CN107872275A - Cable's Fault localization method, server, terminal and system - Google Patents

Cable's Fault localization method, server, terminal and system Download PDF

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Publication number
CN107872275A
CN107872275A CN201610847776.6A CN201610847776A CN107872275A CN 107872275 A CN107872275 A CN 107872275A CN 201610847776 A CN201610847776 A CN 201610847776A CN 107872275 A CN107872275 A CN 107872275A
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China
Prior art keywords
anchor point
point
fault
computer room
target
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Granted
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CN201610847776.6A
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Chinese (zh)
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CN107872275B (en
Inventor
吴晖
刘兵
章剑
饶少勇
樊志坚
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China Telecom Corp Ltd
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China Telecom Corp Ltd
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Priority to CN201610847776.6A priority Critical patent/CN107872275B/en
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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04BTRANSMISSION
    • H04B10/00Transmission systems employing electromagnetic waves other than radio-waves, e.g. infrared, visible or ultraviolet light, or employing corpuscular radiation, e.g. quantum communication
    • H04B10/07Arrangements for monitoring or testing transmission systems; Arrangements for fault measurement of transmission systems
    • H04B10/075Arrangements for monitoring or testing transmission systems; Arrangements for fault measurement of transmission systems using an in-service signal
    • H04B10/077Arrangements for monitoring or testing transmission systems; Arrangements for fault measurement of transmission systems using an in-service signal using a supervisory or additional signal
    • H04B10/0771Fault location on the transmission path
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04BTRANSMISSION
    • H04B10/00Transmission systems employing electromagnetic waves other than radio-waves, e.g. infrared, visible or ultraviolet light, or employing corpuscular radiation, e.g. quantum communication
    • H04B10/07Arrangements for monitoring or testing transmission systems; Arrangements for fault measurement of transmission systems
    • H04B10/075Arrangements for monitoring or testing transmission systems; Arrangements for fault measurement of transmission systems using an in-service signal
    • H04B10/079Arrangements for monitoring or testing transmission systems; Arrangements for fault measurement of transmission systems using an in-service signal using measurements of the data signal
    • H04B10/0791Fault location on the transmission path
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L41/00Arrangements for maintenance, administration or management of data switching networks, e.g. of packet switching networks
    • H04L41/06Management of faults, events, alarms or notifications
    • H04L41/0677Localisation of faults
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L67/00Network arrangements or protocols for supporting network services or applications
    • H04L67/50Network services
    • H04L67/52Network services specially adapted for the location of the user terminal

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  • Engineering & Computer Science (AREA)
  • Computer Networks & Wireless Communication (AREA)
  • Signal Processing (AREA)
  • Physics & Mathematics (AREA)
  • Electromagnetism (AREA)
  • Locating Faults (AREA)

Abstract

The present invention proposes a kind of Cable's Fault localization method, server, terminal and system, is related to network O&M technical field.Wherein, a kind of Cable's Fault localization method of the invention includes:The fault inquiry request for carrying out self terminal is obtained, the fault distance that fault inquiry request includes trouble point and relayed between computer room is fine long;Fault distance fibre length during fault inquiry is asked is with anchor point in fault location data compared with the accumulative fine length between relaying computer room, determine target anchor point, wherein, target anchor point is the anchor point neighbouring with trouble point, and anchor point includes relaying computer room, markstone point;The positional information of feedback target anchor point.Pass through such method, it can ask to be inquired about in fault location data according to fault inquiry, it is determined that the computer room neighbouring with trouble point or markstone point, and the position of computer room or markstone point is fed back into optical cable maintenance personnel, in order to which optical cable maintenance personnel go to scene to be detected and repaired according to the positional information of acquisition, the efficiency of fault location is improved.

Description

Cable's Fault localization method, server, terminal and system
Technical field
The present invention relates to network O&M technical field, particularly a kind of Cable's Fault localization method, server, terminal and it is System.
Background technology
With the gradual increase of optical cable scale, the maintenance of circuit also gradually increases, which increase the difficulty of fault location, Requirement and demand to attendant also sharply increase.
, it is necessary to which attendant's frequent updating fault location table, it is each to record optical cable in time in traditional optical cable maintenance management The situation of individual node, markstone point, when a failure occurs it, attendant need manual queries fault location table, failure judgement section, Fault section is inquired about, then goes to fault section to be rushed to repair, process is complicated, it is necessary to take considerable time, repairing cycle length is unfavorable In maintaining network steadily normally to run, Consumer's Experience is influenceed.
The content of the invention
It is an object of the present invention to improve the efficiency of Cable's Fault positioning.
According to an aspect of the present invention, a kind of Cable's Fault localization method is proposed, including:Obtain the failure for carrying out self terminal Inquiry request, fault inquiry request include relaying computer room mark, and, the fault distance between trouble point and relaying computer room is fine It is long;Accumulative fibre in fault distance fibre length and fault location data during fault inquiry is asked between anchor point and relaying computer room Length is compared, and determines target anchor point, wherein, target anchor point is the anchor point neighbouring with trouble point, during anchor point includes After computer room and/or markstone point;The positional information of feedback target anchor point.
Alternatively, the positional information of feedback target anchor point includes:The latitude and longitude information of feedback target anchor point, so as to Display target anchor point on the map of terminal.
Alternatively, target anchor point includes first object anchor point and the second target anchor point;During fault inquiry is asked Fault distance fibre length compared with the accumulative fine length between relaying computer room, determines that target is determined with anchor point in fault location data Site includes:In the accumulative fine long anchor point long less than fault distance fibre, it is determined that the anchor point of accumulative fine length maximum is first Target anchor point;It is more than accumulative fine long in the fine long anchor point of fault distance, it is determined that accumulative fine long minimum anchor point is the Two target anchor points.
Alternatively, the class of track in fault inquiry request also including failure optical cable and/or the position paragraph of trouble point;Therefore Barrier location data also includes the class of track information and/or position paragraph information of anchor point;Based on fault location data, according to event Barrier inquiry request determines that the anchor point neighbouring with trouble point includes as target anchor point:According to the class of track of failure optical cable And/or the class of track information and/or position paragraph information of the position paragraph matching anchor point of trouble point, screen anchor point; Target anchor point is determined in the anchor point filtered out.
Alternatively, in addition to:Fault location basic data is obtained, fault location basic data includes:Each anchor point Fibre between latitude and longitude information, mark, reel length and adjacent relay computer room is long;Determined according to fault location basic data Markstone point is long to the accumulative fibre between the relaying computer room adjacent with markstone point;It is long-living according to fault location basic data and accumulative fibre Into fault location data.
Alternatively, determine markstone point to the accumulative fine long bag between adjacent relaying computer room according to fault location basic data Include:Correction parameter is determined according to the fine length between adjacent relay computer room and the latitude and longitude information of adjacent relay computer room;According to fixed The latitude and longitude information in site determines the ground distance between adjacent positioned point;According to the ground distance between adjacent positioned point and each fixed The reel length in site determines that the rough estimate between adjacent positioned point is fine long;The fine length of rough estimate is optimized according to correction parameter, it is adjacent fixed to determine It is actual fine long between site;According to the actual fine long each markstone point of determination between adjacent positioned point to the relaying adjacent with markstone point It is accumulative fine long between computer room.
By such method, can ask be inquired about in fault location data according to fault inquiry, it is determined that with therefore Barrier point neighbouring computer room or markstone point, and the position of computer room or markstone point is fed back into optical cable maintenance personnel, in order to which optical cable is tieed up Shield personnel go to scene to be detected and repaired according to the positional information of acquisition, improve the efficiency of fault location.
According to another aspect of the present invention, a kind of Cable's Fault localization method is proposed, including:Failure is sent to server Inquiry request, fault inquiry request include relaying computer room mark, and, the fault distance between trouble point and relaying computer room is fine It is long, fault distance fibre length and anchor point in fault location data and relaying computer room during so as to server, fault inquiry is asked it Between accumulative fine length be compared, determine target anchor point, wherein, target anchor point be the anchor point neighbouring with trouble point, calmly Site includes relaying computer room and/or markstone point;The positional information of acquisition target anchor point, wherein target anchor point include and failure Point neighbouring relaying computer room and/or markstone point.
Alternatively, the positional information of target anchor point includes the latitude and longitude information of target anchor point;Also include:According to target The latitude and longitude information of anchor point display target anchor point on map.
Alternatively, in addition to:Leading for target anchor point is shown on map according to the latitude and longitude information of target anchor point Boat information.
By such method, fault inquiry request can be sent to server, and obtain and trouble point neighbour from server The positional information of near computer room or markstone point, in order to which optical cable maintenance personnel go to scene to be examined according to the positional information of acquisition Survey and repair, improve the efficiency of fault location.
According to a further aspect of the invention, a kind of Cable's Fault location-server is proposed, including:Inquiry request obtains mould Block, come for obtaining self terminal fault inquiry request, fault inquiry request include relay computer room mark, and, trouble point and The fault distance relayed between computer room is fine long;Target anchor point determining module, for the fault distance during fault inquiry is asked Fine length compared with the accumulative fine length between relaying computer room, determines target anchor point with anchor point in fault location data, its In, target anchor point is the anchor point neighbouring with trouble point, and anchor point includes relaying computer room and/or markstone point;Feedback module, use In the positional information of feedback target anchor point.
Alternatively, feedback module is used for the latitude and longitude information of feedback target anchor point, to show mesh on terminal map Demarcate site.
Alternatively, target anchor point includes first object anchor point and the second target anchor point;Target anchor point determines mould Block is used to be less than in the fine long anchor point of fault distance in accumulative fine length, it is determined that the long maximum anchor point of accumulative fibre is first object Anchor point;In the accumulative fine long anchor point long more than fault distance fibre, it is determined that the anchor point of accumulative fine length minimum is the second mesh Demarcate site.
Alternatively, the class of track in fault inquiry request also including failure optical cable and/or the position paragraph of trouble point;Therefore Barrier location data also includes the class of track information and/or position paragraph information of anchor point;Target anchor point determining module includes: Anchor point screening unit, for the class of track according to failure optical cable and/or the line of the position paragraph matching anchor point of trouble point Road class information and/or position paragraph information, screen anchor point;Target point determining unit, in the anchor point filtered out Determine target anchor point.
Alternatively, in addition to:Basic data acquisition module, for obtaining fault location basic data, fault location basis Data include:The latitude and longitude information of each anchor point, mark, reel be long and adjacent relay computer room between fibre it is long;It is accumulative Fine long acquisition module, for determining markstone point between the relaying computer room adjacent with markstone point according to fault location basic data It is accumulative fine long;Fault location data generation module, for according to fault location basic data and accumulative fine long generation fault location Data.
Alternatively, add up fine long acquisition module to be used for:According to the fine length and adjacent relay machine between adjacent relay computer room The latitude and longitude information in room determines correction parameter;Ground distance between adjacent positioned point is determined according to the latitude and longitude information of anchor point; Grown according to the reel of the ground distance between adjacent positioned point and each anchor point and determine that the rough estimate between adjacent positioned point is fine long;Root It is fine long according to correction parameter optimization rough estimate, determine the actual fine length between adjacent positioned point;According to actual fine long between adjacent positioned point Determine each markstone point to the accumulative fine length between the relaying computer room adjacent with markstone point.
Such server can be asked to be inquired about in fault location data according to fault inquiry, it is determined that and trouble point Neighbouring computer room or markstone point, and the position of computer room or markstone point is fed back into optical cable maintenance personnel, in order to optical cable maintenance people Member goes to scene to be detected and repaired according to the positional information of acquisition, improves the efficiency of fault location.
According to a further aspect of the invention, a kind of Cable's Fault positioning terminal is proposed, including:Inquiry request sends mould Block, for sending fault inquiry request to server, fault inquiry request includes relaying computer room mark, and, trouble point is with It is fine long after the fault distance between computer room, fault distance fibre length and fault location number during so as to server, fault inquiry is asked According to middle anchor point between relaying computer room it is accumulative it is fine long compared with, determine target anchor point, wherein, target anchor point be with The neighbouring anchor point in trouble point, anchor point include relaying computer room and/or markstone point;Position information acquisition module, come for obtaining From the positional information of the target anchor point of server, wherein target anchor point include the relaying computer room neighbouring with trouble point and/or Markstone point.
Alternatively, the positional information of target anchor point includes the latitude and longitude information of target anchor point;Also include:Map denotation Module, for according to the latitude and longitude information of target anchor point on map display target anchor point.
Alternatively, in addition to:Navigation module, for being shown to mesh on map according to the latitude and longitude information of target anchor point Demarcate the navigation information in site.
Such terminal can send fault inquiry request to server, and be obtained and the neighbouring machine in trouble point from server The positional information in room or markstone point, in order to which optical cable maintenance personnel go to scene to be detected and tieed up according to the positional information of acquisition Repair, improve the efficiency of fault location.
In addition, according to an aspect of the present invention, a kind of Cable's Fault alignment system is proposed, including:It is mentioned above Any one Cable's Fault location-server;With any one Cable's Fault positioning terminal being mentioned above.
In such system, fault inquiry request can be sent by terminal to server, server please according to fault inquiry Ask and inquired about in fault location data, it is determined that the computer room neighbouring with trouble point or markstone point, and by computer room or markstone point Position feeds back to terminal, in order to which optical cable maintenance personnel go to scene to be detected and repaired according to the positional information of acquisition, carries The high efficiency of fault location.
Brief description of the drawings
Accompanying drawing described herein is used for providing a further understanding of the present invention, forms the part of the application, this hair Bright schematic description and description is used to explain the present invention, does not form inappropriate limitation of the present invention.In the accompanying drawings:
Fig. 1 is the flow chart of one embodiment of the Cable's Fault localization method of the present invention.
Fig. 2 is the flow chart of one embodiment that target anchor point is determined in the Cable's Fault localization method of the present invention.
Fig. 3 is the flow chart of one embodiment that fault location data are generated in the Cable's Fault localization method of the present invention.
Fig. 4 is the flow chart of one embodiment of the Cable's Fault localization method of the present invention.
Fig. 5 is the flow chart of another embodiment of the Cable's Fault localization method of the present invention.
Fig. 6 is the schematic diagram of one embodiment of the Cable's Fault location-server of the present invention.
Fig. 7 is the signal of one embodiment of target anchor point determining module in Cable's Fault location-server of the invention Figure.
Fig. 8 is the schematic diagram of another embodiment of the Cable's Fault positioner of the present invention.
Fig. 9 is the schematic diagram of one embodiment of the Cable's Fault positioning terminal of the present invention.
Figure 10 is the schematic diagram of another embodiment of the Cable's Fault positioning terminal of the present invention.
Figure 11 a are the schematic diagram of the one embodiment at positioning terminal interface in Cable's Fault positioning terminal of the invention.
Figure 11 b are the signal of one embodiment of positional information feedback interface in Cable's Fault positioning terminal of the invention Figure.
Figure 11 c are the schematic diagram of the one embodiment at map denotation interface in Cable's Fault positioning terminal of the invention.
Figure 11 d are the schematic diagram of one embodiment of navigation interface in Cable's Fault positioning terminal of the invention.
Figure 12 is the schematic diagram of one embodiment of the Cable's Fault alignment system of the present invention.
Embodiment
Below by drawings and examples, technical scheme is described in further detail.
The flow chart of one embodiment of the Cable's Fault localization method of the present invention is as shown in Figure 1.
In a step 101, the fault inquiry request for carrying out self terminal is obtained, fault inquiry request includes relaying computer room mark And the fault distance between trouble point and relaying computer room is fine long.In one embodiment, optical cable section is included in two end points After computer room, identified respectively with A, B, optical cable maintenance personnel can be tested in any one relaying computer room, the localization of faults away from Fibre from relaying computer room is long, fine long as fault distance.
In a step 102, the fault distance fibre length during fault inquiry is asked is with anchor point in fault location data with It is compared after the accumulative fine length between computer room, determines target anchor point.Target anchor point is the anchor point neighbouring with trouble point. In one embodiment, anchor point includes relaying computer room, markstone point.Fault location data include mark and the position of anchor point It is accumulative fine long between information, and anchor point and relaying computer room.In one embodiment, can be obtained according to relaying computer room mark Each anchor point is taken apart from the accumulative fine long of the relaying computer room, then by compared with the fine length of fault distance, determining length phase Anchor point is as target anchor point corresponding near accumulative fine length.
In step 103, the positional information of feedback target anchor point.In one embodiment, wrapped in fault location data The latitude and longitude information of anchor point is included, the latitude and longitude information of anchor point can be fed back to terminal, in order to which terminal shows on map Show target anchor point.
By such method, it can ask to be inquired about in fault location data according to fault inquiry, determine failure Point neighbouring computer room or markstone point, and the position of computer room or markstone point is fed back into optical cable maintenance personnel, in order to optical cable maintenance Personnel go to scene to be detected and repaired according to the positional information of acquisition, improve the efficiency of fault location, shorten maintenance Time, reduce business and block risk, lift service quality and Consumer's Experience.
In one embodiment, between being often positioned in two anchor points due to trouble point, determine that single target anchor point can It can cause the relative position of indefinite trouble point and target anchor point, it is therefore desirable to two target anchor points are determined, so as to Know the optical cable section that trouble point is located at.Target anchor point includes first object anchor point, the second target anchor point.Can be accumulative Fibre is long to be less than in the fine long anchor point of fault distance, it is determined that accumulative fine long maximum anchor point is first object anchor point;Tired In the fine long anchor point long more than fault distance fibre of meter, it is determined that the anchor point of accumulative fine length minimum is the second target anchor point.
By such method, the target anchor point of trouble point both sides is can determine, so that it is determined that the light that trouble point is located at Cable section, so that attendant carries out accurately localization of fault.
In one embodiment, the class of track information of failure optical cable can also be included in fault inquiry request, failure is fixed Position data include the class of track information of anchor point;The screening of anchor point can be carried out by the matching of class of track information, And then target anchor point is determined from the anchor point filtered out., can be true again after advanced row line screening by such method Set the goal anchor point, so as to reduce operand, operation efficiency is improved, particularly in the larger feelings of the data volume of fault location data Under condition, it is possible to increase the reaction speed of system, reduce the requirement to equipment performance, improve the Consumer's Experience of attendant.
In one embodiment, the location of failure optical cable paragraph information can also be included in fault inquiry request, such as Nanchang section.Fault location data include the position paragraph information of anchor point;It can be carried out by the matching of position paragraph information The screening of anchor point, so as to determine target anchor point from the anchor point filtered out., being capable of advanced line position by such method Target anchor point is determined again after putting paragraph screening, so as to reduce operand, operation efficiency is improved, particularly in fault location data Data volume it is larger in the case of, it is possible to increase the reaction speed of system, reduce the requirement to equipment performance, improve attendant Consumer's Experience.
Flow chart such as Fig. 2 institutes of one embodiment of target anchor point are determined in the Cable's Fault localization method of the present invention Show.
In step 201, in fault location data, carried out by the matching of class of track information and position paragraph information The screening of anchor point.
In step 202, selected in the anchor point that step 201 filters out, it is determined that it is accumulative fine long be less than failure away from It is first object anchor point to add up fine long maximum anchor point in the anchor point long from fibre.
In step 203, selected in the anchor point that step 201 filters out, it is determined that it is accumulative fine long be more than failure away from It is the second target anchor point to add up fine long minimum anchor point in the anchor point long from fibre.
By such method, the screening of anchor point can be first carried out to reduce data volume, improves target anchor point really Determine efficiency;And then the target anchor point of localization of faults both sides, so that it is determined that the optical cable section that trouble point is located at, to safeguard people Member carries out accurately localization of fault.
In one embodiment, fault location data can be generated according to lightguide cable link situation.The Cable's Fault of the present invention The flow chart that one embodiment of fault location data is generated in localization method is as shown in Figure 3.
In step 301, fault location basic data is obtained, fault location basic data includes:The warp of each anchor point Fibre between latitude information, mark, reel length and adjacent relay computer room is long.In one embodiment, can use point-by-point Measurement, the mode typing fault location basic data of manual entry;In one embodiment, data with existing generation event can be imported Hinder location base data.
In step 302, according to fault location basic data determine markstone point to the relaying computer room adjacent with markstone point it Between it is accumulative fine long.In one embodiment, can be according to the long light for combining each anchor point of fibre between adjacent relay computer room Fine disk is long, the ground distance between anchor point carries out error and shared equally, so that it is determined that each markstone point is between the relaying computer room at both ends It is accumulative fine long.
In step 303, according to fault location basic data and accumulative fine long generation fault location data.In an implementation In example, latitude and longitude information, the mark of fault location data including each anchor point, and each markstone point to adjacent relaying It is accumulative fine long between computer room.
By such method, can determine according to that can measure, count obtained fault location basic data generation failure Position data, fiber optic cable maintenance personnel are safeguarded in form from cumbersome craft and freed, is easy to safeguard the renewal of data, repaiies Change, also allow for safeguarding the storage of data and share, substantially increase maintenance efficiency.
In one embodiment, the ground distance between adjacent positioned point can be determined according to the latitude and longitude information of anchor point L1;Determine that the rough estimate between adjacent positioned point is fine according to the long L2 of reel of the ground distance and two anchor points between adjacent positioned point Long L3=L1+L2.Grown due to reel and repetition, and ground distance and actual optical cable laying are had in accumulative fine long calculating process Distance can be had any different, it is therefore desirable to which long L3 fine to rough estimate is corrected.In one embodiment, can be according to adjacent relay computer room Between fine length and the latitude and longitude information of adjacent relay computer room determine correction parameter, such as according to the longitude and latitude of adjacent relay computer room Information determines that the ground distance between adjacent relay computer room is L0, and fibre is a length of between determining adjacent relay computer room by empty fine test S0, determine that correction parameter is:
N=(S0-L0)/L0
The fine length of rough estimate is optimized according to correction parameter, determines the actual fine length between adjacent positioned point:
Actual fine long L4=L3+N
According to the actual fine long each markstone point of determination between adjacent positioned point between the relaying computer room adjacent with markstone point It is accumulative fine long.Since the relaying computer room (A computer rooms) of one end, the distance between i-th of markstone point and previous anchor point are L4i, then the accumulative fibre from i-th of markstone point to A computer rooms is a length ofRelaying of i-th of markstone point to the other end The accumulative a length of SB of fibre of computer room (B computer rooms)i=S0-SAi
, can be according to being capable of field survey the relaying Host equipment room, markstone point position, the repeater that arrive by such method Room adds up fine length and the reel of markstone point is grown to obtain the fine length between adjacent positioned point, and then obtains each markstone o'clock to two The accumulative fine length of end relaying computer room, is easy to locating point data management, and is easy to the rapid matching inquiry in query process, obtains event The position of the neighbouring anchor point of barrier point, improve the efficiency of fault location.
In one embodiment, fault location data can be repaiied according to practical situations, network Development situation Change, update, effective means are provided so as to be verified the accuracy of fault location data, supervised for all levels of management personnel.
The flow chart of one embodiment of the Cable's Fault localization method of the present invention is as shown in Figure 4.
In step 401, fault inquiry request being sent to server, fault inquiry request includes relaying computer room mark, Fault distance between trouble point and relaying computer room is fine long.Server can be according to relaying computer room mark and fault distance fibre progress Row is matched and compared, it is determined that the relaying computer room adjacent with trouble point, markstone point.
In step 402, the positional information of target anchor point is obtained.
By such method, fault inquiry request can be sent to server, and obtain and trouble point neighbour from server The positional information of near computer room or markstone point, in order to which optical cable maintenance personnel go to scene to be examined according to the positional information of acquisition Survey and repair, improve the efficiency of fault location, shorten the repair time, improve Consumer's Experience.
In one embodiment, the positional information of target anchor point can include the latitude and longitude information of target anchor point, energy Enough supply terminal display target anchor point on map.
By such method, optical cable maintenance personnel can obtain the position of target anchor point on map, and abstract Position text information reduces the requirement that optical cable maintenance personnel hold to each markstone point position, is easy to light compared to more intuitively Cable attendant goes to rapidly the place.
In one embodiment, terminal can also be according to the latitude and longitude information of current position and target anchor point in map Upper display is from current location to the navigation information of target anchor point.
By such method, optical cable maintenance personnel can go directly to target anchor point using navigation information, further The requirement for optical cable maintenance personnel is reduced, shortens the time that optical cable maintenance personnel reach target anchor point, improves trouble point The efficiency of positioning.
The flow chart of another embodiment of the Cable's Fault localization method of the present invention is as shown in Figure 5.
In step 501, fault inquiry request being sent to server, fault inquiry request includes relaying computer room mark, Fault distance between trouble point and relaying computer room is fine long.Server can be according to relaying computer room mark and fault distance fibre progress Row is matched and compared, it is determined that the relaying computer room adjacent with trouble point, markstone point.
In step 502, the latitude and longitude information of target anchor point is obtained.
In step 503, the display target anchor point on the map of terminal.
In step 504, shown on terminal map from current location to the navigation information of target anchor point.
By such method, relaying computer room mark and failure can be provided by sending fault inquiry request to server Distance is fine long, the latitude and longitude information of target anchor point can be obtained from server, and obtained on map from current location to mesh The navigation information in site is demarcated, process is convenient and friendly, has without optical cable maintenance personnel for markstone point position, distance and road conditions Grasp well, improve the efficiency of localization of fault, shorten the time of malfunction elimination, improve Consumer's Experience.
The schematic diagram of one embodiment of the Cable's Fault location-server of the present invention is as shown in Figure 6.Wherein, inquiry request Acquisition module 601 can obtain come self terminal fault inquiry request, fault inquiry request include relay computer room identify and Fault distance between trouble point and relaying computer room is fine long.In one embodiment, optical cable section includes two end points repeaters Room, identified respectively with A, B, optical cable maintenance personnel can be tested in any one relaying computer room, in localization of faults distance Fibre after computer room is long, fine long as fault distance.Target anchor point determining module 602 fault inquiry can be asked in failure Compared with fine length is long with the accumulative fibre between relaying computer room with anchor point in fault location data, determine that target positions Point.Target anchor point is the anchor point neighbouring with trouble point.In one embodiment, anchor point includes relaying computer room, markstone point. Fault location data include accumulative fine long between the mark and positional information of anchor point, and anchor point and relaying computer room. In one embodiment, each anchor point can be obtained according to relaying computer room mark apart from the accumulative fine long of the relaying computer room, then By compared with the fine length of fault distance, determining that anchor point is as target anchor point corresponding to the accumulative fine length of similar length. Feedback module 603 is capable of the positional information of feedback target anchor point.In one embodiment, fault location data include positioning Point latitude and longitude information, the latitude and longitude information of anchor point can be fed back to terminal, in order to terminal on map display target Anchor point.
Such server can be asked to be inquired about in fault location data according to fault inquiry, and the localization of faults is adjacent Near computer room or markstone point, and the position of computer room or markstone point is fed back into optical cable maintenance personnel, in order to optical cable maintenance personnel Go to scene to be detected and repaired according to the positional information of acquisition, improve the efficiency of fault location, shorten the repair time, Improve Consumer's Experience.
In one embodiment, between being often positioned in two anchor points due to trouble point, determine that single target anchor point can It can cause the relative position of indefinite trouble point and target anchor point, it is therefore desirable to two target anchor points are determined, so as to Know the optical cable section that trouble point is located at.Target anchor point includes first object anchor point, the second target anchor point.Target anchor point Determining module 602 can be in the accumulative fine long fine long anchor point less than fault distance, it is determined that the anchor point that accumulative fine length is maximum For first object anchor point;In the accumulative fine long fine long anchor point more than fault distance, it is determined that the positioning that accumulative fine length is minimum Point is the second target anchor point.
Such server can determine the target anchor point of trouble point both sides, so that it is determined that the optical cable area that trouble point is located at Between, so that attendant carries out accurately localization of fault.
The present invention Cable's Fault location-server in target anchor point determining module one embodiment schematic diagram such as Shown in Fig. 7.Wherein, anchor point screening unit 701 can be screened from fault location data, exclusive segment anchor point. In one embodiment, the class of track information of failure optical cable can be included in fault inquiry request, fault location data include The class of track information of anchor point, anchor point screening unit 701 can carry out anchor point by the matching of class of track information Screening;In another embodiment, the location of failure optical cable paragraph information, such as south can also be included in fault inquiry request Prosperous section.Fault location data include the position paragraph information of anchor point;Anchor point screening unit 701 can pass through position paragraph The matching of information carries out the screening of anchor point.Target point determining unit 702 is used to determine that target is determined from the anchor point filtered out Site, it can be selected in the anchor point filtered out, it is determined that tiring out in the accumulative fine long fine long anchor point less than fault distance The maximum anchor point of the fine length of meter is first object anchor point, it is determined that adding up in the accumulative fine long fine long anchor point more than fault distance The long minimum anchor point of fibre is the second target anchor point.
Such server can first carry out the screening of anchor point to reduce data volume, reduce operand, improve computing effect Rate, particularly in the case where the data volume of fault location data is larger, it is possible to increase the reaction speed of system, reduce to equipment The requirement of performance, improve the Consumer's Experience of attendant;And then the target anchor point of localization of faults both sides, so that it is determined that failure The optical cable section that point is located at, so that attendant carries out accurately localization of fault.
The schematic diagram of another embodiment of the Cable's Fault location-server of the present invention is as shown in Figure 8.Wherein, inquiry please Ask acquisition module 801, target anchor point determining module 802 and the 26S Proteasome Structure and Function of feedback module 803 and phase in Fig. 6 embodiment Seemingly.Cable's Fault location-server also includes basic data acquisition module 804, accumulative fine long acquisition module 805 and fault location Data generation module 806.Basic data acquisition module 804 can obtain fault location basic data, fault location basic data Including:The latitude and longitude information of each anchor point, mark, reel be long and adjacent relay computer room between fibre it is long.It is accumulative fine long Acquisition module 805 can determine markstone point to tiring out between the relaying computer room adjacent with markstone point according to fault location basic data Meter is fine long.In one embodiment, can it is long according to the long fiber reel for combining each anchor point of fibre between adjacent relay computer room, Ground distance between anchor point carries out error and shared equally, so that it is determined that the accumulative fibre that relays computer room between of each markstone point to both ends It is long.Fault location data generation module 806 can be according to fault location basic data and accumulative fine long generation fault location data. In one embodiment, the latitude and longitude information of fault location data including each anchor point, mark, and each markstone point to It is accumulative fine long between adjacent relaying computer room.
Such server can generate fault location number according to that can measure, count obtained fault location basic data According to so as to which during fault location personnel can be maintained easily according to the determination of fault location data progress target anchor point The position of the rapid localization of faults.
In one embodiment, the ground distance between adjacent positioned point can be determined according to the latitude and longitude information of anchor point L1;Determine that the rough estimate between adjacent positioned point is fine according to the long L2 of reel of the ground distance and two anchor points between adjacent positioned point Long L3=L1+L2.Grown due to reel and repetition, and ground distance and actual optical cable laying are had in accumulative fine long calculating process Distance can be had any different, it is therefore desirable to which long L3 fine to rough estimate is corrected.In one embodiment, can be according to adjacent relay computer room Between fine length and the latitude and longitude information of adjacent relay computer room determine correction parameter, such as according to the longitude and latitude of adjacent relay computer room Information determines that the ground distance between adjacent relay computer room is L0, and fibre is a length of between determining adjacent relay computer room by empty fine test S0, determine that correction parameter is:
N=(S0-L0)/L0
The fine length of rough estimate is optimized according to correction parameter, determines the actual fine length between adjacent positioned point:
Actual fine long L4=L3+N
According to the actual fine long each markstone point of determination between adjacent positioned point between the relaying computer room adjacent with markstone point It is accumulative fine long.Since the relaying computer room (A computer rooms) of one end, the distance between i-th of markstone point and previous anchor point are L4i, then the accumulative fibre from i-th of markstone point to A computer rooms is a length ofRelaying of i-th of markstone point to the other end The accumulative a length of SB of fibre of computer room (B computer rooms)i=S0-SAi
Such server can according to can field survey arrive relaying Host equipment room, markstone point position, relaying computer room Between to add up the fibre that the reel of fine length and markstone point is grown to obtain between adjacent positioned point long, and then obtain each markstone point to both ends The accumulative fine long of computer room is relayed, is easy to locating point data management, and is easy to the rapid matching inquiry in query process, obtains failure The position of the neighbouring anchor point of point, improve the efficiency of fault location.
The schematic diagram of one embodiment of the Cable's Fault positioning terminal of the present invention is as shown in Figure 9.Wherein, inquiry request is sent out Module 901 is sent to send fault inquiry request to server, fault inquiry request includes relaying computer room mark, and trouble point Fault distance between relaying computer room is fine long.Server can according to relaying computer room mark and fault distance it is fine long carry out matching and Compare, it is determined that the relaying computer room adjacent with trouble point, markstone point.Position information acquisition module 902 can obtain target anchor point Positional information.
Such terminal can send fault inquiry request to server, and be obtained and the neighbouring machine in trouble point from server The positional information in room or markstone point, in order to which optical cable maintenance personnel go to scene to be detected and tieed up according to the positional information of acquisition Repair, improve the efficiency of fault location, shorten the repair time, improve Consumer's Experience.
In one embodiment, the positional information of target anchor point can include the latitude and longitude information of target anchor point, light Cable fault location terminal can also include map display module, can be shown according to the latitude and longitude information of target anchor point on map Show target anchor point.
Using such terminal, optical cable maintenance personnel can obtain the position of target anchor point on map, and abstract Position text information reduces the requirement that optical cable maintenance personnel hold to each markstone point position, is easy to light compared to more intuitively Cable attendant goes to rapidly the place.
In one embodiment, Cable's Fault positioning terminal can also include navigation module, can be according to current position The navigation information from current location to target anchor point is shown on map with the latitude and longitude information of target anchor point.
Using such terminal, optical cable maintenance personnel can go directly to target anchor point according to navigation information, further The requirement for optical cable maintenance personnel is reduced, shortens the time that optical cable maintenance personnel reach target anchor point, improves trouble point The efficiency of positioning.
The schematic diagram of another embodiment of the Cable's Fault positioning terminal of the present invention is as shown in Figure 10.Wherein, inquiry please Ask sending module 1001 and the 26S Proteasome Structure and Function of position information acquisition module 1002 similar to Fig. 9 embodiment.Cable's Fault Positioning terminal also includes map display module 1003 and navigation module 1004.Map display module 1003 can position according to target The latitude and longitude information of point display target anchor point on map.Navigation module 1004 can position according to current position and target The latitude and longitude information of point shows the navigation information from current location to target anchor point on map.
Such terminal can provide relaying computer room mark and fault distance by sending fault inquiry request to server Fibre is long, the latitude and longitude information of target anchor point can be obtained from server, and obtain determining from current location to target on map The navigation information in site, process is convenient and friendly, has very well for markstone point position, distance and road conditions without optical cable maintenance personnel Grasp, improve the efficiency of localization of fault, shorten the time of malfunction elimination, improve Consumer's Experience.
In one embodiment, the page of Cable's Fault positioning terminal is as shown in Figure 11 a~Figure 11 d.Wherein, Figure 11 a are The schematic diagram of the one embodiment at terminal inquiry interface in the Cable's Fault positioning terminal of the present invention.Attendant can such as scheme Select class of track on interface shown in 11a, one-level is national lightguide cable link, and two level is inter-provincial lightguide cable link, reselection light The circuit of cable is " capital Kowloon-Kwangtung " line, and paragraph is " Nanchang-Fengcheng " section, is measured in A end points, the fibre of trouble point distance A end points A length of 2 km.Latitude and longitude information can be the latitude and longitude information of present terminal position.Server can return to first object positioning The relevant information of point, the second target anchor point, as shown in positional information feedback interface in Cable's Fault positioning terminal in Figure 11 b. Attendant can choose the navigation keys of lower section to enter the map denotation interface shown in Figure 11 c.Attendant can choose and " open Begin navigation " button, navigation interface as illustrated in fig. 11d can be shown in terminal, so as to reach target anchor point according to navigation information Position.
By such method, simple, the friendly page can be used to carry out the positioning of trouble point for optical cable maintenance personnel, The position of target anchor point is obtained, and the position is smoothly reached according to the navigation information of feedback, improves the efficiency of fault location, Shorten the time of malfunction elimination.
The schematic diagram of one embodiment of the Cable's Fault inquiry system of the present invention.Wherein, Cable's Fault location-server 1201 can obtain the fault inquiry request come self terminal by any one method being mentioned above, and determine that target positions Point, and to the positional information of terminal feedback target anchor point.Cable's Fault positioning terminal 1202 can be by being mentioned above Any one method sends fault inquiry request to server, and obtains the positional information of target anchor point.
In such system, fault inquiry request can be sent by terminal to server, server please according to fault inquiry Ask and inquired about in fault location data, it is determined that the computer room neighbouring with trouble point or markstone point, and by computer room or markstone point Position feeds back to terminal, in order to which optical cable maintenance personnel go to scene to be detected and repaired according to the positional information of acquisition, carries The high efficiency of fault location, shortens the repair time, improves Consumer's Experience.
In one embodiment, terminal can display target positions on map according to the positional information of target anchor point Point, optical cable maintenance personnel can obtain the position of target anchor point on map, compared with abstract position text information more Intuitively, the requirement held to optical cable maintenance personnel to each markstone point position is reduced, is easy to optical cable maintenance personnel to go to rapidly The place.
In another embodiment, the navigation information from current location to target anchor point, optical cable maintenance can also be shown Personnel can go directly to target anchor point using navigation information, reduce further the requirement for optical cable maintenance personnel, contracting Short optical cable maintenance personnel reach the time of target anchor point, improve the efficiency of localization of fault.
In one embodiment, can be by the data integration of server in the terminal, terminal only needs installation storage failure Location data can without network, it is connectionless in the state of carry out target anchor point position determine, so as to reduce to use The requirement of environment, is advantageous to popularization and application.
Finally it should be noted that:The above embodiments are merely illustrative of the technical scheme of the present invention and are not intended to be limiting thereof;To the greatest extent The present invention is described in detail with reference to preferred embodiments for pipe, those of ordinary skills in the art should understand that:Still The embodiment of the present invention can be modified or equivalent substitution is carried out to some technical characteristics;Without departing from this hair The spirit of bright technical scheme, it all should cover among the claimed technical scheme scope of the present invention.

Claims (19)

  1. A kind of 1. Cable's Fault localization method, it is characterised in that including:
    Obtain the fault inquiry request for carrying out self terminal, fault inquiry request includes relaying computer room mark, and, trouble point and The fault distance relayed between computer room is fine long;
    The fault distance fibre length and anchor point in fault location data and the repeater during the fault inquiry is asked Accumulative fine length between room is compared, and determines target anchor point, wherein, the target anchor point is neighbouring with the trouble point Anchor point, the anchor point includes the relaying computer room and/or markstone point;
    Feed back the positional information of the target anchor point.
  2. 2. according to the method for claim 1, it is characterised in that
    The positional information of the feedback target anchor point includes:The latitude and longitude information of the target anchor point is fed back, so as to The target anchor point is shown on the map of the terminal.
  3. 3. according to the method for claim 1, it is characterised in that
    The target anchor point includes first object anchor point and the second target anchor point;
    It is described by anchor point and the relaying in fault distance fibre length and fault location data described in fault inquiry request Accumulative fine length between computer room is compared, and determines that target anchor point includes:
    In the accumulative fine long fine long anchor point less than the fault distance, the institute of the accumulative fine long maximum is determined It is the first object anchor point to state anchor point;
    In the accumulative fine long fine long anchor point more than the fault distance, the institute of the accumulative fine long minimum is determined It is the second target anchor point to state anchor point.
  4. 4. according to the method for claim 1, it is characterised in that also include the line of failure optical cable in the fault inquiry request Road grade and/or the position paragraph of trouble point;
    The fault location data also include the class of track information and/or position paragraph information of the anchor point;
    It is described to be based on fault location data, determined and the neighbouring anchor point conduct in the trouble point according to fault inquiry request Target anchor point includes:
    The class of track that the anchor point is matched according to the position paragraph of the class of track of the failure optical cable and/or trouble point is believed Breath and/or position paragraph information, screen the anchor point;
    The target anchor point is determined in the anchor point filtered out.
  5. 5. according to any methods described of Claims 1 to 4, it is characterised in that also include:
    Fault location basic data is obtained, the fault location basic data includes:The latitude and longitude information of each anchor point, Fibre between mark, reel length and the adjacent relaying computer room is long;
    According to the fault location basic data determine the markstone point to the relaying computer room adjacent with the markstone point it Between it is described accumulative fine long;
    According to the fault location basic data and the accumulative fine long generation fault location data.
  6. 6. according to the method for claim 5, it is characterised in that described according to determining the fault location basic data Markstone point includes to the accumulative fine length between the adjacent relaying computer room:
    Correction ginseng is determined according to the latitude and longitude information of the long and adjacent relaying computer room of the fibre between the adjacent relaying computer room Number;
    Ground distance between the adjacent anchor point is determined according to the latitude and longitude information of the anchor point;
    The adjacent positioning is determined according to the reel of the ground distance between the adjacent anchor point and each anchor point length Rough estimate between point is fine long;
    The fine length of the rough estimate is optimized according to the correction parameter, determines the actual fine length between the adjacent anchor point;
    Fine long determine each markstone point to described in adjacent with the markstone point according to actual between the adjacent anchor point Relay the accumulative fine length between computer room.
  7. A kind of 7. Cable's Fault localization method, it is characterised in that including:
    Fault inquiry request is sent to server, the fault inquiry request includes relaying computer room mark, and trouble point is with Fine long after the fault distance between computer room, the fault distance during the fault inquiry is asked so as to the server is fine long Compared with accumulative fine length between anchor point in fault location data and the relaying computer room, target anchor point is determined, its In, the target anchor point is the anchor point neighbouring with the trouble point, and the anchor point includes the relaying computer room and/or mark Shi Dian;
    Obtain the positional information of target anchor point.
  8. 8. according to the method for claim 7, it is characterised in that the positional information of the target anchor point includes the target The latitude and longitude information of anchor point;
    Also include:The target anchor point is shown on map according to the latitude and longitude information of the target anchor point.
  9. 9. according to the method for claim 8, it is characterised in that also include:
    Shown on the map from current location to the target anchor point according to the latitude and longitude information of the target anchor point Navigation information.
  10. A kind of 10. Cable's Fault location-server, it is characterised in that including:
    Inquiry request acquisition module, the fault inquiry request of self terminal is carried out for obtaining, during the fault inquiry request includes Identified after computer room, and, the fault distance between trouble point and the relaying computer room is fine long;
    Target anchor point determining module, for the fault distance fibre length and fault location number during the fault inquiry is asked Compared with according to the accumulative fine length between middle anchor point and the relaying computer room, target anchor point is determined, wherein, the target is determined Site is the anchor point neighbouring with the trouble point, and the anchor point includes the relaying computer room and/or markstone point;
    Feedback module, for feeding back the positional information of the target anchor point.
  11. 11. server according to claim 10, it is characterised in that
    The feedback module is used for the latitude and longitude information for feeding back the target anchor point, to show the mesh on terminal map Demarcate site.
  12. 12. server according to claim 10, it is characterised in that
    The target anchor point includes first object anchor point and the second target anchor point;
    The target anchor point determining module is used for described accumulative fine long less than the fine long anchor point of the fault distance In, determine that the accumulative fine long maximum anchor point is the first object anchor point;It is more than institute in the accumulative fine length State in the fine long anchor point of fault distance, determine that the accumulative fine long minimum anchor point is determined for second target Site.
  13. 13. server according to claim 10, it is characterised in that also include failure optical cable in the fault inquiry request Class of track and/or trouble point position paragraph;
    The fault location data also include the class of track information and/or position paragraph information of the anchor point;
    The target anchor point determining module includes:
    Anchor point screening unit, for the class of track according to the failure optical cable and/or the position paragraph matching institute of trouble point The class of track information and/or position paragraph information of anchor point are stated, screens the anchor point;
    Target point determining unit, for determining the target anchor point in the anchor point filtered out.
  14. 14. according to any server of claim 10~13, it is characterised in that also include:
    Basic data acquisition module, for obtaining fault location basic data, the fault location basic data includes:Each institute State latitude and longitude information, mark, the reel length of anchor point and the adjacent fibre length relayed between computer room;
    Accumulative fine long acquisition module, for according to the fault location basic data determine the markstone point to the markstone point It is described accumulative fine long between the adjacent relaying computer room;
    Fault location data generation module, for according to the fault location basic data and the accumulative fine long generation event Hinder location data.
  15. 15. server according to claim 14, it is characterised in that the accumulative long acquisition module of fibre is used for:
    Correction ginseng is determined according to the latitude and longitude information of the long and adjacent relaying computer room of the fibre between the adjacent relaying computer room Number;
    Ground distance between the adjacent anchor point is determined according to the latitude and longitude information of the anchor point;
    The adjacent positioning is determined according to the reel of the ground distance between the adjacent anchor point and each anchor point length Rough estimate between point is fine long;
    The fine length of the rough estimate is optimized according to the correction parameter, determines the actual fine length between the adjacent anchor point;
    Fine long determine each markstone point to described in adjacent with the markstone point according to actual between the adjacent anchor point Relay the accumulative fine length between computer room.
  16. A kind of 16. Cable's Fault positioning terminal, it is characterised in that including:
    Inquiry request sending module, for sending fault inquiry request to server, the fault inquiry request includes relaying Computer room identifies, and, the fault distance between trouble point and relaying computer room is fine long, so that the server please by the fault inquiry Accumulative fine long progress in the fault distance fibre length and fault location data asked between anchor point and the relaying computer room Compare, determine target anchor point, wherein, the target anchor point is the anchor point neighbouring with the trouble point, the anchor point Including the relaying computer room and/or markstone point;
    Position information acquisition module, for obtaining the positional information of the target anchor point from the server, wherein the mesh Demarcation site includes the relaying computer room neighbouring with the trouble point and/or markstone point.
  17. 17. terminal according to claim 16, it is characterised in that
    The positional information of the target anchor point includes the latitude and longitude information of the target anchor point;
    Also include:Map display module, for showing the mesh on map according to the latitude and longitude information of the target anchor point Demarcate site.
  18. 18. terminal according to claim 17, it is characterised in that also include:
    Navigation module, for being shown on the map from current location to institute according to the latitude and longitude information of the target anchor point State the navigation information of target anchor point.
  19. A kind of 19. Cable's Fault alignment system, it is characterised in that including:Any Cable's Fault of claim 10~15 is determined Position server;With,
    Cable's Fault positioning terminal described in claim 16~18 any one.
CN201610847776.6A 2016-09-23 2016-09-23 Optical cable fault positioning method, server, terminal and system Active CN107872275B (en)

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CN109004975A (en) * 2018-10-25 2018-12-14 广东电网有限责任公司 A kind of Cable's Fault independent positioning method and device
CN110417461A (en) * 2019-07-31 2019-11-05 国网河北省电力有限公司邢台供电分公司 Optical cable localization method, device and the terminal device of multiple faults point
CN110445536A (en) * 2019-08-07 2019-11-12 高勘(广州)技术有限公司 A kind of fault points of optical cables position finding and detection method, device and intelligent terminal
CN114362819A (en) * 2021-12-30 2022-04-15 中国电信股份有限公司 Optical cable fault point positioning method, device, equipment and medium
CN115201876A (en) * 2022-06-09 2022-10-18 上海波汇科技有限公司 Line creation system and method of optical fiber early warning system

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