CN104184613A - Method and apparatus for sharing passive optical network - Google Patents
Method and apparatus for sharing passive optical network Download PDFInfo
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Abstract
The embodiments of the invention relate to the technical field of communications, and disclose a method and apparatus for sharing a passive optical network, for enhancing common building and sharing of a network, decreasing building cost and operation cost, reducing information security risks and improving network reliability. The method comprises: a stationed place network management system determining a service provider corresponding to an ONU, and adding the service provider identification of the service provider corresponding to the ONU in a communication protocol stack between an OLT and an ONU; the stationed place network management system establishing a first mapping relation and a second mapping relation, wherein the first mapping relation is a mapping relation between the service provider identification and an uplink port group, the second mapping relation is a mapping relation between the service provider identification and the ONU, and the service provider identification is used for distinguishing service provider; and the stationed place network management system, according to the first mapping relation and the second mapping relation, performing data interaction between the service provider and the ONU by use of the communication protocol stack between the OLT and the ONU. The method and apparatus for sharing the passive optical network are applied to a scene in which the passive optical network is shared.
Description
Technical field
The present invention relates to communication technical field, relate in particular to a kind of method and apparatus of shared EPON.
Background technology
Along with take the fast development of ICT (information and communication technology) and the improving constantly of social informatization degree that Internet (the Internet) is representative, the continuous increase of broadband user's quantity, impels Optical Access Network network development.PON (Passive Optical Network, passive optical-fiber network) be the mainstream technology in Optical Access Network network in recent years, PON system is by OLT (Optical Line Terminal, optical line terminal), ODN (Optical Distribution Network Unit, fiber distribution net) and ONU (Optical Network Unit, optical network unit) form.Wherein OLT is the core component of whole PON system, and the high-speed interface of Access Network and core net/metropolitan area network is upwards provided, and provides downwards towards the PON interface of a point-to-multipoint of passive optical-fiber network; ODN is fiber distribution network, can make the broadband of a PON interface be shared by a plurality of ONU; ONU is user side access point, for realizing the access of data, speech etc.
Fiber to the home builds development, has become the leading access module of current Access Network.For make urban construction and information development more coordinate, more orderly, require operator and dwelling construction side to be responsible for respectively the Wiring module of exchange and the Wiring module of user's side, make the Optical Access Network network equal access of each operator.As shown in Figure 1, the user access point of Access Network of the prior art is divided into two parts, and the left side is the responsible light distributing cabinet of operator, and the right is the responsible common light distributing cabinet in dwelling construction side.Operator is responsible for distributing cabinet separately, and is connected with common light distributing cabinet, and there is the public fiber-dividing box of oneself in Mei Dong building, and public fiber-dividing box is connected with particular user with common light distributing cabinet respectively by optical cable, realizes the connection of Optical Access Network network.
Because telecommunication service operator and dwelling construction side are responsible for respectively the construction of oneself, so when user activates the service, all need between operator and public wiring case, carry out jumping fiber at every turn, yet the enforcement of jumping fiber is complicated, continually at user access point jumping fiber, easily there is jumping fiber connection error, produce Information Security Risk, thereby reduced network reliability.
Summary of the invention
Embodiments of the invention provide a kind of method and apparatus of shared EPON, can reduce Information Security Risk, improve network reliability.
For achieving the above object, embodiments of the invention adopt following technical scheme:
On the one hand, the embodiment of the present invention provides a kind of method of shared EPON, for a kind of passive optical network, described passive optical network comprises residence network guard system and passive optical network PON, described PON at least comprises optical line terminal OLT and optical network unit ONU, described OLT comprises at least one group of first line of a couplet port set, and described first line of a couplet port set is used for connecting operator and described OLT; Described method comprises:
Described residence network guard system is determined the operator that described ONU is corresponding, and in the communication protocol stack between described OLT and described ONU, adds operator's sign of the operator that described ONU is corresponding;
Described residence network guard system is set up the first mapping relations and the second mapping relations, described the first mapping relations are the mapping relations of described operator sign and described first line of a couplet port set, described the second mapping relations are the mapping relations of described operator sign and described ONU, and described operator sign is used for distinguishing operator;
Described residence network guard system is according to the first mapping relations and the second mapping relations, and utilizes the communication protocol stack between described OLT and described ONU, between described operator and described ONU, carries out data interaction.
On the other hand, the embodiment of the present invention provides a kind of device of shared EPON, for a kind of passive optical network, described passive optical network comprises residence network guard system and passive optical network PON, described PON at least comprises optical line terminal OLT and optical network unit ONU, described OLT comprises at least one group of first line of a couplet port set, and described first line of a couplet port set is used for connecting operator and described OLT; Described device comprises:
Operator's determination module, for determining operator corresponding to described ONU, and the operator that adds the operator that described ONU is corresponding in the communication protocol stack between described OLT and described ONU identifies;
Mapping block, be used for setting up the first mapping relations and the second mapping relations, described the first mapping relations are the mapping relations of described operator sign and described first line of a couplet port set, described the second mapping relations are the mapping relations of described operator sign and described ONU, and described operator sign is used for distinguishing operator;
Data interaction module, for according to the first mapping relations and the second mapping relations, and utilizes the communication protocol stack between described OLT and described ONU, between described operator and described ONU, carries out data interaction.
The embodiment of the present invention provides a kind of method and apparatus of shared EPON, by residence network guard system management PON system, determine the operator that ONU is corresponding, and operator's sign of adding the operator that ONU is corresponding in the communication protocol stack between OLT and ONU, set up operator's sign and the mapping relations of first line of a couplet port set and the mapping relations of operator's sign and ONU, and according to mapping relations, between operator and ONU, carry out data interaction.With need to compare in the prior art of carrying out jumping fiber between operator and common light distributing cabinet, in scheme provided by the invention, owing to having set up the mapping relations of operator's sign with first line of a couplet port set, and the mapping relations of operator's sign and ONU, so when user activates the service or changes operator, mapping relations according to operator's sign of having set up with first line of a couplet port set, and the mapping relations of operator's sign and ONU, just can realize the data interaction between ONU corresponding to Yu Gai operator of operator, without carry out complicated jumping fiber between operator and common light distributing cabinet, thereby reduced Information Security Risk, improved network reliability.
Accompanying drawing explanation
In order to be illustrated more clearly in the technical scheme in the embodiment of the present invention, to the accompanying drawing of required use in embodiment be briefly described below, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skills, do not paying under the prerequisite of creative work, can also obtain according to these accompanying drawings other accompanying drawing.
The configuration diagram of a kind of Optical Access Network network that Fig. 1 provides for prior art;
The configuration diagram of a kind of EPON that Fig. 2 provides for the embodiment of the present invention;
The flow chart of the method for a kind of shared EPON that Fig. 3 provides for the embodiment of the present invention;
The flow chart of a kind of implementation of the method for a kind of shared passive optical network that Fig. 4 provides for the embodiment of the present invention;
The flow chart of the another kind of implementation of the method for a kind of shared passive optical network that Fig. 5 provides for the embodiment of the present invention;
The flow chart of another implementation of the method for a kind of shared passive optical network that Fig. 6 a provides for the embodiment of the present invention;
The another kind that Fig. 6 provides for the embodiment of the present invention is shared the flow chart of the method for passive optical network;
The EPON of a kind of non-pond group that Fig. 7 provides for the embodiment of the present invention illustrate schematic diagram;
The EPON of a kind of pond group that Fig. 8 provides for the embodiment of the present invention illustrate schematic diagram;
The structural representation of the device of a kind of shared EPON that Fig. 9 provides for the embodiment of the present invention;
The structural representation of a kind of implementation of the device of a kind of shared EPON that Figure 10 provides for the embodiment of the present invention;
The structural representation of the another kind of implementation of the device of a kind of shared EPON that Figure 10 a provides for the embodiment of the present invention;
The structural representation of another implementation of the device of a kind of shared EPON that Figure 11 provides for the embodiment of the present invention.
Embodiment
Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is clearly and completely described, obviously, described embodiment is only the present invention's part embodiment, rather than whole embodiment.Embodiment based in the present invention, those of ordinary skills, not making all other embodiment that obtain under creative work prerequisite, belong to the scope of protection of the invention.
The technical scheme that the embodiment of the present invention provides is applied to passive optical network, in embodiments of the present invention, as shown in Figure 2, passive optical network comprises residence network guard system and PON (Passive Optical Network, passive optical-fiber network), wherein, PON at least comprises OLT (Optical Line Terminal, optical line terminal) and ONU (Optical Network Unit, optical network unit), OLT comprises at least one group of first line of a couplet port set, and first line of a couplet port set is used for connecting operator and OLT.Telecom operators are connected by first line of a couplet port set with OLT, and OLT and ONU are connected by ODN (Optical Distribution Network Unit, fiber distribution net).Wherein ODN is the fiber distribution network being comprised of POS (Passive Optical Splitter, passive fiber splitter).Residence network guard system is connected with OLT, and management and supervision said system, thereby realizes the data interaction between operator and ONU.Wherein, the particular user terminal that ONU side connects can be landline telephone, FE (Fast Ethernet) etc.In addition, PON in the present invention comprises GPON (Gigabit-Capable Passive Optical Network, gigabit passive optical network), EPON (Ethernet Passive Optical Network, ethernet passive optical network), 10G EPON (10G ethernet passive optical network) and WDM PON (Wavelength Division Multiplexing Passive Optical Network, Wave division multiplexing passive optical network) etc., here do not limit.
The embodiment of the present invention provides a kind of method of shared EPON, as shown in Figure 3, comprising:
101, described residence network guard system is determined the operator that described ONU is corresponding, and in the communication protocol stack between described OLT and described ONU, adds operator's sign of the operator that described ONU is corresponding.
Wherein, residence network guard system is determined the operator that OLT is corresponding with communication protocol stack between ONU, in specific implementation process, can in communication protocol stack, increase extended byte, extended byte is used for identifying operator, and extended byte can be digital, alphabetical or other can play the character string of mark action.Optionally, can enable byte by increasing, by residence network guard system, by detection, enable byte and determine whether enabling extended byte, enable byte and whether enable extended byte for sign.For example: in EPON/GPON, can in lead code, increase the extended byte of sign operator, and in lead code, EXTEND byte is set, for setting, whether enable extended byte.When residence network guard system setting EXTEND is TRUE, under PON system, OLT and ONU all enable for identifying the extended byte of operator.
Wherein, determine the operator that ONU is corresponding, can load operator's sign for all ONU, operator's sign, for distinguishing different operators, makes the corresponding Yi Ge of ONU operator, and Er Yige operator can corresponding one or more ONU.In addition, in this programme, by OLT, carry with operator and identify corresponding data with communication protocol stack between ONU, make to carry out between operator and ONU data interaction.
102, described residence network guard system is set up the first mapping relations and the second mapping relations.
Wherein, the first mapping relations are the mapping relations of operator's sign and first line of a couplet port set, and first line of a couplet port set at least comprises a first line of a couplet port, different business corresponding to first line of a couplet port.Residence network guard system is processed according to the business game of operator, selects business to be forwarded to certain corresponding concrete first line of a couplet port.The second mapping relations are the mapping relations of operator's sign and ONU, and operator's sign is used for distinguishing operator.
Wherein, for operator increases operator's sign, and the pre-set first line of a couplet port set by being linked to each operator on OLT equipment, can obtain the first mapping relations.For example: the operator of first operator is designated operator 1, corresponding first line of a couplet port set is first line of a couplet port set 1; The operator of second operator is designated operator 2, and corresponding first line of a couplet port set is first line of a couplet port set 2; The operator of San Ge operator is designated operator 3, and corresponding first line of a couplet port set is first line of a couplet port set 3.The operator's sign obtaining is as shown in table 1 with the mapping relations table that first line of a couplet port set forms.
Table 1
Operator's sign | First line of a couplet port set |
Operator 1 | First line of a couplet port set 1 |
Operator 2 | First line of a couplet port set 2 |
Operator 3 | First line of a couplet port set 3 |
… | … |
As shown in table 1, operator's sign forms relation one to one with first line of a couplet port set, and the mapping relations of known first line of a couplet port set and operator's sign and first line of a couplet port set just can obtain the operator sign corresponding with this first line of a couplet port set.
Wherein, in the time of can activating the service the user corresponding with ONU, input ONU identifies for this ONU loads operator.Can or number expand by the sign in PON, thereby load operator's sign.For example: can expand the LLID in EPON (logic ID); Can expand the SN in GPON (product ID) number; Also can expand other signs of PON, not limit here.
Wherein, the hardware resource of ONU numbering and software resource numbering all can be used as ONU sign, are used for distinguishing ONU.Wherein, the hardware resource of ONU numbering can be ONU dispatch from the factory title or numbering, and the software resource numbering of ONU is by obtaining ONU Custom Number.All ONU are loaded to operator's sign, just obtain the mapping relations of ONU sign and operator's sign, i.e. the second mapping relations.For example: 4 hardware resources corresponding to ONU are numbered ONU1-ONU4, corresponding software resource is numbered ONU (1)-ONU (4).The hardware resource of First ONU is numbered ONU1, and software resource is numbered ONU (1), and the operator of loading is designated operator 1; The hardware resource of second ONU is numbered ONU2, and software resource is numbered ONU (2), and the operator of loading is designated operator 3; The hardware resource of the 3rd ONU is numbered ONU3, and software resource is numbered ONU (3), and the operator of loading is designated operator 2; The hardware resource of the 4th ONU is numbered ONU4, and software resource is numbered ONU (4), and the operator of loading is designated operator 2.The ONU sign obtaining is as shown in table 2 with the mapping relations table of operator's sign formation.
Table 2
As shown in table 2, the corresponding Yi Ge of ONU operator, Er Yige operator can corresponding one or more ONU, and hardware resource numbering and software resource are numbered and all can be identified ONU.Known ONU sign, the known operator corresponding with this ONU of mapping relations table forming according to the second mapping relations.
In addition, in PON system, start after expansion operator sign, residence network guard system is set operator's sign, because operator's sign is corresponding one by one with operator, each operation commercial city has management system separately, so can define according to operator's quantity of setting the quantity of operator's management system.Wherein, the large I of operator's management system decides according to the number of ONU corresponding to each operator, do not need to allocate in advance, and the ODN between OLT and ONU shares.
103, described residence network guard system is according to the first mapping relations and the second mapping relations, and utilizes the communication protocol stack between described OLT and described ONU, between described operator and described ONU, carries out data interaction.
Wherein, between operator and ONU, carry out mutual data and comprise upstream data and downlink data.Between operator and ONU, there is OLT, while carrying out data interaction between operator and ONU, will transmit data by OLT.Wherein, between OLT and ONU by by Deta bearer in having on the communication protocol stack of operator sign, thereby carry out the data interaction between OLT and ONU.
Concrete, the data that CongONUDao operator transmits are upstream data.Residence network guard system is according to the second mapping relations, judge the operator sign corresponding with ONU, again according to the first mapping relations, judgement Yu Gai operator identifies corresponding first line of a couplet port set, and give this first line of a couplet port set by data retransmission, thereby transfer data to this operator, identify corresponding operator.Operator can only receive the ONU information relevant to self, and does not receive the information of the ONU of other operators.
The data that transmit from operator to ONU are downlink data, obtain the first line of a couplet port set being connected with operator.Afterwards data are transmitted to OLT by first line of a couplet port set by operator, when data are transmitted to ONU from OLT, by Deta bearer in communication protocol stack, and utilize the second mapping relations, send the data to operator and identify corresponding ONU, when ONU receives data, by ONU, identify and determine that again reception and this ONU identify the data of corresponding ONU.For the corresponding a plurality of ONU of Yi Ge operator, ONU obtains the scheme of the data of oneself, and prior art is comparatively ripe, at this, no longer carefully states.ONU can only receive the data that the operator corresponding with self transmits, and does not receive the data that other operators transmit.
For example: in table 2, ONU3 and ONU4 are used by the user of operator 2, system renumbers the self-defined ONU that issues operator 2 into the numbering ONU in the virtual system of operator 2 (3) and ONU (4), and by virtual resource real-time report to operator 2, and the ONU of other operators resource can not be seen by operator 2.
In addition, residence network guard system has highest weight limit scope, all OLT and hardware and the self-defining resource of ONU in can management and supervision PON, and manage mapping relations table.Carrier side can be managed OLT first line of a couplet port, ONU, the ONU port that Yu Ben operator is relevant, and the resource such as related service priority.Such as: operator 1, on can managing in PON system, be linked to the resources such as priority policy that ONU, ONU port resource, this operator of user's side of first line of a couplet port resource that operator 1 is relevant, operator 1 can arrange and scheduling strategy.
Wherein, the configuration of data transfer path is first to carry out software configuration, then is converted into hardware configuration.Wherein, software configuration is the self-defined configuration that residence network guard system carries out the port of transfer of data.For example: the transmission of software configuration data is from the port a of ONU (1), to be sent to the first line of a couplet port one of OLT.The transmission of corresponding hardware configuration data is from the port a of ONU1, to be sent to the PON interface 1 of OLT equipment, is finally sent to the port one of first line of a couplet port set 1.Wherein, the software resource numbering that ONU (1) is ONU, the hardware resource numbering that ONU1 is ONU.
Concrete, when ONU opens or changes business, residence network guard system is determined the operator under ONU, relevant configuration information is sent to ONU, and load the operator sign of corresponding operator for ONU, by setting up the mapping relations between operator's sign and ONU, and the mapping relations between operator's sign and first line of a couplet port set, ONU is according to the basic configuration information obtaining, operator's sign that utilization has been set up and the mapping relations between ONU, and the mapping relations between operator's sign and first line of a couplet port set, by identifying corresponding first line of a couplet port set with operator, to operator, initiate registration, operator can be to ONU issuing service configuration information, as speed limit, VLAN (Virtual Local Area Network, VLAN) divide, the precedence information of port etc., thereby set up communication port, carry out follow-up data exchange process.
The embodiment of the present invention provides a kind of method of shared EPON, by residence network guard system management PON system, determine the operator that ONU is corresponding, and operator's sign of adding the operator that ONU is corresponding in the communication protocol stack between OLT and ONU, set up operator's sign and the mapping relations of first line of a couplet port set and the mapping relations of operator's sign and ONU, and according to mapping relations, between operator and ONU, carry out data interaction.With need to compare in the prior art of carrying out jumping fiber between operator and common light distributing cabinet, in scheme provided by the invention, owing to having set up the mapping relations of operator's sign with first line of a couplet port set, and the mapping relations of operator's sign and ONU, so when user activates the service or changes operator, mapping relations according to operator's sign of having set up with first line of a couplet port set, and the mapping relations of operator's sign and ONU, just can realize the data interaction between ONU corresponding to Yu Gai operator of operator, without carry out complicated jumping fiber between operator and common light distributing cabinet, thereby reduced Information Security Risk, improved network reliability.When transmitting data, operator can only receive and own relevant ONU information, and do not receive the information of the ONU of other operators, ONU also can only receive the data that the operator corresponding with self transmits, and can't accept the data that other operators transmit, thereby improved the fail safe of shared PON system, also simplified the management of Liao Ge operator.Wherein, the large I of operator's management system decides according to the number of ONU corresponding to each operator, does not need to allocate in advance, thereby has strengthened the Joint construction and sharing of network, has reduced construction cost and operation cost.
Further, on the basis of the scheme shown in Fig. 3, the embodiment of the present invention also provides a kind of concrete scheme of method of shared EPON, the implementation further refinement of this programme to 102 in the scheme shown in Fig. 3, wherein, 102 can specific implementation be 1021-1022, as shown in Figure 4, comprising:
101, described residence network guard system is determined the operator that described ONU is corresponding, and in the communication protocol stack between described OLT and described ONU, adds operator's sign of the operator that described ONU is corresponding.
1021, described residence network guard system is that described ONU distributes ONU sign.
Wherein, ONU sign is used for distinguishing ONU.Wherein, the hardware resource of ONU numbering and software resource numbering all can be used as ONU sign, are used for distinguishing ONU.Wherein, the software resource of ONU numbering is by obtaining ONU is self-defined.
1022, described residence network guard system is set up the first mapping relations, and sets up the mapping relations of described operator sign and described ONU sign.
Wherein, the first mapping relations are the mapping relations of operator's sign and first line of a couplet port set.
Wherein, operator's sign is used for distinguishing operator.For all ONU load operator's sign, the operator's sign loading according to the ONU sign of distributing for ONU in 1021 with for ONU, the corresponding relation of known ONU sign and operator's sign, thus set up the mapping relations that operator's sign and ONU identify.
103, described residence network guard system is according to the first mapping relations and the second mapping relations, and utilizes the communication protocol stack between described OLT and described ONU, between described operator and described ONU, carries out data interaction.
Optionally, on the basis of the scheme shown in Fig. 4, the embodiment of the present invention also provides a kind of concrete scheme of method of shared EPON, the implementation further refinement of this programme to 103 in the scheme shown in Fig. 4,103 can specific implementation be 1031a-1034a, or 103 can specific implementation be 1031b-1034b, as shown in Figure 5, comprising:
101, described residence network guard system is determined the operator that described ONU is corresponding, and in the communication protocol stack between described OLT and described ONU, adds operator's sign of the operator that described ONU is corresponding.
1021, described residence network guard system is that described ONU distributes ONU sign.
1022, described residence network guard system is set up the first mapping relations, and sets up the mapping relations of described operator sign and described ONU sign.
1031a, when data are transmitted to described ONU by described operator, obtains the described first line of a couplet port set being connected with described operator.
Wherein, the data of being transmitted to ONU by operator are downlink data, and the transmission of data is managed by residence network guard system.
1032a, described residence network guard system utilizes described first line of a couplet port set and described the first mapping relations, determines first object operator sign.
Wherein, first object operator is designated the operator sign corresponding with first line of a couplet port set.According to first line of a couplet port set and the first mapping relations known with the corresponding operator of this first line of a couplet port set sign.For example: table 1 is mapping relations tables corresponding to the first mapping relations, the first line of a couplet port set that known certain operator connects is first line of a couplet port set 1, according to the operator of known first line of a couplet port set 1 correspondence of table 1, is designated operator 1.
1033a, described residence network guard system utilizes described first object operator's sign and described the second mapping relations, determines target ONU sign.
Wherein, target ONU is designated with first object operator and identifies corresponding ONU sign.First line of a couplet port set and operator's sign have one-to-one relationship, when data are delivered to ONU, and according to operator's sign of the known correspondence with it of first line of a couplet port set, then according to operator's sign relation corresponding with ONU, known target ONU sign.For example: table 2 is mapping relations tables corresponding to the second mapping relations, the operator that known certain ONU loads is designated operator 1, according to the ONU of the known operator of table 21 correspondence, is ONU (1).
1034a, described residence network guard system identifies according to described target ONU, determines target ONU, makes described operator by the described first line of a couplet port set being connected with described operator, utilize the communication protocol stack between described OLT and described ONU, to described target ONU, transmit data.
Wherein, target ONU is corresponding with target ONU sign.Target ONU sign is used for distinguishing target ONU, and the corresponding relation according to target ONU and target ONU sign, is delivered to target ONU by data.The mass data that operator sends to ONU side carries the ONU sign of each ONU, when ONU side joint is received the mass data of certain operator's transmission, each ONU corresponding to this operator can, according to the ONU sign of self, obtain the data that ONU self needs in mass data.For example: the LLID sign in EPON technology is expanded, thereby ONU is loaded to operator's sign, as at least two ONU of 2 correspondence of operator in table 2, while receiving the data of a plurality of ONU such as ONU3 and ONU4 as ONU3, can be ONU3 or ONU (3) specified data according to the ONU sign of this ONU, thereby receive data.And for example: table 1 is mapping relations tables corresponding to the first mapping relations, and table 2 is mapping relations tables corresponding to the second mapping relations, and the operator of known certain operator is designated operator 1, according to the first line of a couplet port set of the known operator of table 11 correspondence, be first line of a couplet port set 1.Data are sent to OLT by first line of a couplet port set 1, then are designated ONU (1) according to the ONU of the known operator of table 21 correspondence, thereby data are sent in the ONU that ONU (1) is corresponding.
1031b, when data are transmitted to described operator by described ONU, obtains the ONU sign of described ONU.
Wherein, the data that YouONUXiang operator transmits are upstream data, and the transmission of data is managed by residence network guard system.
1032b, described residence network guard system utilizes described ONU sign and described the second mapping relations, determines second targeted carrier's sign.
Wherein, the second targeted carrier is designated with ONU and identifies corresponding operator's sign.ONU sign has one-to-one relationship with targeted carrier's sign, and known ONU sign knownly identifies corresponding targeted carrier's sign with ONU, thereby determines that the second targeted carrier identifies.For example: table 2 is mapping relations tables corresponding to the second mapping relations, known certain ONU is designated ONU (1), according to the second targeted carrier corresponding to the known ONU of table 2 (1), is designated operator 1.
1033b, described residence network guard system utilizes described the second targeted carrier's sign and described the first mapping relations, determines target first line of a couplet port set.
Wherein, target first line of a couplet port set is for to identify corresponding first line of a couplet port set with the second targeted carrier.Targeted carrier sign has one-to-one relationship with first line of a couplet port set, and known second targeted carrier's sign knownly identifies corresponding first line of a couplet port set with the second targeted carrier, thus definite target first line of a couplet port set.For example: table 1 is mapping relations tables corresponding to the first mapping relations, and the operator of known certain operator is designated operator 1, according to the first line of a couplet port set of the known operator of table 11 correspondence, be first line of a couplet port set 1.
1034b, described residence network guard system is according to described second targeted carrier's sign, determine targeted carrier, make described ONU utilize the communication protocol stack between described OLT and described ONU, by described target first line of a couplet port set, to described the second targeted carrier, transmit data.
Wherein, targeted carrier identifies corresponding with the second targeted carrier.Known second targeted carrier's sign, and then can determine targeted carrier.By above definite path relation, data are delivered to targeted carrier from ONU.For example: table 1 is mapping relations tables corresponding to the first mapping relations, table 2 is mapping relations tables corresponding to the second mapping relations, the ONU of known certain ONU is designated ONU (1), according to operator corresponding to the known ONU of table 2 (1), be operator 1, data are sent to ODN from ONU (1) and are sent to OLT again, according to the first line of a couplet port set of the known operator of table 11 correspondence, be first line of a couplet port set 1 again, data are sent to operator 1 by OLT by first line of a couplet port set 1.
The embodiment of the present invention provides a kind of method of shared EPON, by residence network guard system management PON system, determine the operator that ONU is corresponding, and operator's sign of adding the operator that ONU is corresponding in the communication protocol stack between OLT and ONU, set up operator's sign and the mapping relations of first line of a couplet port set and the mapping relations of operator's sign and ONU, and according to mapping relations, between operator and ONU, carry out data interaction.With need to compare in the prior art of carrying out jumping fiber between operator and common light distributing cabinet, in scheme provided by the invention, owing to having set up the mapping relations of operator's sign with first line of a couplet port set, and the mapping relations of operator's sign and ONU, so when user activates the service or changes operator, mapping relations according to operator's sign of having set up with first line of a couplet port set, and the mapping relations of operator's sign and ONU, just can realize the data interaction between ONU corresponding to Yu Gai operator of operator, without carry out complicated jumping fiber between operator and common light distributing cabinet, thereby reduced Information Security Risk, improved network reliability.When ONU equipment breaks down, can check by residence network guard system, and without the facilities such as light distributing cabinet are checked one by one, thereby make fault location simpler, improved maintenance efficiency.
Optionally, on the basis of the scheme shown in Fig. 5, the embodiment of the present invention also provides a kind of concrete scheme of method of shared EPON, this programme can increase 1022a and 1022b after 1022, be convenient to the ONU that operator's network management system management is registered to self, as shown in Figure 6 a, comprise:
101, described residence network guard system is determined the operator that described ONU is corresponding, and in the communication protocol stack between described OLT and described ONU, adds operator's sign of the operator that described ONU is corresponding.
1021, described residence network guard system is that described ONU distributes ONU sign.
1022, described residence network guard system is set up the first mapping relations, and sets up the mapping relations of described operator sign and described ONU sign.
1022a, described ONU sends registration request to the described operator network management system corresponding with described ONU.
Wherein, residence network guard system is for ONU, the first mapping relations and second mapping relations of managed operation business network management system, operator's network management system management.Operator's network management system for manage with operator management system under ONU corresponding to operator.By setting up the mapping relations between operator's sign and ONU, and the mapping relations between operator's sign and first line of a couplet port set, ONU is according to the basic configuration information obtaining, operator's sign that utilization has been set up and the mapping relations between ONU, and the mapping relations between operator's sign and first line of a couplet port set, by identifying corresponding first line of a couplet port set with operator, to operator's network management system, initiate registration request.
1022b, described operator network management system is added into described operator network management system by the ONU sign of the described ONU succeeding in registration.
Wherein, when ONU succeeds in registration, the ONU sign of the ONU succeeding in registration is added in operator's network management system, and ONU obtains the application configuration of this operator, as speed limit, VLAN (Virtual Local Area Network, VLAN) are divided, the precedence information of port etc.Operator's network management system is ONU configuration miscellaneous service, and each corresponding ports in each operator and OLT first line of a couplet port set sets up VLAN passage, thereby the passage that can set according to operator configure and carry out proper communication.
103, described residence network guard system is according to the first mapping relations and the second mapping relations, and utilizes the communication protocol stack between described OLT and described ONU, between described operator and described ONU, carries out data interaction.
The embodiment of the present invention provides a kind of method of shared EPON, by residence network guard system management PON system, determine the operator that ONU is corresponding, and operator's sign of adding the operator that ONU is corresponding in the communication protocol stack between OLT and ONU, set up operator's sign and the mapping relations of first line of a couplet port set and the mapping relations of operator's sign and ONU, and according to mapping relations, between operator and ONU, carry out data interaction.With need to compare in the prior art of carrying out jumping fiber between operator and common light distributing cabinet, in scheme provided by the invention, owing to having set up the mapping relations of operator's sign with first line of a couplet port set, and the mapping relations of operator's sign and ONU, so when user activates the service or changes operator, mapping relations according to operator's sign of having set up with first line of a couplet port set, and the mapping relations of operator's sign and ONU, just can realize the data interaction between ONU corresponding to Yu Gai operator of operator, without carry out complicated jumping fiber between operator and common light distributing cabinet, thereby reduced Information Security Risk, improved network reliability.The large I of operator's management system decides according to the number of ONU corresponding to each operator, does not need to allocate in advance, thereby makes network more manageable, has improved flexibility.
In addition, the embodiment of the present invention also provides a kind of method of shared EPON, as shown in Figure 6, comprising:
201, an OLT is connected with the 2nd OLT, and the ONU of a described OLT connection is connected with described the 2nd OLT, and the ONU that described the 2nd OLT is connected is connected with a described OLT.
Wherein, Chi Zuhua is connected two or multiple devices exactly by interconnecting interface, and in the present embodiment, Chi Zuhua is connected two or many OLT by interconnecting interface.In the group system of pond, can comprise two OLT, also can comprise many OLT, take here two be introduced as example.As shown in Figure 7, do not carry out in the EPON of Chi Zuhua, OLT (1) is connected with residence network guard system 1, and OLT (1) is connected with operator by first line of a couplet port set, then is connected with ONU by ODN1; OLT (2) is connected with residence network guard system 2, and OLT (2) is connected with operator by first line of a couplet port set, then is connected with ONU by ODN2; Now, the PON system that the PON system that residence network guard system 1 is managed and residence network guard system 2 are managed is relatively independent system.OLT in Fig. 7 (1) is connected by interconnecting interface with OLT (2), OLT (1) is connected with POS2, OLT (2) is connected with POS1, and by same residence network guard system, managed the pond group framework obtaining as shown in Figure 8, realized the Chi Zuhua that EPON is shared by a plurality of operators.
202, the ONU that the ONU connecting for a described OLT is connected with described the 2nd OLT distributes described ONU sign.
Wherein, ONU sign is identical with ONU sign in 1021.ONU is re-started to Custom Number, obtain ONU sign, for distinguishing ONU.
203, described residence network guard system is determined the operator that described ONU is corresponding, and in the communication protocol stack between described OLT and described ONU, adds operator's sign of the operator that described ONU is corresponding.
Wherein, definite method of operator is identical with the definite method in 101, repeats no more herein.
204, described residence network guard system is set up the first mapping relations, and the mapping relations of described operator sign and described ONU sign.
Wherein, the first mapping relations are the mapping relations of operator's sign and first line of a couplet port set.All ONU are loaded to operator's sign, and ONU are re-started to Custom Number, obtain ONU sign, by operator identify and ONU sign respectively with the corresponding relation of ONU, obtain the mapping relations that operator's sign and ONU identify.
205, described residence network guard system is according to the first mapping relations and the second mapping relations, and utilizes the communication protocol stack between described OLT and described ONU, between described operator and described ONU, carries out data interaction.
Wherein, data comprise upstream data and downlink data.The transport process of data is identical with 103 process, unique different be when data are sent to OLT, have two approach, can transmit by an OLT, also can transmit by the 2nd OLT.
Concrete, as shown in Figure 8, OLT (1) is connected with OLT (2), now, OLT (2) has identical function with OLT (1), and when OLT (2) is out of service or be removed, OLT (1) can run well with the system that other equipment form; When OLT (1) is out of service or be removed, OLT (2) can run well with the system that other equipment form.OLT (1) and OLT (2) play the effect of mutual backup, so when in OLT (1) and OLT (2) one breaks down, system still can run well, and realizes the effect of Safety Redundancy.If the network that order is comprised of OLT (1) is existing network, the network being comprised of OLT (2) is objective network, existing network and objective network are on physical equipment and link and deposit, when one of them OLT breaks down, without repairing, wait for, the ONU that this OLT connects still can normally move.
The embodiment of the present invention provides a kind of method of shared EPON, by residence network guard system management PON system, determine the operator that ONU is corresponding, and operator's sign of adding the operator that ONU is corresponding in the communication protocol stack between OLT and ONU, set up operator's sign and the mapping relations of first line of a couplet port set and the mapping relations of operator's sign and ONU, and according to mapping relations, between operator and ONU, carry out data interaction.With need to compare in the prior art of carrying out jumping fiber between operator and common light distributing cabinet, in scheme provided by the invention, owing to having set up the mapping relations of operator's sign with first line of a couplet port set, and the mapping relations of operator's sign and ONU, so when user activates the service or changes operator, mapping relations according to operator's sign of having set up with first line of a couplet port set, and the mapping relations of operator's sign and ONU, just can realize the data interaction between ONU corresponding to Yu Gai operator of operator, without carry out complicated jumping fiber between operator and common light distributing cabinet, thereby reduced Information Security Risk, improved network reliability.By the connected mode of Chi Zuhua, many ONU are carried out to unified Custom Number, realize the PON system of pond group, expanded the capacity of PON system.Meanwhile, the resource by many OLT backs up mutually, realizes the function of Safety Redundancy.
The embodiment of the present invention also provides a kind of device 300 of shared EPON, and as shown in Figure 9, device 300 comprises:
Operator's determination module 301, for determining operator corresponding to described ONU, and the operator that adds the operator that described ONU is corresponding in the communication protocol stack between described OLT and described ONU identifies.
Mapping block 302, for setting up the first mapping relations and the second mapping relations.
Wherein, the first mapping relations are the mapping relations of operator's sign and first line of a couplet port set, and the second mapping relations are the mapping relations of operator's sign and ONU, and operator's sign is used for distinguishing operator.
Data interaction module 303, for according to the first mapping relations and the second mapping relations, and utilizes the communication protocol stack between described OLT and described ONU, between described operator and described ONU, carries out data interaction.
The embodiment of the present invention provides a kind of device of shared EPON, by residence network guard system management PON system, determine the operator that ONU is corresponding, and operator's sign of adding the operator that ONU is corresponding in the communication protocol stack between OLT and ONU, set up operator's sign and the mapping relations of first line of a couplet port set and the mapping relations of operator's sign and ONU, and according to mapping relations, between operator and ONU, carry out data interaction.With need to compare in the prior art of carrying out jumping fiber between operator and common light distributing cabinet, in scheme provided by the invention, owing to having set up the mapping relations of operator's sign with first line of a couplet port set, and the mapping relations of operator's sign and ONU, so when user activates the service or changes operator, mapping relations according to operator's sign of having set up with first line of a couplet port set, and the mapping relations of operator's sign and ONU, just can realize the data interaction between ONU corresponding to Yu Gai operator of operator, without carry out complicated jumping fiber between operator and common light distributing cabinet, thereby reduced Information Security Risk, improved network reliability.When resource distribution, by self-defining software resource numbering, the first mapping relations and the second mapping relations, realize the configuration of resource, and without scale and the specification of the resources such as optical cable, light distributing cabinet facility are carried out to complicated estimation, thereby avoid overlapping construction or waste, having improved resource utilization.
As shown in figure 10, the mapping block 302 in device 300 comprises:
Sign allocation units 3021, are used to described ONU to distribute ONU sign.
Wherein, ONU sign is used for distinguishing ONU.
Unit 3022 is set up in mapping, for setting up the mapping relations of described operator sign and described ONU sign.
Described data interaction module 303 in device 300 comprises:
Descending acquiring unit 3031, for when data are transmitted to described ONU by described operator, obtains the described first line of a couplet port set being connected with described operator.
The first descending determining unit 3032, for utilizing described first line of a couplet port set and described the first mapping relations, determines first object operator sign.
Wherein, first object operator is designated the operator sign corresponding with first line of a couplet port set.
The second descending determining unit 3033, for utilizing described first object operator's sign and described the second mapping relations, determines target ONU sign.
Wherein, target ONU is designated with first object operator and identifies corresponding ONU sign.
Downlink data transfer unit 3034, for according to described target ONU sign, determine target ONU, make described operator by the described first line of a couplet port set being connected with described operator, utilize the communication protocol stack between described OLT and described ONU, to described target ONU, transmit data.
Wherein, target ONU is corresponding with target ONU sign.
Described data interaction module 303, also comprises:
Up acquiring unit 3035, for when data are transmitted to described operator by described ONU, obtains the ONU sign of described ONU.
The first up determining unit 3036, for utilizing described ONU sign and described the second mapping relations, determines second targeted carrier's sign.
Wherein, the second targeted carrier is designated with ONU and identifies corresponding operator's sign;
The second up determining unit 3037,, for utilizing described the second targeted carrier's sign and described the first mapping relations, determine target first line of a couplet port set.
Wherein, target first line of a couplet port set is for to identify corresponding first line of a couplet port set with targeted carrier.
Upstream data transfer unit 3038, for identifying according to described the second targeted carrier, determine targeted carrier, make described ONU utilize the communication protocol stack between described OLT and described ONU, by described target first line of a couplet port set, to described the second targeted carrier, transmit data.
Wherein, targeted carrier identifies corresponding with the second targeted carrier.
The embodiment of the present invention provides a kind of device of shared EPON, by residence network guard system management PON system, determine the operator that ONU is corresponding, and operator's sign of adding the operator that ONU is corresponding in the communication protocol stack between OLT and ONU, set up operator's sign and the mapping relations of first line of a couplet port set and the mapping relations of operator's sign and ONU, and according to mapping relations, between operator and ONU, carry out data interaction.With need to compare in the prior art of carrying out jumping fiber between operator and common light distributing cabinet, in scheme provided by the invention, owing to having set up the mapping relations of operator's sign with first line of a couplet port set, and the mapping relations of operator's sign and ONU, so when user activates the service or changes operator, mapping relations according to operator's sign of having set up with first line of a couplet port set, and the mapping relations of operator's sign and ONU, just can realize the data interaction between ONU corresponding to Yu Gai operator of operator, without carry out complicated jumping fiber between operator and common light distributing cabinet, thereby reduced Information Security Risk, improved network reliability.When ONU equipment breaks down, can check by residence network guard system, and without the facilities such as light distributing cabinet are checked one by one, thereby make fault location simpler, improved maintenance efficiency.
As shown in Figure 10 a, device 300 also comprises:
Registration sending module 304a, sends registration request for the described operator network management system to corresponding with described ONU;
Sign is added module 304b, for when described ONU succeeds in registration, the ONU sign of the described ONU succeeding in registration is added into described operator network management system, so that the described ONU that the network management system management of described operator is succeeded in registration.
The embodiment of the present invention provides a kind of device of shared EPON, by residence network guard system management PON system, determine the operator that ONU is corresponding, and operator's sign of adding the operator that ONU is corresponding in the communication protocol stack between OLT and ONU, set up operator's sign and the mapping relations of first line of a couplet port set and the mapping relations of operator's sign and ONU, and according to mapping relations, between operator and ONU, carry out data interaction.With need to compare in the prior art of carrying out jumping fiber between operator and common light distributing cabinet, in scheme provided by the invention, owing to having set up the mapping relations of operator's sign with first line of a couplet port set, and the mapping relations of operator's sign and ONU, so when user activates the service or changes operator, mapping relations according to operator's sign of having set up with first line of a couplet port set, and the mapping relations of operator's sign and ONU, just can realize the data interaction between ONU corresponding to Yu Gai operator of operator, without carry out complicated jumping fiber between operator and common light distributing cabinet, thereby reduced Information Security Risk, improved network reliability.The large I of operator's management system decides according to the number of ONU corresponding to each operator, does not need to allocate in advance, thereby makes network more manageable, has improved flexibility.
As shown in figure 11, device 300 also comprises:
Interconnect module 304, for an OLT is connected with the 2nd OLT, and the ONU of a described OLT connection is connected with described the 2nd OLT, and the ONU that described the 2nd OLT is connected is connected with a described OLT.
Distribution module 305, the ONU that the ONU connecting for a described OLT is connected with described the 2nd OLT distributes described ONU sign.
The embodiment of the present invention provides a kind of device of shared EPON, by residence network guard system management PON system, determine the operator that ONU is corresponding, and operator's sign of adding the operator that ONU is corresponding in the communication protocol stack between OLT and ONU, set up operator's sign and the mapping relations of first line of a couplet port set and the mapping relations of operator's sign and ONU, and according to mapping relations, between operator and ONU, carry out data interaction.With need to compare in the prior art of carrying out jumping fiber between operator and common light distributing cabinet, in scheme provided by the invention, owing to having set up the mapping relations of operator's sign with first line of a couplet port set, and the mapping relations of operator's sign and ONU, so when user activates the service or changes operator, mapping relations according to operator's sign of having set up with first line of a couplet port set, and the mapping relations of operator's sign and ONU, just can realize the data interaction between ONU corresponding to Yu Gai operator of operator, without carry out complicated jumping fiber between operator and common light distributing cabinet, thereby reduced Information Security Risk, improved network reliability.By the connected mode of Chi Zuhua, many OLT are carried out to unified Custom Number, realize the PON system of pond group, expanded the capacity of PON system.Meanwhile, the resource by many OLT backs up mutually, realizes the function of Safety Redundancy.
Each embodiment in this specification all adopts the mode of going forward one by one to describe, between each embodiment identical similar part mutually referring to, each embodiment stresses is the difference with other embodiment.Especially, for apparatus embodiments, because it is substantially similar in appearance to embodiment of the method, so describe fairly simplely, relevant part is referring to the part explanation of embodiment of the method.
One of ordinary skill in the art will appreciate that all or part of flow process realizing in above-described embodiment method, to come the hardware that instruction is relevant to complete by computer program, described program can be stored in a computer read/write memory medium, this program, when carrying out, can comprise as the flow process of the embodiment of above-mentioned each side method.Wherein, described storage medium can be magnetic disc, CD, read-only store-memory body (Read-Only Memory, ROM) or random store-memory body (Random Access Memory, RAM) etc.
The above; be only the specific embodiment of the present invention, but protection scope of the present invention is not limited to this, is anyly familiar with those skilled in the art in the technical scope that the present invention discloses; the variation that can expect easily or replacement, within all should being encompassed in protection scope of the present invention.Therefore, protection scope of the present invention should be as the criterion with the protection range of claim.
Claims (14)
1. the method for a shared EPON, it is characterized in that, for a kind of passive optical network, described passive optical network comprises residence network guard system and passive optical network PON, described PON at least comprises optical line terminal OLT and optical network unit ONU, described OLT comprises at least one group of first line of a couplet port set, and described first line of a couplet port set is used for connecting operator and described OLT; Described method comprises:
Described residence network guard system is determined the operator that described ONU is corresponding, and in the communication protocol stack between described OLT and described ONU, adds operator's sign of the operator that described ONU is corresponding;
Described residence network guard system is set up the first mapping relations and the second mapping relations, described the first mapping relations are the mapping relations of described operator sign and described first line of a couplet port set, described the second mapping relations are the mapping relations of described operator sign and described ONU, and described operator sign is used for distinguishing operator;
Described residence network guard system is according to the first mapping relations and the second mapping relations, and utilizes the communication protocol stack between described OLT and described ONU, between described operator and described ONU, carries out data interaction.
2. method according to claim 1, is characterized in that, sets up the second mapping relations, comprising:
Described residence network guard system is that described ONU distributes ONU sign, and described ONU sign is used for distinguishing described ONU;
Described residence network guard system is set up the mapping relations of described operator sign and described ONU sign.
3. method according to claim 1 and 2, is characterized in that, described according to the first mapping relations and the second mapping relations, and utilizes the communication protocol stack between described OLT and described ONU, between described operator and described ONU, carries out data interaction, comprising:
When data are transmitted to described ONU by described operator, obtain the described first line of a couplet port set being connected with described operator;
Described residence network guard system utilizes described first line of a couplet port set and described the first mapping relations, determines first object operator sign, and described first object operator is designated the operator sign corresponding with described first line of a couplet port set;
Described residence network guard system utilizes described first object operator sign and described the second mapping relations, determines target ONU sign, and described target ONU is designated and identifies corresponding ONU with described first object operator and identify;
Described residence network guard system identifies according to described target ONU, determine target ONU, make described operator by the described first line of a couplet port set being connected with described operator, utilize the communication protocol stack between described OLT and described ONU, to described target ONU, transmit data, described target ONU is corresponding with described target ONU sign.
4. method according to claim 1 and 2, is characterized in that, described according to the first mapping relations and the second mapping relations, between described operator and described ONU, carries out data interaction, comprising:
When data are transmitted to described operator by described ONU, obtain the ONU sign of described ONU;
Described residence network guard system utilizes described ONU sign and described the second mapping relations, determines second targeted carrier's sign, and described the second targeted carrier is designated with described ONU and identifies corresponding operator's sign;
Described residence network guard system utilizes described the second targeted carrier's sign and described the first mapping relations, determines target first line of a couplet port set, and described target first line of a couplet port set is for to identify corresponding first line of a couplet port set with described targeted carrier;
Described residence network guard system is according to described second targeted carrier's sign, determine targeted carrier, make described ONU utilize the communication protocol stack between described OLT and described ONU, by described target first line of a couplet port set, to described the second targeted carrier, transmit data, described targeted carrier identifies corresponding with described the second targeted carrier.
5. method according to claim 1 and 2, is characterized in that, described method also comprises:
The one OLT is connected with the 2nd OLT, and the ONU of a described OLT connection is connected with described the 2nd OLT, and the ONU that described the 2nd OLT is connected is connected with a described OLT;
The ONU that the ONU connecting for a described OLT is connected with described the 2nd OLT distributes described ONU sign.
6. method according to claim 1, is characterized in that, described passive optical network also comprises at least one operator's network management system, described operator network management system for manage with described operator management system under described ONU corresponding to operator; Described residence network guard system is for managing described ONU, described the first mapping relations and described second mapping relations of described operator network management system, the network management system management of described operator.
7. method according to claim 6, is characterized in that, described method also comprises:
Described ONU sends registration request to the described operator network management system corresponding with described ONU;
When described ONU succeeds in registration, the ONU sign of the described ONU succeeding in registration is added into described operator network management system, so that the described ONU that the network management system management of described operator is succeeded in registration.
8. the device of a shared EPON, it is characterized in that, for a kind of passive optical network, described passive optical network comprises residence network guard system and passive optical network PON, described PON at least comprises optical line terminal OLT and optical network unit ONU, described OLT comprises at least one group of first line of a couplet port set, and described first line of a couplet port set is used for connecting operator and described OLT; Described device comprises:
Operator's determination module, for determining operator corresponding to described ONU, and the operator that adds the operator that described ONU is corresponding in the communication protocol stack between described OLT and described ONU identifies;
Mapping block, be used for setting up the first mapping relations and the second mapping relations, described the first mapping relations are the mapping relations of described operator sign and described first line of a couplet port set, described the second mapping relations are the mapping relations of described operator sign and described ONU, and described operator sign is used for distinguishing operator;
Data interaction module, for according to the first mapping relations and the second mapping relations, and utilizes the communication protocol stack between described OLT and described ONU, between described operator and described ONU, carries out data interaction.
9. device according to claim 8, is characterized in that, described mapping block, comprising:
Sign allocation units, are used to described ONU to distribute ONU sign, and described ONU sign is used for distinguishing described ONU;
Unit is set up in mapping, for setting up the mapping relations of described operator sign and described ONU sign.
10. device according to claim 8 or claim 9, is characterized in that, described data interaction module, comprising:
Descending acquiring unit, for when data are transmitted to described ONU by described operator, obtains the described first line of a couplet port set being connected with described operator;
The first descending determining unit, for utilizing described first line of a couplet port set and described the first mapping relations, determines first object operator sign, and described first object operator is designated the operator sign corresponding with described first line of a couplet port set;
The second descending determining unit, for utilizing described first object operator sign and described the second mapping relations, determines target ONU sign, and described target ONU is designated and identifies corresponding ONU with described first object operator and identify;
Downlink data transfer unit, for identifying according to described target ONU, determine target ONU, make described operator by the described first line of a couplet port set being connected with described operator, utilize the communication protocol stack between described OLT and described ONU, to described target ONU, transmit data, described target ONU is corresponding with described target ONU sign.
11. devices according to claim 8 or claim 9, is characterized in that, described data interaction module, comprising:
Up acquiring unit, for when data are transmitted to described operator by described ONU, obtains the ONU sign of described ONU;
The first up determining unit, for utilizing described ONU sign and described the second mapping relations, determines second targeted carrier's sign, and described the second targeted carrier is designated with described ONU and identifies corresponding operator's sign;
The second up determining unit, for utilizing described the second targeted carrier's sign and described the first mapping relations, determines target first line of a couplet port set, and described target first line of a couplet port set is for to identify corresponding first line of a couplet port set with described targeted carrier;
Upstream data transfer unit, for identifying according to described the second targeted carrier, determine targeted carrier, make described ONU utilize the communication protocol stack between described OLT and described ONU, by described target first line of a couplet port set, to described the second targeted carrier, transmit data, described targeted carrier identifies corresponding with described the second targeted carrier.
12. devices according to claim 8 or claim 9, is characterized in that, described device also comprises:
Interconnect module, for an OLT is connected with the 2nd OLT, and the ONU of a described OLT connection is connected with described the 2nd OLT, and the ONU that described the 2nd OLT is connected is connected with a described OLT;
Distribution module, the ONU that the ONU connecting for a described OLT is connected with described the 2nd OLT distributes described ONU sign.
13. devices according to claim 8, is characterized in that, described passive optical network also comprises at least one operator's network management system, described operator network management system for manage with described operator management system under described ONU corresponding to operator; Described residence network guard system is for managing described ONU, described the first mapping relations and described second mapping relations of described operator network management system, the network management system management of described operator.
14. devices according to claim 13, is characterized in that, described method also comprises:
Registration sending module, sends registration request for the described operator network management system to corresponding with described ONU;
Sign is added module, for when described ONU succeeds in registration, the ONU sign of the described ONU succeeding in registration is added into described operator network management system, so that the described ONU that the network management system management of described operator is succeeded in registration.
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