CN109245923B - Communication optical cable routing resource management method and system - Google Patents
Communication optical cable routing resource management method and system Download PDFInfo
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Abstract
The invention relates to a communication optical cable routing resource management method and a communication optical cable routing resource management system, and belongs to the technical field of communication. The method comprises the following steps: s1: by utilizing the positioning function of internet map software, arranging personnel to collect marking points of each optical cable in the district scope of the electric power company on site, shortening the marking distance if meeting a corner or a channel type change, and ensuring the accuracy of optical cable path information; s2: the field personnel send the collected mark points back to the master station, and the master station personnel connect the mark points into a line according to the sequence, namely the actual path of the optical cable; s3: the optical cables are managed in a grading and layering mode, and are divided into distribution network optical cables and backbone optical cables according to the category of the optical cables, so that the optical cables are beneficial to searching; s4: the distribution data management module is developed, the cable can be clicked to inquire and modify the optical cable distribution data, and operation and maintenance personnel can conveniently inquire the service carried by the optical cable. The invention realizes unified management and layered and graded display, and is convenient for operators to inquire the optical cable path and plan the optical cable construction.
Description
Technical Field
The invention belongs to the technical field of communication, and relates to a communication optical cable routing resource management method and a communication optical cable routing resource management system.
Background
The traditional optical cable routing data are mostly drawn by CAD software or manually, and along with the wider and wider application range of the optical cable and the longer and longer distance of the optical cable, the traditional optical cable routing management method has the following problems:
1. the workload of the traditional drawing drawn by hand or drawn by AutoCAD is more and more, and especially, a large amount of background geographic information needs to be drawn on a long-distance and trans-regional optical cable, so that the drawing period is longer (generally two or three months), and the safety management is greatly delayed from the field;
2. the sites marked by the traditional drawings can only reflect approximate directions generally, the actual geographic positions of the communication sites cannot be reflected, and design basis cannot be provided for how to economically and effectively communicate between the newly-built lines and the original lines;
3. the sharing performance of the traditional drawing is poor. The drawing data is generally stored in groups, and because the drawing needs to be updated continuously according to the changed field, managers cannot update the drawing data synchronously with the groups even if copying the drawing data to own machines artificially;
4. the traditional drawing shows no more optical cable information, does not have an intelligent search function, and needs to look up a lot of related data when inquiring certain optical cable information, which is not only cumbersome but also has large workload.
In addition, based on many problems of the CAD optical cable path data, some operators in China try to adopt software such as ArcGIS geographic software and Google earth to draw optical cable routing data, and combine the optical cable routing with the real geographic environment to improve the practicability of the optical cable routing data, but the above method has the following problems:
1. the ArcGIS geographic software is professional geographic information drawing software, map background software is required to be purchased for realizing optical cable routing management on the ArcGIS software, real-time updating of geographic background cannot be met, an operation interface of the ArcGIS software is unfriendly, and operation is inconvenient.
2. The Google Earth software pieces together the photos shot by the satellites into a geographical background, the resolution is not high, the optical cable path drawn on the Google Earth is not easy to recognize, and the problem that the background photos are not updated timely is also solved.
Disclosure of Invention
In view of the above, the present invention provides a method and a system for managing routing resources of a communication cable.
In order to achieve the purpose, the invention provides the following technical scheme:
the communication optical cable routing resource management method comprises the following steps:
s1: by utilizing the positioning function of internet map software, arranging personnel to collect marking points of each optical cable in the district scope of the electric power company on site, shortening the marking distance if meeting a corner or a channel type change, and ensuring the accuracy of optical cable path information;
s2: the field personnel send the collected mark points back to the master station, and the master station personnel connect the mark points into a line according to the sequence, namely the actual path of the optical cable;
s3: the optical cables are managed in a grading and layering mode, and are divided into distribution network optical cables and backbone optical cables according to the category of the optical cables, so that the optical cables are beneficial to searching;
s4: the distribution data management module is developed, the cable can be clicked to inquire and modify the optical cable distribution data, and operation and maintenance personnel can conveniently inquire the service carried by the optical cable.
Further, the distance between the marking points is 200 meters.
Further, in the step 2, different channel types are defined when the path is drawn, including a Power channel, a Power tunnel, an overhead mode, an Optical ground cable (OPGW), and a telecommunication channel, and the channel types are distinguished by colors to visually reflect the path information of the Optical cable.
The communication optical cable routing resource management system comprises a basic machine account management module, a routing management module, a distribution data management module and a fiber core quality management module;
the basic standing book management module comprises an optical cable length module, an optical cable type module and a fiber core number module; the module adopts a layered grading method to display optical cables of various grades, realizes the whole-network unified management of communication optical cable resources, completes the management function of optical cable basic data, and enables operation and maintenance personnel to check optical cable basic information through the module;
the route management module comprises a mark positioning module, a mark management module, a route drawing module, a route modification module and a route storage module; the module completes the optical cable route management function, and the optical cable operation and maintenance personnel can visually check the optical cable route trend through the module; the method comprises the steps that a cross-platform electronic map based on an Application Programming Interface (API) updates a traffic map, a remote sensing map and a topographic map required by optical cable background geographic information at the present stage in real time, and integrates a position and track sharing function, a geographic planning function and a design function required by an optical cable geographic information management form; in addition, a user completes position acquisition of an inflection point, a tower position and a site of an on-site optical cable and recording of an optical cable path and a length by using a mobile terminal of a network geographic information system (WebGIS), and data acquired by the mobile terminal on site are quickly synchronized to a computer to form an optical cable topological graph with real-time geographic information as a background; the optical cable positioning system can be used on various hardware terminals, and meets the requirements of on-site operation and maintenance personnel on optical cable information query and optical cable quick positioning by sharing optical cable paths and attribute information;
the wiring data management module comprises a wiring query module, a wiring modification module and a wiring storage module; and (3) wiring management: the module completes the statistics of the use condition of the fiber core of the optical cable; converting an existing optical cable attribute data Excel form into an HTML code which is compatibly displayed in a WebGIS template by using an AirThink form-template conversion platform, and using the layout of grids and form elements in appearance; when optical cable attributes need to be compiled and checked, selecting an optical cable path to be edited in an optical cable topological graph on a computer, carrying out track setting, importing an existing optical cable data attribute template into a setting window, calling the imported custom template through a built-in plug-in to be presented to a user, and directly finishing the editing of key information of optical cable names, core numbers, lengths, types and fiber core use conditions in a WebGIS by the user according to the field requirements to form a graphical-based optical cable routing management method;
the fiber core quality management module comprises on-off conditions, attenuation conditions and fiber sequence conditions.
The invention has the beneficial effects that:
1. the optical cable routing management based on the imaging is realized, the accuracy and the timeliness of background geographic information are ensured, the routing information is drawn, stored and modified, the optical cable routing is updated in real time, and the consistency of data and field reality is ensured.
2. The method has the advantages that functions of optical cable path inquiry, optical cable quick positioning, optical cable length information inquiry, fiber core use condition statistics and the like are achieved, from the practical perspective, the method is close to the optical cable operation and maintenance reality, an SA (structured analysis) method is adopted to design functions of modules, the method adopts a top-down layer-by-layer decomposition method, the abstract principle is fully embodied in the decomposition, until a system is decomposed into the modules capable of clearly expressing a certain function, and user experience is improved.
3. Unified management, hierarchical show, the optical cable route of being convenient for operation personnel inquiry, plan the optical cable construction.
4. The path is drawn by collecting the optical cable mark points on site, and the path recording mode is more accurate compared with the conventional path recording mode.
5. The Internet map software is used as the geographic background, and the reference object is accurate and clear. And the map background can be updated regularly, thus fundamentally solving the problems that the geographical background in the CAD recording mode can not be updated and is not in accordance with the actual situation in the prior art.
6. The optical cable path data and the wiring data are managed uniformly for the first time, operation and maintenance personnel can conveniently inquire the service carried by the optical cable, and the operation and maintenance efficiency is improved.
Drawings
In order to make the object, technical scheme and beneficial effect of the invention more clear, the invention provides the following drawings for explanation:
FIG. 1 is a flow chart of the present invention;
fig. 2 is a system architecture diagram of the present invention.
Detailed Description
Preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings.
As shown in fig. 1, the method and system for managing routing resources of optical communication cables comprises the following steps:
s1: by utilizing the positioning function of internet map software, arranging personnel to collect marking points of each optical cable in the district scope of the electric power company on site, shortening the marking distance if meeting a corner or a channel type change, and ensuring the accuracy of optical cable path information;
s2: the field personnel send the collected mark points back to the master station, and the master station personnel connect the mark points into a line according to the sequence, namely the actual path of the optical cable;
s3: the optical cables are managed in a grading and layering mode, and are divided into distribution network optical cables and backbone optical cables according to the category of the optical cables, so that the optical cables are beneficial to searching;
s4: the distribution data management module is developed, the cable can be clicked to inquire and modify the optical cable distribution data, and operation and maintenance personnel can conveniently inquire the service carried by the optical cable.
The spacing of the marking points is 200 meters.
In step 2, different channel types are defined during the path drawing, including a Power channel, a Power tunnel, an overhead mode, an Optical Power group guided Waveguide (OPGW), and a telecommunication channel, and the channel types are distinguished by colors to visually reflect the path information of the Optical cable.
The SA method (structured analysis method) is the most popular system analysis method in the current software engineering, which is based on a Data flow analysis technology (Data flow analysis DFA) and adopts a top-down layer-by-layer decomposition method, and the principle of abstraction is fully embodied in the decomposition until a system is decomposed into a module capable of clearly expressing a certain function.
As shown in fig. 2, according to the practical application requirement, the optical cable routing resource management system of the present invention is divided into three functional modules, which are a basic ledger management module, a routing management module, and a distribution data management module. The system has simple, clear and practical functions and can fully meet the operation and maintenance requirements of the optical cable.
The basic standing book management module comprises an optical cable length module, an optical cable type module and a fiber core number module; the module adopts a layered grading method to display optical cables of various grades, realizes the whole-network unified management of communication optical cable resources, completes the management function of optical cable basic data, and enables operation and maintenance personnel to check optical cable basic information through the module;
the route management module comprises a mark positioning module, a mark management module, a route drawing module, a route modification module and a route storage module; the module completes the optical cable route management function, and the optical cable operation and maintenance personnel can visually check the optical cable route trend through the module; the method comprises the steps that a cross-platform electronic map based on an Application Programming Interface (API) updates a traffic map, a remote sensing map and a topographic map required by optical cable background geographic information at the present stage in real time, and integrates a position and track sharing function, a geographic planning function and a design function required by an optical cable geographic information management form; in addition, a user completes position acquisition of an inflection point, a tower position and a site of an on-site optical cable and recording of an optical cable path and a length by using a mobile terminal of a network geographic information system (WebGIS), and data acquired by the mobile terminal on site are quickly synchronized to a computer to form an optical cable topological graph with real-time geographic information as a background; the optical cable positioning system can be used on various hardware terminals, and meets the requirements of on-site operation and maintenance personnel on optical cable information query and optical cable quick positioning by sharing optical cable paths and attribute information;
the wiring data management module comprises a wiring query module, a wiring modification module and a wiring storage module; and (3) wiring management: the module completes the statistics of the use condition of the fiber core of the optical cable; converting an existing optical cable attribute data Excel form into an HTML code which is compatibly displayed in a WebGIS template by using an AirThink form-template conversion platform, and using the layout of grids and form elements in appearance; when the optical cable attribute needs to be compiled and checked, selecting an optical cable path to be edited in an optical cable topological graph on a computer, carrying out track setting, importing an existing optical cable data attribute template into a setting window, calling the imported custom template through a built-in plug-in to be presented to a user, and directly finishing the editing of key information of optical cable names, core numbers, lengths, types and fiber core use conditions in a WebGIS by the user according to the field requirement to form the graphical-based optical cable routing management method.
The functional modules form the optical cable routing resource management system, effective management of optical cable account data, routing data and wiring data can be used, operation and maintenance personnel can complete optical cable data query and modification work through the system, and optical cable data management efficiency is improved.
AirThink form-template transformation platform design
The platform introduces template type remarks to meet the requirements of various optical cable specification data of users. The template is essentially a piece of HTML code, and a user adds links, input boxes and the like in the HTML language and finally presents in the map in the form of grids and forms.
Design mode
The optical cable wiring data is originally compiled through an Excel table, and 8 fields of optical cable names, core numbers, lengths, types, disc numbers, fiber core serial numbers, service names and fiber core conditions are shared.
The model-view-controller mode (MVC mode) is adopted, the design is divided into an expression layer, a data access layer and a logic control layer to realize the design, and the model-view-controller mode is composed of three parts, namely a model, a view and a controller. The model is responsible for adding, deleting, changing and checking operations of the database and realizes the function of converting Excel into HTML codes; the view is used for designing a platform interface and simultaneously accepts operations of selecting files, uploading files and the like by a user; the controller is used to coordinate the models and views to fulfill the needs of the user. When the airthinkk page is clicked to upload a file, the controller commands the model component to process the request of the form conversion template, returns the processing result to the view, and displays the converted template code through the view.
The system is characterized in that:
(1) ease of drawing operation: operation and maintenance personnel only need a computer for processing data and a smart phone for collecting optical cable position information, and can finish drawing an optical cable route map with background geographic information in a WebGIS, so that the drawing workload is reduced, and the drawing period is shortened.
(2) Timeliness of geographic information: the optical cable topological graph finished on the WebGIS reflects the actual geographic position of a communication station, so that the updating of the basic map is consistent with the actual data of the infrastructure, the accuracy and timeliness of background geographic information are guaranteed, the optical cable is quickly and accurately positioned, and the optical cable rush-repair efficiency is effectively improved.
(3) Sharing of routing resources: the operation and maintenance personnel can continuously update the routing drawing according to the field condition, realize synchronous update of the routing resources of other members of the team through data sharing, and ensure that each transmission and distribution work area masters accurate optical cable basic data in a mode of real-time update and periodic release of the optical cable basic data.
(4) Intelligence of information maintenance: the method comprises the steps of standing book resource hierarchical management, optical cable information intelligent search, distribution data diversified input and display of the corresponding distribution data of the optical cable path in a superposed window mode, so that operation and maintenance personnel can directly complete query and compilation of the optical cable distribution data in the window.
(5) Safety of system design: the system can operate the space according to the user authority specification; all user operations are written into the operation log in real time, so that data recovery after misoperation of the user is facilitated; the GPS data of the tower can be combined for off-line operation, and the problem of safety disclosure does not exist.
Finally, it is noted that the above-mentioned preferred embodiments illustrate rather than limit the invention, and that, although the invention has been described in detail with reference to the above-mentioned preferred embodiments, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the scope of the invention as defined by the appended claims.
Claims (3)
1. A communication optical cable routing resource management method is characterized in that: the method comprises the following steps:
s1: by utilizing the positioning function of internet map software, arranging personnel to collect marking points of each optical cable in the district scope of the electric power company on site, shortening the marking distance if meeting a corner or a channel type change, and ensuring the accuracy of optical cable path information;
s2: the field personnel send the collected mark points back to the master station, and the master station personnel connect the mark points into a line according to the sequence, namely the actual path of the optical cable;
s3: the optical cables are managed in a grading and layering mode, and are divided into distribution network optical cables and backbone optical cables according to the category of the optical cables, so that the optical cables are beneficial to searching;
s4: the distribution data management module is developed, and the cable can be clicked to inquire and modify the distribution data of the optical cable, so that operation and maintenance personnel can conveniently inquire the service carried by the optical cable;
the method is applied to a communication optical cable routing resource management system, and the system comprises a basic machine account management module, a routing management module, a distribution data management module and a fiber core quality management module;
the basic standing book management module comprises an optical cable length module, an optical cable type module and a fiber core number module; the basic ledger management module adopts a layered grading method to display optical cables of all grades, realizes the unified management of the communication optical cable resources in the whole network, and completes the management function of optical cable basic data;
the route management module comprises a mark positioning module, a mark management module, a route drawing module, a route modification module and a route storage module; the routing management module completes the optical cable routing management function, and optical cable operation and maintenance personnel can visually check the optical cable routing trend through the routing management module; the method comprises the steps that a cross-platform electronic map based on an Application Programming Interface (API) updates a traffic map, a remote sensing map and a topographic map required by optical cable background geographic information at the present stage in real time, and integrates a position and track sharing function, a geographic planning function and a design function required by optical cable geographic information management; in addition, a user completes position acquisition of on-site optical cable inflection points, tower positions and stations and recording of optical cable paths and lengths by using a mobile terminal of a network geographic information system WebGIS, and data acquired by the mobile terminal on site are quickly synchronized to a computer to form an optical cable topological graph with real-time geographic information as a background; the optical cable positioning system can be used on various hardware terminals, and meets the requirements of on-site operation and maintenance personnel on optical cable information query and optical cable quick positioning by sharing optical cable paths and attribute information;
the wiring data management module comprises a wiring query module, a wiring modification module and a wiring storage module; the distribution data management module completes the statistics of the use condition of the fiber core of the optical cable; converting an existing optical cable attribute data Excel form into an HTML code which is compatibly displayed in a WebGIS template by using a form-template conversion tool, and using the layout of grids and form elements in appearance; when optical cable attributes need to be compiled and checked, selecting an optical cable path to be edited in an optical cable topological graph on a computer, carrying out track setting, importing an existing optical cable data attribute template into a setting window, calling the imported custom template through a built-in plug-in to be presented to a user, and directly finishing the editing of key information of optical cable names, core numbers, lengths, types and fiber core use conditions in a WebGIS by the user according to the field requirements to form a graphical-based optical cable routing management method;
the fiber core quality management module comprises on-off conditions, attenuation conditions and fiber sequence conditions.
2. The optical communication cable routing resource management method of claim 1, wherein: the distance between the marking points is 200 meters.
3. The optical communication cable routing resource management method of claim 1, wherein: in S2, different channel types are defined during path drawing, including a power channel, a power tunnel, an overhead mode, a ground line composite optical cable OPGW, and a telecommunications channel, and the channel types are distinguished by colors to intuitively reflect path information of the optical cable.
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CN111865929B (en) * | 2020-06-29 | 2023-04-18 | 上海方奥通信技术有限公司 | Optical fiber and equipment resource and link management method and system |
CN113095785B (en) * | 2021-04-20 | 2022-05-06 | 国网山东省电力公司安丘市供电公司 | Business expansion business platform |
CN113766367B (en) * | 2021-09-26 | 2024-03-08 | 中通服咨询设计研究院有限公司 | Closed loop monitoring access network construction method supporting multi-service bearing |
CN114358743A (en) * | 2022-01-12 | 2022-04-15 | 国网山东省电力公司德州供电公司 | Communication optical cable autonomous query system and device |
CN116150257B (en) * | 2023-04-18 | 2023-07-11 | 国网湖北省电力有限公司信息通信公司 | Visual analysis method, system and storage medium for electric power communication optical cable resources |
CN116760768A (en) * | 2023-08-21 | 2023-09-15 | 山东东方智光网络通信有限公司 | Method and system for realizing route inquiry bottom layer |
CN117336239A (en) * | 2023-10-18 | 2024-01-02 | 国网江苏省电力有限公司泰州供电分公司 | Optical cable routing user configuration system and configuration method thereof |
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