CN104749704A - Method for rapidly building continuing relationship of cable fiber core - Google Patents

Abstract

The invention discloses a method for rapidly building continuing relationship of a cable fiber core, and aims at continuing the fire core for a cable network system comprising a machine room, a continuing device and an optical cable. The method comprises the steps of building 11 data models for the cable fiber core continuing relationship; actually measuring the actual cable network to obtain property data of resources in the network and the topological relationship data among the resources; storing in database module built in step 1; synchronously obtaining geological data of the resources in the network; building the continuing relationship of the cable fiber core to form a link. According to the method, the unified and standard data models are built, so that the combined welding including rapid melting, dip plate melting, manual melting and other melting manners can be performed during building the fiber core continuing relationship; the problems of slow operation and small efficiency in manual melting manner can be avoided; therefore, the melting speed is greatly increased, and the melting efficiency can be increased.

Description

A kind of method that optical cable fibre core succession relation is set up fast

Technical field

The invention belongs to fiber cable network resource management techniques field, be specifically related to a kind of method that optical cable fibre core succession relation is set up fast.

Background technology

Current domestic enterprise carrys out record to the management of cable resource physical relation mainly through paper document or electronic document page, maintainer carrys out record according to the personal habits of oneself usually, there is the multiple recording mode such as Excel, Word, Visio, PPT, lack the requirement of regulation and standardization;

The recording mode speed of paper document or electronic document page is slow, and efficiency is low, and there is repeated work, repeats produce mistake in Input Process, affects the accurate of data;

Log file is mainly written record, and interface display is not directly perceived, can not show optical cable fibre core welding relation intuitively with graphic interface;

Papery or electronic document page poor real, be difficult to preserve or upgrade, inquire about more difficult, can not be shared with all corresponding engineering staffs, troubleshooting personnel in time;

The variation of the lack of standardization and storage mode of data record builds storehouse to first secondary data and late time data maintenance brings a lot of difficulty, has had a strong impact on the work efficiency of breakdown repair or fibre core change maintenance;

Current optical cable fibre core welding system is when carrying out the typing of optical cable fibre core, do not analyse in depth the relation between the physical arrangement of optical cable and welding rule, therefore, when the data sorting structure designed, be not the foundation carrying out fibre core welding logical relation according to general chromatogram welding rule.So the current foundation of optical cable fibre core welding system to optical cable fibre core annexation mainly adopts the mode of manual weld, operating speed is slow, efficiency is low.

Summary of the invention

In view of this, the invention provides a kind of method that optical cable fibre core succession relation is set up fast, for solving the problem that welding mode is single, fusion efficiency is low that optical cable annexation record is lack of standardization, intuitively do not cause.

In order to achieve the above object, technical scheme of the present invention is: a kind of method that optical cable fibre core succession relation is set up fast, and continue for carrying out fibre core for the cable network system be made up of machine room, continue equipment and optical cable, the method specifically comprises the steps:

Step one, building database model, wherein database model comprises 11 class models, is respectively: manufacturer's model, hop data model, fibre core Chromatography Models, optical cable core structure model, optical cable model model, machine room resource data model, cable resource data model, cable node resource data model, machine room optical cable topological relation model, continue device resource model and fibre core welding relational model.

Manufacturer's model is for storing manufacturer's information of all optical cables, and Mei Tiao manufacturer information comprises following items: manufacturer's numbering and title.

Hop data model is used for the hop information between storage room and machine room, and every bar hop information comprises following items: hop title, primary route length and alternate routing length.

Fibre core Chromatography Models is for storing the Chromatographic information of every root fibre core in optical cable, and every bar Chromatographic information comprises following items: spectral color title, spectral color and chromatogram are numbered.

Optical cable core structure model is for storing the structural information of fibre core in optical cable, and core structure information comprises following items: core structure kind, optical cable model, fibre core color designation, fibre core sort in optical cable, fibre core numbering, the unique ID of fibre core and fibre core father ID; Color designation is associated with the spectral color title in fibre core Chromatography Models, and the unique ID of fibre core is used to indicate the unique attribute of this fibre core, and fibre core father ID is used to indicate the ID of structure species belonging to this fibre core.

Optical cable model model is for storing the type information of all optical cables, and the type information of every bar optical cable comprises following items: model name, type, core number and manufacturer; Manufacturer is associated with manufacturer model.

Machine room resource data model is for storing the resource information of all machine rooms, and the resource information of each machine room comprises following project: the title of machine room, kind, numbering and the unique ID of machine room.

Cable resource data model is for storing the resource information of all optical cables, and the resource information of every bar optical cable comprises following items: optical cable numbering, optical cable rank, optical cable title, the unique ID of cable node, the unique ID of optical cable and optical cable father ID; Cable node is lightguide cable link turning point; Unique ID of the upstream resource that optical cable father ID indicates current optical cable to be connected.

Cable node resource data model is for storing the resource information of all nodes in optical cable, and node resources information comprises following items: the sequence of the unique ID of cable node, node optical cable belonging to it, unique ID of node place optical cable and node father ID; The unique ID of cable node is associated with the unique ID of the cable node in cable resource data model; Node father ID is the unique ID of node of present node upstream node.

Machine room optical cable topological relation model is used for the topological relation information between storage room and optical cable, and every bar topological relation information comprises following items: optical cable numbering, optical cable divide line name, optical cable title, optical cable model, optical cable father ID, the unique ID of machine room and the unique ID of optical cable; Optical cable divide circuit for optical cable each circuit of dividing by the equipment of continuing; The unique ID of machine room associates the unique ID of machine room in machine room resource model; The unique ID of optical cable associates the unique ID of optical cable in optical cable resource model.

Continue device resource model for storing the information of the equipment of continuing, and the continue signal of equipment of every bar comprises following items: unique ID of the welding kind that the device numbering that continues, the device name that continues, the equipment of continuing adopt, the unit type that continues, the unique ID of the equipment that continues, the unique ID of the adjacent cable node in equipment present position that continues, the equipment place optical cable that continues.

Fibre core welding relational model, for storing fibre core welding relation information, includes following items in every bar fibre core welding relation information: the fibre core numbering in the unique ID of node of the welding node of the unique ID of optical cable of the unique ID of the equipment that continues, two welding optical cables, two welding optical cables, two welding optical cables; The unique ID of the equipment that continues is associated with the unique ID of the equipment that continues continued in device model.

Step 2, fiber cable network for reality, survey, and obtains the topological relation data between the attribute data of resources in network and resource, and in the database model it set up stored in step one, obtain the geodata of resources in network simultaneously; Resource comprises machine room, optical cable and the equipment that continues.

Step 3, set up the succession relation of optical cable fibre core, comprise s301 ~ s304 tetra-steps:

S301, for the equipment that continues that will carry out fusing operation, the unique ID of the equipment that continues of this equipment that continues is obtained from the device resource model that continues, and obtain the unique ID of the adjacent cable node in equipment present position that continues, form adjacent cable node set, in cable node resource data model, obtain the unique ID of optical cable belonging to this adjacent cable node according to the unique ID of adjacent cable node, form adjacent cable aggregation.

S302, travel through adjacent cable node set, from cable node resource data model, obtain the sequence of node optical cable belonging to it corresponding to the unique ID of each cable node, unique ID of node place optical cable and node father ID form set T.

S303, travel through adjacent cable aggregation, use the unique ID of the optical cable in adjacent cable aggregation to obtain should optical cable title, the unique ID of cable node and optical cable father ID of the unique ID of optical cable in cable resource data model.

The unique ID of cable node at the two ends of the unique ID of cable node in adjacent cable node set and its place optical cable is contrasted, if all unequal, then gives up the unique ID of this cable node; Otherwise the unique ID of this equal cable node is welding node, from set T, obtain the node father ID of welding node and the sequence of this node optical cable belonging to it stored in set C.

S304, judge whether to have in fibre core welding relational model the welding relation corresponding to welding node of depositing in set C, if exist, will have the deletion of welding relation, and set up the new welding relation about welding node; If no, then set up about the welding relation of welding node is stored in fibre core welding relational model.

Further, in step 3, the equipment of continuing that carry out fusing operation is the optical cable that two optical cable models are identical; Then gather in C coexist the node father ID of 2 welding nodes and the sequence number of this node optical cable belonging to it, the sequence number of the affiliated optical cable of these 2 welding nodes is identical, and the process set up in s304 about the welding relation of welding node is specially: by the fibre core one_to_one corresponding welding in optical cable belonging to two welding nodes.

Further, for in step 3, when the equipment that continues carrying out fusing operation carries out welding according to welding data template to two optical cables, in welding data template, have recorded the optical cable model of two optical cables of phase welding, the structure of fibre core of two corresponding weldings of optical cable, color and connection status.

Then set up in s304 about the detailed process of the welding relation of two welding nodes is: the optical cable model obtaining two optical cables from welding data template, whether both judgements are consistent, if inconsistent, so welding data are not mated, and cannot carry out welding; If consistent, obtain the structure of the fibre core of two optical cables, color and connection status, from optical cable core structure model, obtain fibre core sequence in optical cable according to the structure of optical cable model and fibre core thereof, color; Finally judge connection status, if connection status disconnects, then corresponding fibre core carried out welding according to recording the structure of fibre core of the corresponding welding of two optical cables, color in welding data template and increase a welding relation in fibre core welding relational model, if connection status connects, just from fibre core welding relational model, delete corresponding welding relation, and corresponding fibre core carried out welding according to recording the structure of fibre core of the corresponding welding of two optical cables, color in welding data template and increase a welding relation in fibre core welding relational model.

Further, for in step 3, when the equipment that continues that will carry out fusing operation needs to carry out fusing operation according to the fibre core welding relation of artificial setting, then people is for being set as follows content: the structure of the optical cable model of two optical cables of phase welding, the fibre core of two corresponding weldings of optical cable, color and connection status;

Then set up in s304 about the detailed process of the welding relation of two welding nodes is: the optical cable model obtaining two optical cables from artificial setting content, whether both judgements are consistent, if inconsistent, so welding data are not mated, and cannot carry out welding; If consistent, obtain the structure of the fibre core of two optical cables, color and connection status, from optical cable core structure model, obtain fibre core sequence in optical cable according to the structure of optical cable model and fibre core thereof, color; Finally judge connection status, if connection status disconnects, then corresponding fibre core carried out welding according to recording the structure of fibre core of the corresponding welding of two optical cables, color in artificial setting content and increase a welding relation in fibre core welding relational model, if connection status connects, just from fibre core welding relational model, delete corresponding welding relation, and corresponding fibre core carried out welding according to recording the structure of fibre core of the corresponding welding of two optical cables, color in welding data template and increase a welding relation in fibre core welding relational model.

Beneficial effect:

The present invention is by setting up 11 data models set up fast for optical cable fibre core succession relation, realize the management to the unification of fiber cable network resource data, specification, standard, therefore when carrying out fibre core succession relation and setting up, the combination welding of the multiple welding modes such as quick welding, template welding and manual weld can be realized, avoid only use manual weld mode time, slow, the inefficient problem of operating speed, substantially increases fusing operation speed, improves fusion efficiency.

Accompanying drawing explanation

Fig. 1 is this method process flow diagram;

The database model set up in the step one that Fig. 2 is embodiment;

The optical cable model model that Fig. 3 obtains for embodiment;

The fibre core welding relational model that Fig. 4 obtains for embodiment;

Fig. 5 is the welding data template that embodiment imports.

Embodiment

To develop simultaneously embodiment below in conjunction with accompanying drawing, describe the present invention.

Embodiment 1, the method, continue for carrying out fibre core for the cable network system be made up of machine room, continue equipment and optical cable, the method process flow diagram as shown in Figure 1, specifically comprises the steps:

Step one, building database model, wherein database model comprises 11 class models, as shown in Figure 2, be respectively: manufacturer's model, hop data model, fibre core Chromatography Models, optical cable core structure model, optical cable model model, machine room resource data model, cable resource data model, cable node resource data model, machine room optical cable topological relation model, continue device resource model and fibre core welding relational model;

Manufacturer's model is for storing manufacturer's information of all optical cables, and Mei Tiao manufacturer information comprises following items: manufacturer's numbering and title.

Hop data model is used for the hop information between storage room and machine room, and every bar hop information comprises following items: hop title, primary route length and alternate routing length.

Fibre core Chromatography Models is for storing the Chromatographic information of every root fibre core in optical cable, and every bar Chromatographic information comprises following items: spectral color title, spectral color and chromatogram are numbered.

Optical cable core structure model is for storing the structural information of fibre core in optical cable, and core structure information comprises following items: core structure kind, optical cable model, fibre core color designation, fibre core sort in optical cable, the sequence of fibre core in core structure, the unique ID of fibre core and fibre core father ID; Color designation is associated with the spectral color title in fibre core Chromatography Models, and the unique ID of fibre core is used to indicate the unique attribute of this fibre core, and fibre core father ID is used to indicate the ID of structure species belonging to this fibre core.

Optical cable model model is for storing the type information of all optical cables, and the type information of every bar optical cable comprises following items: model name, type, core number and manufacturer; Manufacturer is associated with manufacturer model.The optical cable model model obtained in the present embodiment as shown in Figure 3.

Machine room resource data model is for storing the resource information of all machine rooms, and the resource information of each machine room comprises following project: the title of machine room, kind, numbering and the unique ID of machine room.

Cable resource data model is for storing the resource information of all optical cables, and the resource information of every bar optical cable comprises following items: optical cable numbering, optical cable rank, optical cable title, the unique ID of cable node, the unique ID of optical cable and optical cable father ID; Cable node is lightguide cable link turning point; Unique ID of the upstream resource that optical cable father ID indicates current optical cable to be connected.

Cable node resource data model is for storing the resource information of all nodes in optical cable, and node resources information comprises following items: the sequence of the unique ID of cable node, node optical cable belonging to it, unique ID of node place optical cable and node father ID; The unique ID of cable node is associated with the unique ID of the cable node in cable resource data model; Node father ID is the unique ID of node of present node upstream node.

Machine room optical cable topological relation model is used for the topological relation information between storage room and optical cable, and every bar topological relation information comprises following items: optical cable numbering, optical cable divide line name, optical cable title, optical cable model, optical cable father ID, the route length of optical cable, the unique ID of machine room and the unique ID of optical cable; Optical cable divide circuit for optical cable each circuit of dividing by the equipment of continuing; The unique ID of machine room associates the unique ID of machine room in machine room resource model; The unique ID of optical cable associates the unique ID of optical cable in optical cable resource model.

Continue device resource model for storing the information of the equipment of continuing, and the continue signal of equipment of every bar comprises following items: unique ID of the welding kind that the device numbering that continues, the device name that continues, the equipment of continuing adopt, the unit type that continues, the unique ID of the equipment that continues, the unique ID of the adjacent cable node in equipment present position that continues, the equipment place optical cable that continues.

Fibre core welding relational model, for storing fibre core welding relation information, includes following items in every bar fibre core welding relation information: the fibre core numbering in the unique ID of node of the welding node of the unique ID of optical cable of the unique ID of the equipment that continues, two welding optical cables, two welding optical cables, two welding optical cables; The unique ID of the equipment that continues is associated with the unique ID of the equipment that continues continued in device model.In the present embodiment, fibre core welding relational model as shown in Figure 4.

Step 2, fiber cable network for reality, survey, and obtains the topological relation data between the attribute data of resources in network and resource, and in the database model it set up stored in step one, obtain the geodata of resources in network simultaneously; Resource comprises machine room, optical cable and the equipment that continues.

Step 3, set up the succession relation of optical cable fibre core, comprise s301 ~ s304 tetra-steps:

S301, for the equipment that continues that will carry out fusing operation, the unique ID of the equipment that continues of this equipment that continues is obtained from the device resource model that continues, and obtain the unique ID of the adjacent cable node in equipment present position that continues, form adjacent cable node set, in cable node resource data model, obtain the unique ID of optical cable belonging to this adjacent cable node according to the unique ID of adjacent cable node, form adjacent cable aggregation.

S302, travel through adjacent cable node set, from cable node resource data model, obtain the sequence of node optical cable belonging to it corresponding to the unique ID of each cable node, unique ID of node place optical cable and node father ID form set T.

S303, travel through adjacent cable aggregation, use the unique ID of the optical cable in adjacent cable aggregation to obtain should optical cable title, the unique ID of cable node and optical cable father ID of the unique ID of optical cable in cable resource data model.

The unique ID of cable node at the two ends of the unique ID of cable node in adjacent cable node set and its place optical cable is contrasted, if all unequal, then gives up the unique ID of this cable node; Otherwise the unique ID of this equal cable node is welding node, from set T, obtain the node father ID of welding node and the sequence of this node optical cable belonging to it stored in set C.

S304, judge whether to have in fibre core welding relational model the welding relation corresponding to welding node of depositing in set C, if exist, will have the deletion of welding relation, and set up the new welding relation about welding node; If no, then set up about the welding relation of welding node is stored in fibre core welding relational model.

For situations different in 3, the detailed process of s304 is:

The equipment of continuing that 1, will carry out fusing operation is the optical cable that two optical cable models are identical; Then gather in C coexist the node father ID of 2 welding nodes and the sequence number of this node optical cable belonging to it, the sequence number of the affiliated optical cable of its this 2 welding nodes is identical, and the process set up in s304 about the welding relation of welding node is specially: by the fibre core one_to_one corresponding welding in optical cable belonging to two welding nodes.

When the equipment that continues that 2, will carry out fusing operation carries out welding according to welding data template to two optical cables, first import welding data template, in welding data template, have recorded the optical cable model of two optical cables of phase welding, the structure of fibre core of two corresponding weldings of optical cable, color and connection status as shown in Figure 5;

Then set up in s304 about the detailed process of the welding relation of two welding nodes is: the optical cable model obtaining two optical cables from welding data template, whether both judgements are consistent, if inconsistent, so welding data are not mated, and cannot carry out welding; If consistent, obtain the structure of the fibre core of two optical cables, color and connection status, from optical cable core structure model, obtain fibre core sequence in optical cable according to the structure of optical cable model and fibre core thereof, color; Finally judge connection status, if connection status disconnects, then corresponding fibre core carried out welding according to recording the structure of fibre core of the corresponding welding of two optical cables, color in welding data template and increase a welding relation in fibre core welding relational model, if connection status connects, just from fibre core welding relational model, delete corresponding welding relation, and corresponding fibre core carried out welding according to recording the structure of fibre core of the corresponding welding of two optical cables, color in welding data template and increase a welding relation in fibre core welding relational model.

3, when the equipment that continues that will carry out fusing operation needs to carry out fusing operation according to the fibre core welding relation of artificial setting, then people is for being set as follows content: the structure of the optical cable model of two optical cables of phase welding, the fibre core of two corresponding weldings of optical cable, color and connection status;

Then set up in s304 about the detailed process of the welding relation of two welding nodes is: the optical cable model obtaining two optical cables from artificial setting content, whether both judgements are consistent, if inconsistent, so welding data are not mated, and cannot carry out welding; If consistent, obtain the structure of the fibre core of two optical cables, color and connection status, from optical cable core structure model, obtain fibre core sequence in optical cable according to the structure of optical cable model and fibre core thereof, color; Finally judge connection status, if connection status disconnects, then corresponding fibre core carried out welding according to recording the structure of fibre core of the corresponding welding of two optical cables, color in artificial setting content and increase a welding relation in fibre core welding relational model, if connection status connects, just from fibre core welding relational model, delete corresponding welding relation, and corresponding fibre core carried out welding according to recording the structure of fibre core of the corresponding welding of two optical cables, color in welding data template and increase a welding relation in fibre core welding relational model.

As can be seen from above three kinds of situations, owing to establishing 11 data models, achieve the management to the unification of fiber cable network resource data, specification, standard, therefore when carrying out fibre core succession relation and setting up, the combination welding of the multiple welding modes such as quick welding, template welding and manual weld can be realized, avoid only use manual weld mode time, slow, the inefficient problem of operating speed, substantially increases fusing operation speed, improves fusion efficiency.

To sum up, these are only preferred embodiment of the present invention, be not intended to limit protection scope of the present invention.Within the spirit and principles in the present invention all, any amendment done, equivalent replacement, improvement etc., all should be included within protection scope of the present invention.

Claims (4)

1. the method set up fast of optical cable fibre core succession relation, continue for carrying out fibre core for the cable network system be made up of machine room, continue equipment and optical cable, it is characterized in that, the method specifically comprises the steps:

Step one, building database model, wherein database model comprises 11 class models, is respectively: manufacturer's model, hop data model, fibre core Chromatography Models, optical cable core structure model, optical cable model model, machine room resource data model, cable resource data model, cable node resource data model, machine room optical cable topological relation model, continue device resource model and fibre core welding relational model;

Described manufacturer model is for storing manufacturer's information of all optical cables, and Mei Tiao manufacturer information comprises following items: manufacturer's numbering and title;

Described hop data model is used for the hop information between storage room and machine room, and every bar hop information comprises following items: hop title, primary route length and alternate routing length;

Described fibre core Chromatography Models is for storing the Chromatographic information of fibre core in optical cable, and Chromatographic information comprises following items: spectral color title, spectral color and chromatogram are numbered;

Described optical cable core structure model is for storing core structure information in optical cable, and core structure information comprises following items: core structure kind, optical cable model, fibre core color designation, fibre core sort in optical cable, fibre core numbering, the unique ID of fibre core and fibre core father ID; Described color designation is associated with the spectral color title in described fibre core Chromatography Models, and the unique ID of described fibre core is used to indicate the unique attribute of this fibre core, and described fibre core father ID is used to indicate the ID of structure species belonging to this fibre core; Described fibre core is numbered the sequence in fibre core core structure belonging to it;

Described optical cable model model is for storing the type information of all optical cables, and the type information of every bar optical cable comprises following items: model name, type, core number and manufacturer; Described manufacturer is associated with manufacturer model;

Described machine room resource data model is for storing the resource information of all machine rooms, and the resource information of each machine room comprises following project: the title of machine room, kind, numbering and the unique ID of machine room;

Described cable resource data model is for storing the resource information of all optical cables, and the resource information of every bar optical cable comprises following items: optical cable numbering, optical cable rank, optical cable title, the unique ID of cable node, the unique ID of optical cable and optical cable father ID; Described cable node is lightguide cable link turning point; Described optical cable father ID indicates current optical cable to be connected unique ID of upstream resource;

Described cable node resource data model is for storing the resource information of all nodes in optical cable, and node resources information comprises following items: the sequence of the unique ID of cable node, node optical cable belonging to it, unique ID of node place optical cable and node father ID; The unique ID of described cable node is associated with the unique ID of cable node in described cable resource data model; Node father ID is the unique ID of node of present node upstream node;

Described machine room optical cable topological relation model is used for the topological relation information between storage room and optical cable, and every bar topological relation information comprises following items: optical cable numbering, optical cable divide line name, optical cable title, optical cable model, optical cable father ID, the unique ID of machine room and the unique ID of optical cable; Described optical cable divide circuit for optical cable each circuit of dividing by the equipment of continuing; The unique ID of described machine room associates the unique ID of machine room in machine room resource model; The unique ID of described optical cable associates the unique ID of optical cable in optical cable resource model;

The described device resource model that continues is for storing the information of the equipment of continuing, and the continue signal of equipment of every bar comprises following items: unique ID of the welding kind that the device numbering that continues, the device name that continues, the equipment of continuing adopt, the unit type that continues, the unique ID of the equipment that continues, the unique ID of the adjacent cable node in equipment present position that continues, the equipment place optical cable that continues;

Described fibre core welding relational model, for storing fibre core welding relation information, includes following items in every bar fibre core welding relation information: the fibre core numbering in the unique ID of node of the welding node of the unique ID of optical cable of the unique ID of the equipment that continues, two welding optical cables, two welding optical cables, two welding optical cables; The unique ID of the described equipment that continues is associated with the described unique ID of the equipment that continues continued in device model;

Step 2, fiber cable network for reality, survey, and obtains the topological relation data between the attribute data of resources in network and resource, and in the database model it set up stored in described step one, obtain the geodata of resources in network simultaneously; Described resource comprises machine room, optical cable and the equipment that continues;

Step 3, set up the succession relation of optical cable fibre core, comprise s301 ~ s304 tetra-steps:

S301, for the equipment that continues that will carry out fusing operation, the unique ID of the equipment that continues of this equipment that continues is obtained from the device resource model that continues, and obtain the unique ID of the adjacent cable node in equipment present position that continues, form adjacent cable node set, in described cable node resource data model, obtain the unique ID of optical cable belonging to this adjacent cable node according to the unique ID of adjacent cable node, form adjacent cable aggregation;

S302, travel through described adjacent cable node set, from cable node resource data model, obtain the sequence of node optical cable belonging to it corresponding to the unique ID of each cable node, unique ID of node place optical cable and node father ID form set T;

S303, travel through adjacent cable aggregation, use the unique ID of the optical cable in adjacent cable aggregation to obtain should optical cable title, the unique ID of cable node and optical cable father ID of the unique ID of optical cable in cable resource data model;

The unique ID of cable node at the two ends of the unique ID of cable node in adjacent cable node set and its place optical cable is contrasted, if all unequal, then gives up the unique ID of this cable node; Otherwise the unique ID of this equal cable node is welding node, from set T, obtain the node father ID of welding node and the sequence of this node optical cable belonging to it stored in set C;

S304, judge whether to have in described fibre core welding relational model the welding relation corresponding to welding node of depositing in set C, if exist, will have the deletion of welding relation, foundation is about the new welding relation of described welding node; If no, then set up about the welding relation of described welding node is stored in described fibre core welding relational model.

2. the method set up fast of a kind of optical cable fibre core succession relation as claimed in claim 1, it is characterized in that, in step 3, the equipment of continuing that carry out fusing operation is the optical cable that two optical cable models are identical; Then coexist in described set C the node father ID of 2 welding nodes and the sequence number of this node optical cable belonging to it, the sequence number of the affiliated optical cable of these 2 welding nodes is identical, sets up and be specially about the process of the welding relation of described welding node in described s304: by the fibre core one_to_one corresponding welding in optical cable belonging to two welding nodes.

3. the method set up fast of a kind of optical cable fibre core succession relation as claimed in claim 1, it is characterized in that, for in step 3, when the equipment that continues carrying out fusing operation carries out welding according to welding data template to two optical cables, in described welding data template, have recorded the optical cable model of two optical cables of phase welding, the structure of fibre core of two corresponding weldings of optical cable, color and connection status;

Then set up in s304 about the detailed process of the welding relation of described two welding nodes is: the optical cable model obtaining two optical cables from welding data template, whether both judgements are consistent, if inconsistent, so welding data are not mated, and cannot carry out welding; If consistent, obtain the structure of the fibre core of two optical cables, color and connection status, from optical cable core structure model, obtain fibre core sequence in optical cable according to the structure of optical cable model and fibre core thereof, color; Finally judge connection status, if connection status disconnects, then corresponding fibre core carried out welding according to recording the structure of fibre core of the corresponding welding of two optical cables, color in welding data template and increase a welding relation in fibre core welding relational model, if connection status connects, just from fibre core welding relational model, delete corresponding welding relation, and corresponding fibre core carried out welding according to recording the structure of fibre core of the corresponding welding of two optical cables, color in welding data template and increase a welding relation in fibre core welding relational model.

4. the method set up fast of a kind of optical cable fibre core succession relation as claimed in claim 1, it is characterized in that, for in step 3, when the described equipment that continues that will carry out fusing operation needs to carry out fusing operation according to the fibre core welding relation of artificial setting, then people is for being set as follows content: the structure of the optical cable model of two optical cables of phase welding, the fibre core of two corresponding weldings of optical cable, color and connection status;

Then set up in s304 about the detailed process of the welding relation of described two welding nodes is: the optical cable model obtaining two optical cables from artificial setting content, whether both judgements are consistent, if inconsistent, so welding data are not mated, and cannot carry out welding; If consistent, obtain the structure of the fibre core of two optical cables, color and connection status, from optical cable core structure model, obtain fibre core sequence in optical cable according to the structure of optical cable model and fibre core thereof, color; Finally judge connection status, if connection status disconnects, then corresponding fibre core carried out welding according to recording the structure of fibre core of the corresponding welding of two optical cables, color in artificial setting content and increase a welding relation in fibre core welding relational model, if connection status connects, just from fibre core welding relational model, delete corresponding welding relation, and corresponding fibre core carried out welding according to recording the structure of fibre core of the corresponding welding of two optical cables, color in welding data template and increase a welding relation in fibre core welding relational model.