CN105307062A - EID (Electronic Identity)-based sODN (smart Optical Division Network) system and method supporting near-end operation and far-end guiding construction - Google Patents

Abstract

The invention discloses an eID (Electronic Identity)-based sODN (smart Optical Division Network) system and method supporting near-end operation and far-end guiding construction, relating to the field of optical communication. The sODN system comprises an intelligent management system, an intelligent management terminal and an intelligent wiring device, wherein the intelligent management system interacts with the on-site operating intelligent management terminal through a wireless network; the intelligent wiring device adds intelligent components on the conventional ODN equipment; the intelligent components include an intelligent management component and the eID; the eID utilizes electronic tag technique to carry out unique identification on nodes and branches of an intelligent ODN network; the intelligent management system operates and manages the intelligent ODN network through identifying a content stored in the eID; the intelligent management system and the intelligent management terminal both interact with the intelligent wiring device and issue commands to the intelligent wiring device; and the sODN system provides two management ways, namely near-end operation and far-end guiding construction. According to the system and the method, the construction accuracy can be guaranteed and the management efficiency of an operator about the ODN is improved.

Description

Based on the support near-end operation of eID and the sODN system and method for far-end guiding construction

Technical field

The present invention relates to optical communication field, specifically relate to the sODN system and method for the operation of a kind of support near-end based on eID and far-end guiding construction.

Background technology

In Optical Transmission Network OTN, ODN (OpticalDistributionNetwork, Optical Distribution Network) play crucial backbone network linkage function, at PON (PassiveOpticalNetwork, EPON) under network, ODN is OLT (OpticalLineTerminal, optical line terminal) and ONU (OpticalNetworkUnit, optical network unit) network that all passive fibers between these two active equipments, inactive component (optical branching device) form, its effect is for providing transmission line between OLT and ONU.

Because FTTH (FiberToTheHome, fiber to the home) mainly adopts PON technology, an OLT is given tens of up to a hundred ONU by along separate routes, and the user side that ODN is netted has the fibre circuit of magnanimity to need to carry out distribution scheduling and maintenance management.Ensure the construction of ODN, operation and maintenance efficiently, just needs are guaranteed the management of jumping fiber errorless in real time, and guarantee ODN network is fully used, so there is intelligent ODN system.

In traditional ODN, construction must rely on Construction Specifications drawing to carry out, after workmen gets drawing, to specifying construction FDT (FieldDeviceTool, field device tool) location, carried out port jumper connection or the dismounting of optical fiber by drawing, after having constructed, carry out the craft statistics of construction information, then give record, record is by result recording device information database.In this work progress, owing to adopting manual construction, and device port is many, port locations difficulty, and processing ease is made mistakes, and can because be difficult at the scene find mistake, and causes and do over again; After having constructed, the hand-kept of optical fiber routing iinformation, easily error of omission or incorrect posting.

Summary of the invention

The object of the invention is the deficiency in order to overcome above-mentioned background technology, the sODN system and method for the operation of a kind of support near-end based on eID and far-end guiding construction being provided, accuracy of constructing can be guaranteed, improve operator to the efficiency of management of ODN.

The invention provides the sODN system of the operation of a kind of support near-end based on eID and far-end guiding construction, comprise intelligent management system, Intelligent management terminal, intelligence distribution plant, described intelligent management system is mutual by the Intelligent management terminal of wireless network and execute-in-place, described intelligent distribution plant increases intelligent assembly on traditional ODN equipment, intelligent assembly comprises intelligent management assembly and electronic tag eID, eID utilizes electronic label technology to carry out the mark of uniqueness to the node of intelligent ODN network and branch, intelligent management system is by identifying the content stored in eID, intelligent ODN network is operated and managed, described intelligent management system, Intelligent management terminal is all mutual with intelligent distribution plant, all to intelligent distribution plant transmitting order to lower levels, described sODN system provides near-end to operate and far-end guiding construction two kinds of way to manages.

On the basis of technique scheme, described sODN system is for the intelligent distribution plant outside machine room, adopt the mode of near-end operation to manage, near-end operation is realized by Intelligent management terminal: Intelligent management terminal realizes the automatic passback of the electronic management of work order, the remote transmission of construction data, the notice of construction warning information and construction results, storage, issue.

On the basis of technique scheme, described sODN system is for the intelligent distribution plant of directly-connected network in machine room, the mode of far-end operation is adopted to manage, the construction of far-end operation is instructed and is realized by intelligent management system: intelligent management system directly manages intelligent distribution plant by Ethernet, guided by the control realization construction of the port lamp to intelligent distribution plant, support multiple fault tolerant mechanism, alarm prompting is carried out to the operation of mistake, and re-starts the guide of correct port.

On the basis of technique scheme, described Intelligent management terminal obtains work order information by wifi/2G/3G network from intelligent management system, and work order information comprises job location, construction equipment, construction content; Workmen is instructed by the construction of Intelligent management terminal, completes construction, and uploads construction results to intelligent management system.

On the basis of technique scheme, described intelligent distribution plant comprises intelligent optical fiber distribution frame, Intelligent optical cable cross-connecting box, Intelligent optical cable fiber distribution box.

The present invention also provides a kind of and is applied to the operation of the support near-end based on eID of above-mentioned sODN system and the method for far-end guiding construction, comprises the following steps:

S1, issue construction work order according to construction plan;

S2, Intelligent management terminal, intelligent management system set up with intelligent distribution plant communicate;

Whether S3, the eID information verifying intelligent distribution plant to be onstructed is correct, if correctly, forwards step S4 to; Otherwise forward step S11 to;

S4, work order information to be verified, work order type is classified, work order is divided three classes: jumping fiber work order, single-ended work order, splitter work order;

S5, judge whether to there is jumping fiber work order, if there is jumping fiber work order, forward step S6 to; Otherwise forward step S7 to;

Flow process is instructed in S6, the construction entering jumping fiber work order, instructs the construction of jumping fiber work order; Forward step S7 to;

S7, judge whether to there is single-ended work order, if there is single-ended work order, forward step S8 to; Otherwise forward step S9 to;

Flow process is instructed in S8, the construction entering single-ended work order, instructs the construction of single-ended work order; Forward step S9 to;

S9, judge whether to there is splitter work order, if there is splitter work order, forward step S10 to; Otherwise forward step S11 to;

Flow process is instructed in S10, the construction entering splitter work order, instructs the construction of splitter work order; Forward step S11 to;

S11, upgrade the eID information of intelligent distribution plant, return construction results, more new database: if the equipment that intelligent management system directly manages, after having constructed, network resource data storehouse can upgrade automatically; If the scene of Intelligent management terminal guiding construction, Intelligent management terminal is after work order construction terminates, and upload construction results to intelligent management system by wifi/2G/3G network, intelligent management system upgrades resource data according to construction results;

S12: terminate construction instruction course.

On the basis of technique scheme, the construction of described jumping fiber work order instructs flow process as follows:

Step 101, start to perform jumping fiber work order, forward step 102 to;

The state of step 102, poll port, confirms whether port meets execution conditions, port status comprise take, idle, abnormal, forward step 103 to;

Step 103, compare port status, read the eID information of jumping fiber, judge whether the construction completing all jumping fiber work orders, if completed the construction task of all jumping fiber work orders, forward step 112 to; If do not complete construction, forward step 104 to and continue guiding construction;

Step 104, to issue the port of needs operation to intelligent distribution plant, the port taken not very, forwards step 105 to;

Step 105, light the indicator light of intelligent distribution plant port to be onstructed, the port taken not very, forwards step 106 to;

Step 106, wait workmen lamp instruction complete operation as indicated, forwards step 107 to;

Whether the operation of step 107, confirmation workmen is correct, the eID information of jumping fiber on read port, judges whether present port is the port that jumping fiber work order needs to perform, and if so, then forwards step 108 to; Otherwise forward step 109 to;

The operation of step 108, execution jumping fiber work order port, completed port, by turning off the light, prompting port operation is correct, and the port lamp that the next needs of control perform starts flashing light, points out next step operation, forwards step 110 to;

Step 109, perform the operation of non-work order port, for the port of misoperation, the indicator light of port points out faulty operation by quick flashing, and guides correct port by slow sudden strain of a muscle, forwards step 110 to;

Step 110, according to port status, judge whether that all work order ports all complete, if all completed, forward step 112 to; If all do not completed, forward step 111 to;

Step 111, order lighting according to jumping fiber work order, guide construction, return step 106;

The construction of step 112, jumping fiber work order instructs flow process to terminate.

On the basis of technique scheme, the construction of described single-ended work order instructs flow process as follows:

Step 201, start to perform single-ended work order, forward step 202 to;

The state of step 202, poll port, judges whether port meets execution conditions, port status comprise take, hollow, abnormal, forward step 203 to;

Step 203, compare port status, judge whether the construction completing all single-ended work orders, if completed, forward step 207 to; If do not complete construction, forward step 204 to, continue guiding construction;

Step 204, to issue the port of needs operation to intelligent distribution plant, the port taken not very, forwards step 205 to;

The indicator light of step 205, apparatus for lighting port to be onstructed, the port taken not very, forwards step 206 to;

Step 206, enter the guide flow process of single-ended work order, for completed port, by turning off the light, prompting port operation is correct, controls the next port lamp performed that needs and starts flashing light, point out next step operation; If port operation mistake, by quick flashing prompting port inserting error, and the target port that sudden strain of a muscle of waiting a moment is correct, working vessels is corrected in prompting, forwards step 207 to after complete;

The construction of step 207, single-ended work order instructs flow process to terminate.

On the basis of technique scheme, the construction of described splitter work order instructs flow process as follows:

Step 301, start to perform splitter work order, forward step 302 to;

The state of step 302, poll port, judges whether port meets execution conditions, port status comprise take, hollow, abnormal, forward step 303 to;

Step 303, compare port status, judge whether the construction completing all splitter work orders, if completed, forward step 307 to; If do not complete construction, forward step 304 to, continue guiding construction;

Step 304, to issue the port of needs operation to intelligent distribution plant, the port taken not very, forwards step 305 to;

The indicator light of step 305, apparatus for lighting port to be onstructed, the port taken not very, forwards step 306 to;

Step 306, enter the guide flow process of splitter work order, for completed port, by turning off the light, prompting port operation is correct, controls the next port lamp performed that needs and starts flashing light, point out next step operation; If port operation mistake, by quick flashing prompting port inserting error, and the target port that sudden strain of a muscle of waiting a moment is correct, working vessels is corrected in prompting, forwards step 307 to after complete;

The construction of step 307, splitter work order instructs flow process to terminate.

On the basis of technique scheme, described work order information comprises workmen's information, construction area, construction equipment, constructing operation, Projected completion time.

Compared with prior art, advantage of the present invention is as follows:

(1) the present invention is analyzed by the idiographic flow of constructing to workmen in traditional ODN, design and the complete software flow instructed of constructing is carried out to workmen, this flow process can realize the electronic management of work order, the remote transmission of construction data, construction guidances, working vessels alarm error correction, abnormal conditions process, the notice of warning information of constructing and the function such as automatic passback, storage, issue of construction results, accuracy of constructing can be guaranteed, improve operator to the efficiency of management of ODN.

(2) the invention provides the construction management system under different scene, mainly solve the problem of existing artificial construction's inefficiency, this system can realize the intelligent guidance of constructing to intelligent distribution plant, reduces the error rate of construction, thus promotes management maintenance efficiency further.

(3) the present invention supports that near-end operation and far-end instruct two kinds of forms of construction work, can depart from the direct guiding construction personnel of Intelligent management terminal and complete constructing operation.

(4) the present invention is by the LED state of control appliance port, for attendant provide a set of efficiently, intelligent construction accurately guides flow process, thus ensures the convenience of construction.

(5) the present invention can respond the faulty operation of attendant in time, and carries out prompting warning and error correction to the operation of mistake.

(6) the present invention supports multiple fault tolerant mechanism, can calculate construction results in real time according to condition of construction, thus ensure use uniqueness and the accuracy of jumping fiber, tail optical fiber or optical branching device.

Accompanying drawing explanation

Fig. 1 is the structured flowchart based on the support near-end operation of eID and the sODN system of far-end guiding construction in the embodiment of the present invention.

Fig. 2 is the flow chart based on the support near-end operation of eID and the method for far-end guiding construction in the embodiment of the present invention.

Fig. 3 is that flow chart is instructed in the construction of jumping fiber work order in the embodiment of the present invention.

Fig. 4 is that flow chart is instructed in the construction of single-ended work order in the embodiment of the present invention.

Fig. 5 is that flow chart is instructed in the construction of splitter work order in the embodiment of the present invention.

Embodiment

Below in conjunction with drawings and the specific embodiments, the present invention is described in further detail.

Shown in Figure 1, the embodiment of the present invention provides a kind of based on eID (ElectronicIdentity, electronic ID card) the operation of support near-end and the sODN (smartOpticalDivisionNetwork of far-end guiding construction, intelligent optical distribution network) system, comprise intelligent management system, Intelligent management terminal, intelligence distribution plant, intelligent management system is mutual by the Intelligent management terminal of wireless network and execute-in-place, intelligence distribution plant increases intelligent assembly on traditional ODN equipment, intelligent assembly comprises intelligent management assembly and eID (ElectronicIdentity, electronic tag).EID utilizes electronic label technology to carry out the mark of uniqueness to the node of intelligent ODN network and branch, and intelligent management system, by identifying the content stored in eID electronic tag, operates intelligent ODN network and manages.Intelligent management system, Intelligent management terminal are all mutual with intelligent distribution plant, all can to intelligent distribution plant transmitting order to lower levels.Intelligence distribution plant comprises intelligent optical fiber distribution frame, Intelligent optical cable cross-connecting box, Intelligent optical cable fiber distribution box etc.

For different project scenarios, the sODN system in the embodiment of the present invention provides near-end to operate and far-end guiding construction two kinds of way to manages.

SODN system is for the intelligent distribution plant outside machine room, adopt the mode of near-end operation to manage, near-end operation is realized by Intelligent management terminal: Intelligent management terminal realizes the electronic management of work order, the remote transmission of construction data, the construction notice of warning information and the function such as automatic passback, storage, issue of construction results.Intelligent management terminal obtains work order information by wifi/2G/3G network from intelligent management system, and work order information comprises job location, construction equipment, construction content etc.Workmen is instructed by the construction of Intelligent management terminal, completes construction, and uploads construction results to intelligent management system.

SODN system is for can the intelligent distribution plant of directly-connected network in machine room, the mode of far-end operation is adopted to manage, the construction of far-end operation is instructed and is realized by intelligent management system: intelligent management system directly manages intelligent distribution plant by Ethernet, guided by the control realization construction of the port lamp to intelligent distribution plant, support multiple fault tolerant mechanism, alarm prompting is carried out to the operation of mistake, and the guide of correct port can be re-started.

Shown in Figure 1, the embodiment of the present invention also provides a kind of and is applied to the operation of the support near-end based on eID of above-mentioned sODN system and the method for far-end guiding construction, comprises the following steps:

S1, supervisor of construction issue construction work order according to construction plan, and work order information comprises workmen's information, construction area, construction equipment, constructing operation, Projected completion time etc.;

S2, workmen come job site, Intelligent management terminal, intelligent management system are set up with intelligent distribution plant and communicate;

Whether S3, the eID information verifying intelligent distribution plant to be onstructed is correct, if correctly, forwards step S4 to; Otherwise forward step S11 to;

S4, work order information to be verified, work order type is classified, work order is divided three classes: jumping fiber work order, single-ended work order, splitter work order, the work order of every type, according to different construction requirements, have different construction procedures;

S5, judge whether to there is jumping fiber work order, if there is jumping fiber work order, forward step S6 to; Otherwise forward step S7 to;

Flow process is instructed in S6, the construction entering jumping fiber work order, instructs the construction of jumping fiber work order; Forward step S7 to;

S7, judge whether to there is single-ended work order, if there is single-ended work order, forward step S8 to; Otherwise forward step S9 to;

Flow process is instructed in S8, the construction entering single-ended work order, instructs the construction of single-ended work order; Forward step S9 to;

S9, judge whether to there is splitter work order, if there is splitter work order, forward step S10 to; Otherwise forward step S11 to;

Flow process is instructed in S10, the construction entering splitter work order, instructs the construction of splitter work order; Forward step S11 to;

S11, upgrade the eID information of intelligent distribution plant, return construction results, more new database: if the equipment that intelligent management system directly manages, after having constructed, network resource data storehouse can upgrade automatically; If the scene of Intelligent management terminal guiding construction, Intelligent management terminal is after work order construction terminates, and upload construction results to intelligent management system by wifi/2G/3G network, intelligent management system upgrades resource data according to construction results;

S12: terminate construction instruction course.

Shown in Figure 3, the construction of jumping fiber work order instructs flow process as follows:

Step 101, start to perform jumping fiber work order, forward step 102 to;

The state of step 102, poll port, confirms whether port meets execution conditions, port status comprise take, idle, abnormal, forward step 103 to;

Step 103, compare port status, read the eID information of jumping fiber, judge whether the construction completing all jumping fiber work orders, if completed the construction task of all jumping fiber work orders, forward step 112 to; If do not complete construction, forward step 104 to and continue guiding construction;

Step 104, to issue the port of needs operation to intelligent distribution plant, the port taken not very, forwards step 105 to;

Step 105, light the indicator light of intelligent distribution plant port to be onstructed, the port taken not very, forwards step 106 to;

Step 106, wait workmen lamp instruction complete operation as indicated, forwards step 107 to;

Whether the operation of step 107, confirmation workmen is correct, the eID information of jumping fiber on read port, judges whether present port is the port that jumping fiber work order needs to perform, and if so, then forwards step 108 to; Otherwise forward step 109 to;

The operation of step 108, execution jumping fiber work order port, completed port, by turning off the light, prompting port operation is correct, and the port lamp that the next needs of control perform starts flashing light, points out next step operation, forwards step 110 to;

Step 109, perform the operation of non-work order port, for the port of misoperation, the indicator light of port points out faulty operation by quick flashing, and guides correct port by slow sudden strain of a muscle, forwards step 110 to;

Step 110, according to port status, judge whether that all work order ports all complete, if all completed, forward step 112 to; If all do not completed, forward step 111 to;

Step 111, order lighting according to jumping fiber work order, guide construction, return step 106;

The construction of step 112, jumping fiber work order instructs flow process to terminate.

Shown in Figure 4, the construction of single-ended work order instructs flow process as follows:

Step 201, start to perform single-ended work order, forward step 202 to;

The state of step 202, poll port, judges whether port meets execution conditions, port status comprise take, hollow, abnormal, forward step 203 to;

Step 203, compare port status, judge whether the construction completing all single-ended work orders, if completed, forward step 207 to; If do not complete construction, forward step 204 to, continue guiding construction;

Step 204, to issue the port of needs operation to intelligent distribution plant, the port taken not very, forwards step 205 to;

The indicator light of step 205, apparatus for lighting port to be onstructed, the port taken not very, forwards step 206 to;

Step 206, enter the guide flow process of single-ended work order, for completed port, by turning off the light, prompting port operation is correct, controls the next port lamp performed that needs and starts flashing light, point out next step operation; If port operation mistake, by quick flashing prompting port inserting error, and the target port that sudden strain of a muscle of waiting a moment is correct, working vessels is corrected in prompting, forwards step 207 to after complete;

The construction of step 207, single-ended work order instructs flow process to terminate.

Shown in Figure 5, the construction of splitter work order instructs flow process as follows:

Step 301, start to perform splitter work order, forward step 302 to;

The state of step 302, poll port, judges whether port meets execution conditions, port status comprise take, hollow, abnormal, forward step 303 to;

Step 303, compare port status, judge whether the construction completing all splitter work orders, if completed, forward step 307 to; If do not complete construction, forward step 304 to, continue guiding construction;

Step 304, to issue the port of needs operation to intelligent distribution plant, the port taken not very, forwards step 305 to;

The indicator light of step 305, apparatus for lighting port to be onstructed, the port taken not very, forwards step 306 to;

Step 306, enter the guide flow process of splitter work order, for completed port, by turning off the light, prompting port operation is correct, controls the next port lamp performed that needs and starts flashing light, point out next step operation; If port operation mistake, by quick flashing prompting port inserting error, and the target port that sudden strain of a muscle of waiting a moment is correct, working vessels is corrected in prompting, forwards step 307 to after complete;

The construction of step 307, splitter work order instructs flow process to terminate.

The embodiment of the present invention supports that near-end operation and far-end instruct two kinds of forms of construction work, and can depart from Intelligent management terminal, direct guiding construction personnel complete constructing operation; By the LED state of control appliance port, for attendant provide a set of efficiently, intelligent construction accurately guides flow process, thus ensures the convenience of construction; The faulty operation of attendant can be responded in time, and prompting warning and error correction are carried out to the operation of mistake; Support multiple fault tolerant mechanism, construction results can be calculated in real time according to condition of construction, thus ensure use uniqueness and the accuracy of jumping fiber, tail optical fiber or optical branching device.

Those skilled in the art can carry out various modifications and variations to the embodiment of the present invention, if these amendments and modification are within the scope of the claims in the present invention and equivalent technologies thereof, then these revise and modification also within protection scope of the present invention.

The prior art that the content do not described in detail in specification is known to the skilled person.

Claims (10)

1. the sODN system of the operation of the support near-end based on eID and far-end guiding construction, comprise intelligent management system, Intelligent management terminal, intelligence distribution plant, described intelligent management system is mutual by the Intelligent management terminal of wireless network and execute-in-place, it is characterized in that: described intelligent distribution plant increases intelligent assembly on traditional ODN equipment, intelligent assembly comprises intelligent management assembly and electronic tag eID, eID utilizes electronic label technology to carry out the mark of uniqueness to the node of intelligent ODN network and branch, intelligent management system is by identifying the content stored in eID, intelligent ODN network is operated and managed, described intelligent management system, Intelligent management terminal is all mutual with intelligent distribution plant, all to intelligent distribution plant transmitting order to lower levels, described sODN system provides near-end to operate and far-end guiding construction two kinds of way to manages.

2. as claimed in claim 1 based on the support near-end operation of eID and the sODN system of far-end guiding construction, it is characterized in that: described sODN system is for the intelligent distribution plant outside machine room, adopt the mode of near-end operation to manage, near-end operation is realized by Intelligent management terminal: Intelligent management terminal realizes the automatic passback of the electronic management of work order, the remote transmission of construction data, the notice of construction warning information and construction results, storage, issue.

3. as claimed in claim 1 based on the support near-end operation of eID and the sODN system of far-end guiding construction, it is characterized in that: described sODN system is for the intelligent distribution plant of directly-connected network in machine room, the mode of far-end operation is adopted to manage, the construction of far-end operation is instructed and is realized by intelligent management system: intelligent management system directly manages intelligent distribution plant by Ethernet, guided by the control realization construction of the port lamp to intelligent distribution plant, support multiple fault tolerant mechanism, alarm prompting is carried out to the operation of mistake, and re-start the guide of correct port.

4. as claimed in claim 1 based on the support near-end operation of eID and the sODN system of far-end guiding construction, it is characterized in that: described Intelligent management terminal obtains work order information by wifi/2G/3G network from intelligent management system, work order information comprises job location, construction equipment, construction content; Workmen is instructed by the construction of Intelligent management terminal, completes construction, and uploads construction results to intelligent management system.

5. the operation of the support near-end based on eID according to any one of Claims 1-4 and the sODN system of far-end guiding construction, is characterized in that: described intelligent distribution plant comprises intelligent optical fiber distribution frame, Intelligent optical cable cross-connecting box, Intelligent optical cable fiber distribution box.

6. be applied to the operation of the support near-end based on eID of sODN system described in claim 1 and a method for far-end guiding construction, it is characterized in that, comprise the following steps:

S1, issue construction work order according to construction plan;

S2, Intelligent management terminal, intelligent management system set up with intelligent distribution plant communicate;

Whether S3, the eID information verifying intelligent distribution plant to be onstructed is correct, if correctly, forwards step S4 to; Otherwise forward step S11 to;

S4, work order information to be verified, work order type is classified, work order is divided three classes: jumping fiber work order, single-ended work order, splitter work order;

S5, judge whether to there is jumping fiber work order, if there is jumping fiber work order, forward step S6 to; Otherwise forward step S7 to;

Flow process is instructed in S6, the construction entering jumping fiber work order, instructs the construction of jumping fiber work order; Forward step S7 to;

S7, judge whether to there is single-ended work order, if there is single-ended work order, forward step S8 to; Otherwise forward step S9 to;

Flow process is instructed in S8, the construction entering single-ended work order, instructs the construction of single-ended work order; Forward step S9 to;

S9, judge whether to there is splitter work order, if there is splitter work order, forward step S10 to; Otherwise forward step S11 to;

Flow process is instructed in S10, the construction entering splitter work order, instructs the construction of splitter work order; Forward step S11 to;

S11, upgrade the eID information of intelligent distribution plant, return construction results, more new database: if the equipment that intelligent management system directly manages, after having constructed, network resource data storehouse can upgrade automatically; If the scene of Intelligent management terminal guiding construction, Intelligent management terminal is after work order construction terminates, and upload construction results to intelligent management system by wifi/2G/3G network, intelligent management system upgrades resource data according to construction results;

S12: terminate construction instruction course.

7., as claimed in claim 6 based on the support near-end operation of eID and the method for far-end guiding construction, it is characterized in that: the construction of described jumping fiber work order instructs flow process as follows:

Step 101, start to perform jumping fiber work order, forward step 102 to;

The state of step 102, poll port, confirms whether port meets execution conditions, port status comprise take, idle, abnormal, forward step 103 to;

Step 103, compare port status, read the eID information of jumping fiber, judge whether the construction completing all jumping fiber work orders, if completed the construction task of all jumping fiber work orders, forward step 112 to; If do not complete construction, forward step 104 to and continue guiding construction;

Step 104, to issue the port of needs operation to intelligent distribution plant, the port taken not very, forwards step 105 to;

Step 105, light the indicator light of intelligent distribution plant port to be onstructed, the port taken not very, forwards step 106 to;

Step 106, wait workmen lamp instruction complete operation as indicated, forwards step 107 to;

Whether the operation of step 107, confirmation workmen is correct, the eID information of jumping fiber on read port, judges whether present port is the port that jumping fiber work order needs to perform, and if so, then forwards step 108 to; Otherwise forward step 109 to;

The operation of step 108, execution jumping fiber work order port, completed port, by turning off the light, prompting port operation is correct, and the port lamp that the next needs of control perform starts flashing light, points out next step operation, forwards step 110 to;

Step 109, perform the operation of non-work order port, for the port of misoperation, the indicator light of port points out faulty operation by quick flashing, and guides correct port by slow sudden strain of a muscle, forwards step 110 to;

Step 110, according to port status, judge whether that all work order ports all complete, if all completed, forward step 112 to; If all do not completed, forward step 111 to;

Step 111, order lighting according to jumping fiber work order, guide construction, return step 106;

The construction of step 112, jumping fiber work order instructs flow process to terminate.

8., as claimed in claim 6 based on the support near-end operation of eID and the method for far-end guiding construction, it is characterized in that: the construction of described single-ended work order instructs flow process as follows:

Step 201, start to perform single-ended work order, forward step 202 to;

The state of step 202, poll port, judges whether port meets execution conditions, port status comprise take, hollow, abnormal, forward step 203 to;

Step 203, compare port status, judge whether the construction completing all single-ended work orders, if completed, forward step 207 to; If do not complete construction, forward step 204 to, continue guiding construction;

Step 204, to issue the port of needs operation to intelligent distribution plant, the port taken not very, forwards step 205 to;

The indicator light of step 205, apparatus for lighting port to be onstructed, the port taken not very, forwards step 206 to;

Step 206, enter the guide flow process of single-ended work order, for completed port, by turning off the light, prompting port operation is correct, controls the next port lamp performed that needs and starts flashing light, point out next step operation; If port operation mistake, by quick flashing prompting port inserting error, and the target port that sudden strain of a muscle of waiting a moment is correct, working vessels is corrected in prompting, forwards step 207 to after complete;

The construction of step 207, single-ended work order instructs flow process to terminate.

9., as claimed in claim 6 based on the support near-end operation of eID and the method for far-end guiding construction, it is characterized in that: the construction of described splitter work order instructs flow process as follows:

Step 301, start to perform splitter work order, forward step 302 to;

The state of step 302, poll port, judges whether port meets execution conditions, port status comprise take, hollow, abnormal, forward step 303 to;

Step 303, compare port status, judge whether the construction completing all splitter work orders, if completed, forward step 307 to; If do not complete construction, forward step 304 to, continue guiding construction;

Step 304, to issue the port of needs operation to intelligent distribution plant, the port taken not very, forwards step 305 to;

The indicator light of step 305, apparatus for lighting port to be onstructed, the port taken not very, forwards step 306 to;

Step 306, enter the guide flow process of splitter work order, for completed port, by turning off the light, prompting port operation is correct, controls the next port lamp performed that needs and starts flashing light, point out next step operation; If port operation mistake, by quick flashing prompting port inserting error, and the target port that sudden strain of a muscle of waiting a moment is correct, working vessels is corrected in prompting, forwards step 307 to after complete;

The construction of step 307, splitter work order instructs flow process to terminate.

10. the operation of the support near-end based on eID according to any one of claim 6 to 9 and the method for far-end guiding construction, is characterized in that: described work order information comprises workmen's information, construction area, construction equipment, constructing operation, Projected completion time.