optical fiber in addition.All unit all are connected by the electric backboard based on Ethernet with internal communication network unit (17).

Operation principle: at first the light group signals (8) of 4 tunnel 40 ripples/10G compensates the preposition multiplex/demultiplex unit (13) that is amplified into wavelength (de) multiplexing by Optical Amplifier Unit (12) with light signal, according to network management configuration, signal is divided into two-way, first via signal is that Traffic Channel wavelength signals (maximum 160 wavelength) is delivered to wavelength switch fabric unit (14), the exchange of 256X256 wavelength is supported in this unit, finish the operation exchange of coarsegrain wavelength one-level, service signal after the wavelength exchange is divided into two-way again, one the tunnel is the IP operation that need not packet-by-packet handle of bypass, and this part coarsegrain service signal directly enters multiplex/demultiplex unit (13) to carry out light signal to export after the power amplification with outputing to Optical Amplifier Unit (12) behind the wavelength multiplexing; Another road signal is that a part of wavelength signals (maximum 160 wavelength) is delivered to light adaptation unit (2), this unit is connected to wavelength switch fabric unit (14) or Line cards unit (15) according to network management configuration information with branch road legacy network line interface signal (as: POS/GE/10GE etc.) (9), and the light conversion is mainly finished in this unit, light is adaptive and function such as light top and bottom path.The second road signal be with 4 road common channel signalling channel wavelength signals (each WDM interface have one tunnel wavelength signals be used as control channel with) deliver to and deliver to control plane processing unit (19) after common channel signalling interface card unit (18) is handled and carry out centralized and unified processing, renewal and the issue etc. of information such as agreements such as route, signaling.Light adaptation unit (2) outputting multiplex signals (maximum 32 tunnel) is delivered to packet network unit (16) after carrying out link processing to Line cards unit (15), the surface speed forwarding and the function of exchange of IP bag finished in this unit, and isochrone an outpost of the tax office unit (15) delivers to control plane processing unit (19) with information such as road Routing Protocols and carries out centralized and unified processing, renewal and the issue etc. of information such as agreements such as route, signaling each road.This T bit optical router system is by the interconnected all functional units in internal communication network unit (17), the all functions unit all can carry out the clean culture and the cast communication of full duplex by the internal communication network unit, Single Component Management plane treatment unit (4) is connected with internal communication network unit (17) by the GE interface and is used for each configuration of cells category information, the transmission of information such as alarm category information and performance statistics class, operations such as processing and renewal, control plane processing unit (19) is connected with internal communication network unit (17) the signaling with road and common road by the GE interface, protocol informations such as route carry out centralized and unified processing, operations such as renewal and issue.The line that each unit is connected with internal communication network unit (17) among Fig. 2 is represented control channel or management channels (two-way), is used to transmit control category informations such as route, signaling; Perhaps be used for transmitting administrative class information such as configuration, statistics.Thick line is a gigabit ethernet interface, and fine rule is 100,000,000 fastethernet interfaces.

Claims (6)

1, a kind of integrated intelligent photoelectric mixed router, it is characterized in that adopting the software and hardware architecture structure of distributed modular, mainly comprise five functional units and six inner/outer interfaces: wavelength crosspoint (1), light adaptation unit (2), packet switch unit (3), unified management flat unit (4), unified control plane unit (5), control plane interface (6), management plane interface (7), outside line interface (8), outside tributary interface (9), inside wavelength interface (10) and internal optical fiber interface (11), wavelength crosspoint (1) connects WDM light group signals by outside line interface (8), be connected to light adaptation unit (2) by inside wavelength interface (10) simultaneously, light adaptation unit (2) links to each other with outside legacy network circuit by outside tributary interface (9), simultaneously according to administration configuration, by internal optical fiber interface (11) a part of signal is routed to packet switch unit (3) and carries out packet switch, perhaps by on the inside wavelength interface (10)/following road carries out wavelength exchange to wavelength crosspoint (1), unified management flat unit (4) links to each other with each unit by management plane interface (7), and unified control plane unit (5) links to each other with packet switch unit (3) with wavelength crosspoint (1) by control plane interface (6).

2, as the said integrated intelligent photoelectric mixed router of claim 1, it is characterized in that wavelength crosspoint (1) finishes the operation exchange of coarsegrain wavelength one-level, the IP operation that bypass need not packet-by-packet be handled, its circuit physical interface adopts the DWDM interface, LI(link interface) is OC-192/STM-64, can expand to OC-768/STM-256, the surface speed forwarding of IP bag is finished in packet switch unit (3), finishes the operation exchange and the transmission of the many granularities of big capacity simultaneously under the coordination control of unified management flat unit (4) and unified control plane unit (5) with wavelength crosspoint (1).

3, as the said integrated intelligent photoelectric mixed router of claim 1, it is characterized in that unified management flat unit (4) is based on the unified network management unit of SNMP/CORBA, realize the light/electric unified management of network different levels.

4, as the said integrated intelligent photoelectric mixed router of claim 1, it is characterized in that unified control plane unit (5) is based on the photosphere of multi protocol label exchange GMPLS technology/unified control plane of electricity layer, comprise unified route and unified signaling protocol processing two large divisions.

5, as claim 1,3 or 4 said integrated intelligent photoelectric mixed routers, it is characterized in that unified management flat unit (4) is connected with the internal communication network unit (17) that is equivalent to electric backboard by the GE interface with unified control plane unit (5), and by interconnecting function unit, internal communication network unit (17).

6,, it is characterized in that outside line interface (8) adopts independent wavelength to be used to transmit the control channel of signaling and routing iinformation, and select this road wavelength to do common road control channel as the said integrated intelligent photoelectric mixed router of claim 1.