CN105656545A - Optical cable circuit fault positioning method and fault positioning navigation system - Google Patents

Abstract

The invention discloses an optical cable circuit fault positioning method and a fault positioning navigation system. The fault positioning navigation system is capable of automatically positioning a fault point outdoor through the inputting of search parameters by means of a mobile phone and other terminals, and navigating to a fault point destination. The method comprises the following steps: determining a data parameter required by fault positioning through the researching of optical cable circuit fault positioning information, and classifying the related parameters to divide the parameters into static data and dynamic data, wherein the dynamic data are obtained from the static data according to an algorithm; establishing the steps and flows of constructing the fault positioning information table; and designing an operation interface and the flow of the fault positioning navigation system. Through the implementation of the method disclosed by the invention, the fault positioning information table can be conveniently constructed so as to fast search and position the optical fiber circuit fault point and navigate to the fault point destination.

Description

A kind of lightguide cable link Fault Locating Method and fault location navigation system

Technical field

The present invention relates to telecommunications industry application technology art field, particularly relate to a kind of lightguide cable link fault location and navigation system, it is simple to attendant quickly positions fault and repairing.

Background technology

Along with fiber optic cable maintenance amount is increasing, and attendant is fewer and feweri, when this contradiction increasingly highlights, carry out the management of fiber optic cable maintenance technical data with conventional maintenance management mode to seem with renewal and be increasingly difficult to, especially be embodied in and need to update fault location table frequently, how effectively, efficiently, simply, facilitating management to safeguard, fault location table seems is even more important. Lightguide cable link fault location navigation system had both simplified management and the renewal of fault location table, again easily and fast, looking up the fault point intuitively, and navigated to fault destination.

Our company relies on IT system to realize fault location and the navigation of lightguide cable link; It is easy to attendant to the maintenance management of fault location table and renewal; For maintenance management personnel at different levels easily and fast, looking up the fault point intuitively, and navigate to fault destination, it is achieved rapid rush-repair, improve repairing speed; For all levels of management personnel, the accuracy of fault location data being verified, supervise the effective means of offer, what promote data is precisely formed benign cycle.

Summary of the invention

The invention aims to solve lightguide cable link fault location Problems existing is provided a kind of lightguide cable link Fault Locating Method and fault location navigation system by prior art.

The technical scheme is that a kind of lightguide cable link Fault Locating Method, specifically include:

S1, determine in lightguide cable link fault location information required field and attribute data thereof;

S2, all field information data in fault location information are classified, be divided into static data and dynamic data;

The flow process that S3, design lightguide cable link fault location information are formulated, is called for short " five-step approach ";

S4, design dynamic data computational methods, namely use a certain calculation to be calculated dynamic data by static data;

Field information in S5, described step S1 includes: affiliated paragraph, markstone numbering, markstone type, ground straight length, reel length, actual cable length, actual fine long, the accumulative fibre of A-B is long, the accumulative fine length of B-A, place, joint is to related data information such as the distance of A, longitude and latitude, calculation of longitude & latitude length.

Static data in S6, described step S2 includes: affiliated paragraph, markstone numbering, markstone type, ground straight length, reel length, joint are static data to the distance of A, longitude and latitude, place.

Dynamic data in S7, described step S2 includes: calculation of longitude & latitude length, actual cable length, actual fine length, the accumulative fibre of A-B are long, B-A is accumulative fine long for dynamic data.

" five-step approach " in S8, described step S3 is: the first step: joint distance is determined in empty fine test; Second step: gather longitude and latitude calibration stone distance; 3rd step: investigate reel and stay length; 4th step: share the fine long error with ground face length equally; 5th step: it is long that association calculates accumulative fibre.

Calculation in S9, described step S4 is: share error method equally between 2 joints.

Meanwhile, present invention also offers a kind of lightguide cable link fault location navigation system to solve technical problem, specifically include: fault location information management module, mobile phone A PP module, lookup contrast module, electronic map positioning module, trouble point navigation module.

Described fault location information management module is used for storing, revises, deletes, increases newly, changes fault location information, it is provided that call to mobile phone A PP, it is achieved search and location;

Described mobile phone A PP module is for the utilization to fault location information, it is achieved information searching, location fault message;

Described contrast module of searching carries out contrasting and searching with the fault message in data base for the search criterion of user's input in mobile phone A PP;

Described electronic map positioning module is for intuitively presenting in electronic chart the trouble point information searched, it is achieved trouble point visualizes in electronic chart;

Described trouble point navigation module is for carrying out route planning to trouble point, it is achieved navigate to trouble point destination from position.

The invention has the beneficial effects as follows: one lightguide cable link Fault Locating Method of the present invention and fault location navigation system, can just looking up the fault point position quick, efficient, directly perceived by lightguide cable link fault location navigation system, and by Mobile Telephone Gps to destination, it is greatly improved repairing speed, reduces fault duration; It is shortened by fault duration, reduces business and block risk, promote telecommunications industry bearer network brand value and large power consumers quality; Fiber optic cable maintenance personnel are safeguarded form from loaded down with trivial details craft and free by this function, it is simple to safeguard the renewal of data, amendment, also allow for safeguarding the storage of data and sharing, substantially increase maintenance efficiency.

Accompanying drawing explanation

Fig. 1 is the structured flowchart of a kind of lightguide cable link fault location navigation system of the embodiment of the present invention;

Fig. 2 is the system flow chart of a kind of lightguide cable link Fault Locating Method of the embodiment of the present invention;

Fig. 3 is embodiment of the present invention one optical cable cable road fault location navigation system idiographic flow block diagram;

Fig. 4 is fault location navigation system mobile phone A PP trouble shoot interface, embodiment of the present invention one optical cable cable road;

Fig. 5 is fault location navigation system mobile phone A PP fault location interface, embodiment of the present invention one optical cable cable road;

Fig. 6 is that fault location navigation system mobile phone A PP trouble point, embodiment of the present invention one optical cable cable road presents interface;

Fig. 7 is embodiment of the present invention one optical cable cable road fault location navigation system mobile phone A PP fault navigation interface.

Detailed description of the invention

Below in conjunction with accompanying drawing and specific embodiment, the invention will be further elaborated.

It is illustrated in figure 2 the system flow chart of a kind of lightguide cable link Fault Locating Method of the present invention, specifically includes:

S1, determine in lightguide cable link fault location information required field and attribute data thereof;

S2, all field information data in fault location information are classified, be divided into static data and dynamic data;

The flow process that S3, design lightguide cable link fault location information are formulated, is called for short " five-step approach ";

S4, design dynamic data computational methods, namely use calculation calculated dynamic data by static data;

Field information in S5, described step S1 includes: affiliated paragraph, markstone numbering, markstone type, ground straight length, reel length, actual cable length, actual fine long, the accumulative fibre of A-B is long, the accumulative fine length of B-A, place, joint is to the distance of A, longitude and latitude, calculation of longitude & latitude length.

Static data in S6, described step S2 includes: affiliated paragraph, markstone numbering, markstone type, ground straight length, reel length, joint are static data to the distance of A, longitude and latitude, place.

Dynamic data in S7, described step S2 includes: calculation of longitude & latitude length, actual cable length, actual fine length, the accumulative fibre of A-B are long, B-A is accumulative fine long for dynamic data.

" five-step approach " in S8, described step S3 is: the first step: joint distance is determined in empty fine test; Second step: gather longitude and latitude calibration stone distance; 3rd step: investigate reel and stay length; 4th step: share the fine long error with ground face length equally; 5th step: it is long that association calculates accumulative fibre.

Calculation in S9, described step S4 is: share error method equally between 2 joints, specific as follows:

Assume that the cable distance between 2 joints be L0, fine distance is S0, ground straight length between 2 markstones is L1(i), reel length be L2(i), to realize cable length be L3(i), actual fine long for L4(i), one total distance of hop is that the accumulative fibre of S0, A-B is long for S1(i), the accumulative fibre of B-A long for S2(i), then L3(i)=L1(i)+L2(i), L4(i)=L3(i)+(S0-L0)/L0, S1(i)=, S2(i)=S0-S1(i).

S10, by the computational methods in described step S9, the accumulative fibre of A-B can be obtained long long with the accumulative fibre of B-A, therefore, select A or B as a reference point, it is assumed that trouble point is S from the distance of A reference point, by inquire about can determine that S is positioned at S1(i) and S1(i+1) between, thus the anti-trouble point that pushes away is between markstone i and markstone i+1, extract the longitude and latitude of markstone i, navigation can be crossed and can arrive the destination nearest from trouble point, be a kind of lightguide cable link Fault Locating Method.

For said method, it is illustrated in figure 1 and present invention also offers a kind of lightguide cable link fault location navigation system, specifically include: fault location information management module, mobile phone A PP module, lookup contrast module, electronic map positioning module, trouble point navigation module.

Described fault location information management module provides the interface of user's typing static data, calculate dynamic data simultaneously, for storing, revise, delete, increase newly, change fault location information, with mobile phone A PP module, lookup contrast module, electronic map positioning module interaction data, receive and data are provided, it is achieved searching and location;

Described mobile phone A PP module provides user's typing querying condition and the interface of display result, by typing querying condition, this condition is supplied to lookup contrast module, comparison result is fed back to fault location information management module, the data of correspondence are extracted again as Query Result from fault location information management module, for the utilization to fault location information, it is achieved information searching, location fault message;

Described contrast module of searching receives the querying condition data that mobile phone A PP module sends, and carries out contrasting and searching with the fault message in data base for the search criterion of user's input in mobile phone A PP, result feeds back to fault location information management module;

Described electronic map positioning module receives the Query Result information in mobile phone A PP module, and extract related data corresponding with Query Result in fault location information management module, for the trouble point information searched intuitively is presented in electronic chart, it is achieved trouble point visualizes in electronic chart;

Existing location, described trouble point navigation module location, extracts the longitude and latitude of Query Result destination in on-site longitude and latitude and electronic map positioning module, location and destination is carried out route planning, it is achieved navigate to trouble point destination from position.

Being illustrated in figure 3 a kind of optical cable cable road fault location navigation system idiographic flow, inquired about by mobile phone A PP, input inquiry condition is compared by localization of fault interface, then makes a look up as there is this condition, and otherwise fault-free point returns, as shown in Figure 4; Eligible make a look up, it is shown that 2 marker locations nearest from trouble point of lookup, as shown in Figure 5; 2 marker locations found are visualized intuitively in electronic chart, as shown in Figure 6; By this trouble point being carried out route planning and navigation, then show navigation way, as shown in Figure 7.

Claims (7)

1. a lightguide cable link Fault Locating Method, it is characterised in that specifically include: S1, determine in lightguide cable link fault location information required field and attribute data thereof;

S2, all field information data in fault location information are classified, be divided into static data and dynamic data;

The flow process that S3, design lightguide cable link fault location information are formulated, is called for short " five-step approach ";

S4, design dynamic data computational methods, namely use a certain calculation to be calculated dynamic data by static data.

2. a kind of lightguide cable link Fault Locating Method as claimed in claim 1, it is characterized in that, the field information in described step S1 includes: affiliated paragraph, markstone numbering, markstone type, ground straight length, reel length, actual cable length, actual fine long, the accumulative fibre of A-B is long, the accumulative fine length of B-A, place, joint is to related data information such as the distance of A, longitude and latitude, calculation of longitude & latitude length.

3. a kind of lightguide cable link Fault Locating Method as claimed in claim 1, it is characterized in that, the static data in described step S2 includes: affiliated paragraph, markstone numbering, markstone type, ground straight length, reel length, joint are static data to the distance of A, longitude and latitude, place.

4. a kind of lightguide cable link Fault Locating Method as claimed in claim 1, it is characterised in that the dynamic data in described step S2 includes: calculation of longitude & latitude length, actual cable length, actual fine length, the accumulative fibre of A-B are long, B-A is accumulative fine long for dynamic data.

5. a kind of lightguide cable link Fault Locating Method as claimed in claim 1, it is characterised in that " five-step approach " in described step S3 is: the first step: joint distance is determined in empty fine test; Second step: gather longitude and latitude calibration stone distance; 3rd step: investigate reel and stay length; 4th step: share the fine long error with ground face length equally; 5th step: it is long that association calculates accumulative fibre.

6. a kind of lightguide cable link Fault Locating Method as claimed in claim 1, it is characterised in that the calculation in described step S4 is: share error method equally between 2 joints.

7. a lightguide cable link fault location navigation system, it is characterised in that specifically include: fault location information management module, mobile phone A PP module, lookup contrast module, electronic map positioning module, trouble point navigation module;

Described fault location information management module is used for storing, revises, deletes, increases newly, changes fault location information, it is provided that call to mobile phone A PP, it is achieved search and location;

Described mobile phone A PP module is for the utilization to fault location information, it is achieved information searching, location fault message;

Described contrast module of searching carries out contrasting and searching with the fault message in data base for the search criterion of user's input in mobile phone A PP;

Described electronic map positioning module is for intuitively presenting in electronic chart the trouble point information searched, it is achieved trouble point visualizes in electronic chart;

Described trouble point navigation module is for carrying out route planning to trouble point, it is achieved navigate to trouble point destination from position.