CN114358743A - Communication optical cable autonomous query system and device - Google Patents
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Abstract
The invention discloses an autonomous query system and an autonomous query device for a communication optical cable. The system comprises a data acquisition module, a system analysis module and a visual management module; the data acquisition module is used for acquiring information records to the template and importing the information records into the system; the system analysis module is used for analyzing the communication optical cable in terms; the visual management module is used for drawing a cable topology map so as to facilitate user query. The system designed by the invention can automatically complete analysis, provide a visual function, can intuitively comb communication services, can inquire various information in terms, can quickly find abnormal conditions in the communication optical cable so as to correct the abnormal conditions in time, is simple to maintain, and can effectively reduce the management difficulty of the communication services; the device is suitable for different computers and most communication optical cable projects, can be suitable for different users, is simple and convenient to operate, has safe and reliable data, and can effectively improve the practicability and universality of the autonomous query system.
Description
Technical Field
The invention relates to the technical field of optical cable operation and maintenance management, in particular to an autonomous query system and an autonomous query device for a communication optical cable.
Background
The communication optical cable is composed of a cable core and an outer protective layer, wherein the cable core is composed of a plurality of optical fibers. The optical fiber has the advantages of large transmission capacity, low attenuation, long transmission distance, small volume, light weight, no electromagnetic interference, low cost and the like, is the most promising communication transmission medium at present, is widely applied to signal transmission of various departments such as telecommunication, electric power, broadcasting and the like, and gradually becomes the main body of a future communication network. In order to ensure the safety and smooth performance of communication, the communication optical cable needs to be frequently subjected to routing inspection maintenance, and the communication optical cable is timely maintained and repaired after the communication optical cable is found to be abnormal. However, various problems are encountered in the routine maintenance of optical communication cables, such as: a plurality of jumper connection services exist in an optical cable line, the condition that the jumper connection services are already returned and the tail fiber is not pulled out to continuously occupy resources can occur, and the operation condition of other optical cables is influenced; meanwhile, the problem of inconsistent service labels of stations at two ends of the communication optical cable also exists, so that the management difficulty is increased; in addition, the opposite end of the optical cable is arranged in another transformer substation, and each transformer substation has optical cables in multiple directions, so that the communication service is difficult to comb. In view of this, we propose an autonomous query system and apparatus for communication optical cable.
Disclosure of Invention
The invention aims to provide a communication optical cable autonomous query system and a communication optical cable autonomous query device, so as to solve the problems in the background technology.
In order to solve the above technical problems, an object of the present invention is to provide an autonomous query system for a communication optical cable, which includes a data acquisition module, a system analysis module, and a visual management module; the signal output end of the data acquisition module is connected with the signal input end of the system analysis module, and the signal output end of the system analysis module is connected with the signal input end of the visual management module; wherein:
the data acquisition module is used for acquiring information on the field optical distribution frame by taking a station as a unit, recording the information to a preset form template and importing the form into the system;
the system analysis module is used for mining and comparing a large amount of optical distribution information and analyzing the running state of the communication optical cable from the aspects of sites, optical cables and business projects;
the visual management module is used for generating an optical cable topological graph through drawing software according to the collected and analyzed data, and connecting the analyzed optical cable data to the topological graph so that a user can directly inquire the service.
As a further improvement of the technical scheme, the data acquisition module comprises an information reading sub-module, an information storage sub-module, a template management sub-module and a form import sub-module; the signal output end is connected with the signal input end of the information storage submodule, the information storage submodule and the template management submodule run in parallel, and the signal output ends of the information storage submodule and the template management submodule are connected with the signal input end of the form import submodule; wherein:
the information reading sub-module is used for acquiring character information on the optical configuration frame through various information acquisition means;
the information storage submodule is used for storing the acquired original information data on the optical distribution frame and/or the result data obtained by subsequent analysis;
the template management submodule is used for editing and setting a standard information recording form template so as to record the acquired optical cable information data according to a uniform standard format;
the table importing submodule is used for importing the table with the recorded optical distribution frame information into the system so as to analyze and process data.
As a further improvement of the technical scheme, the system analysis module comprises a site information analysis submodule, an optical cable information analysis submodule and an abnormality identification submodule; the site information analysis submodule and the optical cable information analysis submodule are connected through digital signals and run in parallel, and the signal output ends of the site information analysis submodule and the optical cable information analysis submodule are connected with the signal input end of the abnormality identification submodule; wherein:
the station information analysis submodule is used for respectively integrating and analyzing information from the detailed information of the station, the in-station optical distribution frame, the in-station multi-directional optical cable and the like by taking the station as a unit;
the optical cable information analysis submodule is used for respectively integrating and analyzing information from the angles of service logic of an optical core, the connection condition of two ends of an optical cable, site information of two ends of the optical cable, service labels of two ends of the optical cable and the like by taking the optical cable as a unit;
and the abnormality identification submodule is used for comparing all information data by combining the analysis results of the site information analysis submodule and the optical cable information analysis submodule, and automatically identifying the abnormal problem existing in the operation process of the communication optical cable.
As a further improvement of the present technical solution, the abnormal problem that can be automatically identified in the abnormal identification sub-module includes but is not limited to: one end of the optical cable has a link and the other end has no link, labels in the optical core service link are not uniform/ambiguous, optical cores at two ends of the optical cable are staggered, information inquiry with jumper connection exists and the like.
As a further improvement of the technical scheme, the visual management module comprises a drawing software submodule, a topological graph generating submodule, an information link submodule, an inquiry submodule and an abnormal alarm submodule; the signal output end of the drawing software submodule is connected with the signal input end of the topological graph generating submodule, the signal output end of the topological graph generating submodule is connected with the signal input end of the information linking submodule, and the signal output end of the information linking submodule is connected with the signal input ends of the inquiring submodule and the abnormal alarm submodule; wherein:
the drawing software submodule is used for loading and managing drawing software;
the topological diagram generating submodule is used for calling the drawing software in the drawing software submodule, drawing and generating an optical cable topological diagram according to the collected optical distribution frame information of the substation, and an authorized administrator can modify the optical cable topological diagram by moving the position of the substation or an optical cable icon on the topological diagram;
the information link sub-module is used for connecting the detailed information and the analysis result information of the site/optical cable to the corresponding icon position on the topological graph in a link mode, and a user can directly view corresponding information by clicking the icon of the site/optical cable;
the query submodule is used for providing a functional channel for searching and querying for a user, and the user can query site information, optical cable information, abnormal information and the like in the optical cable topology in terms;
and the abnormity warning sub-module is used for sending out a warning in a visual mode when the abnormity condition exists in the operation process of the communication optical cable.
In order to achieve the above object, a second object of the present invention is to provide an autonomous querying device for a communication optical cable, comprising a data acquisition device, a processor, a display, a memory, a data memory, a text recognition and extraction program module, a big data analysis program module, a mapping software, and an abnormal alarm program module;
the signal output end of the data acquisition device is connected with the signal input end of the processor, and the signal output end of the processor is connected with the signal input end of the display;
the memory is used for storing functional modules and computer programs running on the processor;
the data memory is used for storing the acquired original information data on the optical distribution frame and/or the result data obtained by subsequent analysis;
the data acquisition device is used for acquiring and acquiring information on the optical distribution frame, and the processor is used for calling a character recognition extraction program module, extracting corresponding character information from the data acquired by the data acquisition device and recording the corresponding character information into a standard form template;
the processor is used for calling a big data analysis program module and mining and analyzing the optical configuration information in the standard form template by adopting a big data analysis means;
the processor is used for calling mapping software, and drawing an optical cable topological graph according to the collected station, optical distribution frame and optical cable information so as to visually display the distribution condition of the communication optical cable;
and the processor calls the abnormal alarm program module and sends out an alarm according to a preset program or mode according to the identified optical cable abnormal condition.
The alarm modes include but are not limited to pop windows, flashing screens, icons for marking abnormal parts with different colors, audible alarms and the like.
As a further improvement of the present technical solution, the data acquisition device includes, but is not limited to, an RFID radio frequency identification device, a camera, a scanner, an input device, etc.;
the input device includes but is not limited to a mouse, a keyboard, a card reader, an external memory card, etc.;
furthermore, according to different data acquisition devices, the communication optical cable autonomous query device further comprises a matched image identification program module, a matched UI subtitle program module and the like;
and the processor calls the image identification program module and is used for identifying and extracting the optical configuration frame information collected in the image format.
As a further improvement of the present technical solution, in the big data analysis program module, the means of data analysis includes but is not limited to: visual analysis, data mining algorithms, predictive analysis, semantic engines, data quality and data management, data storage/data warehousing, and the like.
As a further improvement of the present technical solution, the data storage is a local storage and/or a cloud storage.
As a further improvement of the technical scheme, an operation application platform of the device comprises a field application end, a management end and a foreground end; wherein:
the field operator adopts the data acquisition device to acquire information on the field optical distribution frame and leads the data into the system through the field application end; a background manager can access the system through a management end, can call the drawing software through the processor to draw and modify the optical cable topological graph, and can also perform operations such as modification management of a standard template, modification management of an abnormal alarm program and the like through the processor; and the common user accesses the system through the front desk end to check or inquire all public data, but does not have other operation rights.
The invention also provides an operating device of the optical communication cable autonomous query system, which comprises a processor, a memory and a computer program stored in the memory and operated on the processor, wherein the processor is used for realizing any optical communication cable autonomous query system when executing the computer program.
It is a fourth object of the present invention to provide a computer-readable storage medium storing a computer program which, when executed by a processor, implements any of the above-described autonomous querying systems for a communications cable.
Compared with the prior art, the invention has the beneficial effects that:
1. the communication optical cable autonomous query system records and uploads optical configuration information to the system according to a preset template by taking a station as a unit, can automatically complete various analysis functions by taking an optical core of an optical cable as a unit, provides an optical cable service visualization function, makes the distribution condition of the communication optical cable clear by drawing an optical cable topological graph, can intuitively comb communication services, can query station information, optical cable information, abnormal information and the like in the optical cable topology in terms, can quickly find the abnormal condition in the communication optical cable so as to correct the abnormal condition in time, is simple to maintain, and can effectively reduce the management difficulty of the communication services;
2. the communication optical cable autonomous query device is designed to be composed of a data acquisition device, a processor, a memory, a current mature identification technology and a data analysis technology, can be suitable for computer equipment with different scales and most communication optical cable projects, can be suitable for different users through an operation application platform with a field application end, a management end and a front desk end, is simple and convenient in structural operation, safe and reliable in data, and can effectively improve the practicability and universality of the autonomous query system.
Drawings
FIG. 1 is an architecture diagram of an autonomous query system for optical communication cables according to the present invention;
FIG. 2 is a block diagram of the autonomous query apparatus for optical communication cable according to the present invention;
FIG. 3 is a block diagram of an exemplary electronic computer product device for operation of the system of the present invention.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Example 1
As shown in fig. 1, the present embodiment provides an autonomous query system for a communication optical cable, which includes a data acquisition module, a system analysis module, and a visual management module; the signal output end of the data acquisition module is connected with the signal input end of the system analysis module, and the signal output end of the system analysis module is connected with the signal input end of the visual management module; wherein:
firstly, acquiring information on a field optical distribution frame by taking a station as a unit through a data acquisition module, recording the information to a preset form template, and importing a form into a system;
secondly, a system analysis module is adopted to carry out mining comparison on a large amount of optical distribution information, and the operation state of the communication optical cable is analyzed from the aspects of sites, optical cables and business projects;
then, generating an optical cable topological graph through drawing software according to the collected and analyzed data through a visual management module, and connecting the analyzed optical cable data to the topological graph;
finally, the system can send out an alarm aiming at the identified abnormal part, and the user can directly check the information and inquire the service through the optical cable topological graph.
In this embodiment, the data acquisition module includes an information reading sub-module, an information storage sub-module, a template management sub-module and a form importing sub-module; the signal output end of the information storage submodule is connected with the signal input end of the information storage submodule, the information storage submodule and the template management submodule run in parallel, and the signal output ends of the information storage submodule and the template management submodule are connected with the signal input end of the form import submodule; wherein:
the information reading sub-module is used for acquiring character information on the optical configuration frame through various information acquisition means;
the information storage submodule is used for storing the acquired original information data on the optical distribution frame and/or the result data obtained by subsequent analysis;
the template management submodule is used for editing and setting a standard information recording form template so as to record the acquired optical cable information data according to a uniform standard format;
and the form import submodule is used for importing the form with the recorded optical distribution frame information into the system so as to analyze and process data.
In this embodiment, the system analysis module includes a site information analysis submodule, an optical cable information analysis submodule, and an abnormality recognition submodule; the site information analysis submodule and the optical cable information analysis submodule are connected through digital signals and run in parallel, and signal output ends of the site information analysis submodule and the optical cable information analysis submodule are connected with a signal input end of the abnormality identification submodule; wherein:
the station information analysis submodule is used for respectively integrating and analyzing information from the detailed information of the station, the in-station optical distribution frame, the in-station multi-direction optical cable and the like by taking the station as a unit;
the optical cable information analysis submodule is used for respectively integrating and analyzing information from the angles of service logic of the optical core, the connection condition of two ends of the optical cable, site information of two ends of the optical cable, service labels of two ends of the optical cable and the like by taking the optical cable as a unit;
and the abnormality identification submodule is used for comparing all information data by combining the analysis results of the site information analysis submodule and the optical cable information analysis submodule and automatically identifying the abnormal problems existing in the operation process of the communication optical cable.
Specifically, the abnormal problems that can be automatically identified in the abnormal recognition sub-module include, but are not limited to: one end of the optical cable has a link and the other end has no link, labels in the optical core service link are not uniform/ambiguous, optical cores at two ends of the optical cable are staggered, information inquiry with jumper connection exists and the like.
In the embodiment, the visual management module comprises a drawing software submodule, a topological graph generating submodule, an information link submodule, an inquiry submodule and an abnormal alarm submodule; the signal output end of the drawing software submodule is connected with the signal input end of the topological graph generating submodule, the signal output end of the topological graph generating submodule is connected with the signal input end of the information linking submodule, and the signal output end of the information linking submodule is connected with the signal input ends of the query submodule and the abnormity warning submodule; wherein:
the drawing software submodule is used for loading and managing drawing software;
the topological diagram generating submodule is used for calling the drawing software in the drawing software submodule, drawing and generating an optical cable topological diagram according to the collected optical distribution frame information of the variable station, and an authorized administrator can modify the optical cable topological diagram by moving the station or the optical cable icon position on the topological diagram;
the information link submodule is used for connecting the detailed information and the analysis result information of the site/optical cable to the corresponding icon position on the topological graph in a link mode, and a user can directly view corresponding information by clicking the icon of the site/optical cable;
the query submodule is used for providing a functional channel for searching and querying for a user, and the user can query site information, optical cable information, abnormal information and the like in the optical cable topology in terms;
and the abnormity warning sub-module is used for sending out a warning in a visual mode when the abnormity condition exists in the operation process of the communication optical cable.
The optical cable topological graph is drawn by drawing all optical cable information, so that the distribution conditions of stations, optical distribution frames and optical cables are clear, and a large amount of optical cable services can be combed better.
In addition, the present embodiment further provides an exemplary method flow of the optical communication cable autonomous query system, as shown in fig. 1, including:
s1, the field operator collects the image data or the character information of the site station, the optical cable and the optical distribution frame information label through the data collecting device, and transmits various information to the data processing layer of the processor;
s2, the system automatically identifies various information data and extracts the character information, the character information is sequentially filled according to a standard form template, the information is recorded by using a template form and taking a site as a unit, and the form is led into the system;
s3, a big data analysis technology is called by the system, and the operation state of the communication optical cable is analyzed from the site and the optical cable respectively, wherein the operation state includes detailed information of the site, the condition of optical distribution in the site, the condition of the optical cable in the site, the sites at two ends of the optical cable, the connection condition of optical cores at two ends of the optical cable and the like;
s4, comparing the corresponding conditions of the station and the optical cable by the system according to the original data and the result data of the station information analysis and the optical cable information analysis, identifying and judging the possible abnormal condition in the operation process of the communication optical cable, and automatically starting an abnormal alarm program to give an alarm against the abnormal condition;
s5, the system combines all data, calls drawing software, draws optical cable topological diagram, and modifies the optical cable topological diagram through icons of mobile station/optical cable/optical distribution station according to the actual position or reconstruction condition of the optical cable;
s6, the system links the detailed information of the station/optical cable/optical distribution station and the like and the analyzed result data with the corresponding icon;
s7, the user accesses the system from the corresponding application end with legal identity, in the using process, the mouse is moved to the position of the icon, the system automatically pops up the UI caption of the information summary corresponding to the icon, and the user can view the complete information data by clicking the icon;
s8, the user can search the needed information data by items in a searching mode, thereby quickly finding out the problems existing in the operation process of the communication optical cable so as to quickly repair and improve the communication optical cable.
In S1, the collected and recorded information includes, but is not limited to: site information (site name, site coordinates, scale, optical distribution frame label and detailed information, optical cable number, optical cable direction, optical cable end connection condition, service label and the like), optical cable basic information (name, model, core number and the like), optical core information (name, jumper connection condition, service logic and the like).
As shown in fig. 2, the present embodiment further provides an autonomous querying device for a communication optical cable, which includes a data acquisition device, a processor, a display, a memory, a data memory, a text recognition and extraction program module, a big data analysis program module, a mapping software, and an abnormal alarm program module;
the signal output end of the data acquisition device is connected with the signal input end of the processor, and the signal output end of the processor is connected with the signal input end of the display;
the memory is used for storing functional modules and computer programs running on the processor;
the data memory is used for storing the acquired original information data on the optical distribution frame and/or the result data obtained by subsequent analysis;
the data acquisition device is used for acquiring and acquiring information on the optical distribution frame, and the processor is used for calling the character recognition extraction program module, extracting corresponding character information from the data acquired by the data acquisition device and recording the corresponding character information into a standard form template;
the processor is used for calling a big data analysis program module and mining and analyzing the optical configuration information in the standard form template by adopting a big data analysis means;
the processor is used for calling mapping software and drawing an optical cable topological graph according to the collected station, optical distribution frame and optical cable information so as to visually display the distribution condition of the communication optical cable;
and the processor calls an abnormal alarm program module and sends an alarm according to a preset program or mode according to the identified optical cable abnormal condition.
The alarm modes include but are not limited to pop windows, flashing screens, icons for marking abnormal parts with different colors, audible alarms and the like.
In this embodiment, the data acquisition device includes, but is not limited to, an RFID radio frequency identification device, a camera, a scanner, an input device, and the like;
the input device includes but is not limited to a mouse, a keyboard, a card reader, an external memory card, etc.;
furthermore, according to different data acquisition devices, the communication optical cable autonomous query device also comprises a matched image identification program module, a matched UI subtitle program module and the like;
the processor calls an image identification program module for identifying and extracting the information of the optical configuration frame collected in the image format.
In this embodiment, in the big data analysis program module, the means of data analysis includes but is not limited to: visual analysis, data mining algorithms, predictive analysis, semantic engines, data quality and data management, data storage/data warehousing, and the like.
In this embodiment, the data storage is a local storage and/or a cloud storage.
In this embodiment, the operation application platform of the device includes a field application end, a management end and a foreground end; wherein:
the field operating personnel adopt the data acquisition device to acquire the information on the field optical distribution frame and import the data into the system through the field application end; a background manager can access the system through a management end, call drawing software through a processor to draw and modify an optical cable topological graph, and also can perform operations such as modification management of a standard template, modification management of an abnormal alarm program and the like through the processor; the common user accesses the system through the foreground end to check or inquire all the public data, but does not have other operation authority.
As shown in fig. 3, the present embodiment further provides an operating apparatus of an optical communication cable autonomous query system, where the apparatus includes a processor, a memory, and a computer program stored in the memory and operating on the processor.
The processor comprises one or more processing cores, the processor is connected with the memory through the bus, the memory is used for storing program instructions, and the autonomous querying system of the communication optical cable is realized when the processor executes the program instructions in the memory.
Alternatively, the memory may be implemented by any type or combination of volatile or non-volatile memory devices, such as Static Random Access Memory (SRAM), electrically erasable programmable read-only memory (EEPROM), erasable programmable read-only memory (EPROM), programmable read-only memory (PROM), read-only memory (ROM), magnetic memory, flash memory, magnetic or optical disks.
In addition, the present invention also provides a computer readable storage medium, which stores a computer program, and the computer program is executed by a processor to implement the above-mentioned optical communication cable autonomous query system.
Optionally, the present invention also provides a computer program product containing instructions which, when run on a computer, cause the computer to execute the above aspects of the optical communication cable autonomic query system.
It will be understood by those skilled in the art that all or part of the steps for implementing the above embodiments may be implemented by hardware, or may be implemented by a program instructing relevant hardware, and the program may be stored in a computer-readable storage medium, where the above-mentioned storage medium may be a read-only memory, a magnetic disk or an optical disk, etc.
The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the preferred embodiments of the present invention are described in the above embodiments and the description, and are not intended to limit the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.
Claims (10)
1. An optical communication cable autonomous query system, characterized in that: the system comprises a data acquisition module, a system analysis module and a visual management module; the signal output end of the data acquisition module is connected with the signal input end of the system analysis module, and the signal output end of the system analysis module is connected with the signal input end of the visual management module; wherein:
the data acquisition module is used for acquiring information on the field optical distribution frame by taking a station as a unit, recording the information to a preset form template and importing the form into the system;
the system analysis module is used for mining and comparing a large amount of optical distribution information and analyzing the running state of the communication optical cable from the aspects of sites, optical cables and business projects;
the visual management module is used for generating an optical cable topological graph through drawing software according to the collected and analyzed data, and connecting the analyzed optical cable data to the topological graph so that a user can directly inquire the service.
2. The optical communication cable autonomous interrogation system of claim 1, wherein: the data acquisition module comprises an information reading sub-module, an information storage sub-module, a template management sub-module and a form import sub-module; the signal output end is connected with the signal input end of the information storage submodule, the information storage submodule and the template management submodule run in parallel, and the signal output ends of the information storage submodule and the template management submodule are connected with the signal input end of the form import submodule; wherein:
the information reading sub-module is used for acquiring character information on the optical configuration frame through various information acquisition means;
the information storage submodule is used for storing the acquired original information data on the optical distribution frame and/or the result data obtained by subsequent analysis;
the template management submodule is used for editing and setting a standard information recording form template so as to record the acquired optical cable information data according to a uniform standard format;
the table importing submodule is used for importing the table with the recorded optical distribution frame information into the system so as to analyze and process data.
3. The optical communication cable autonomous interrogation system of claim 1, wherein: the system analysis module comprises a site information analysis submodule, an optical cable information analysis submodule and an abnormality recognition submodule; the site information analysis submodule and the optical cable information analysis submodule are connected through digital signals and run in parallel, and the signal output ends of the site information analysis submodule and the optical cable information analysis submodule are connected with the signal input end of the abnormality identification submodule; wherein:
the station information analysis submodule is used for respectively integrating and analyzing information from the detailed information of the station, the in-station optical distribution frame, the in-station multi-directional optical cable and the like by taking the station as a unit;
the optical cable information analysis submodule is used for respectively integrating and analyzing information from the angles of service logic of an optical core, the connection condition of two ends of an optical cable, site information of two ends of the optical cable, service labels of two ends of the optical cable and the like by taking the optical cable as a unit;
and the abnormality identification submodule is used for comparing all information data by combining the analysis results of the site information analysis submodule and the optical cable information analysis submodule, and automatically identifying the abnormal problem existing in the operation process of the communication optical cable.
4. The optical communication cable autonomous interrogation system of claim 3, wherein: the abnormal problems that can be automatically identified in the abnormal identification submodule include but are not limited to: one end of the optical cable has a link and the other end has no link, labels in the optical core service link are not uniform/ambiguous, optical cores at two ends of the optical cable are staggered, information inquiry with jumper connection exists and the like.
5. The optical communication cable autonomous interrogation system of claim 1, wherein: the visual management module comprises a drawing software submodule, a topological graph generating submodule, an information link submodule, an inquiry submodule and an abnormal alarm submodule; the signal output end of the drawing software submodule is connected with the signal input end of the topological graph generating submodule, the signal output end of the topological graph generating submodule is connected with the signal input end of the information linking submodule, and the signal output end of the information linking submodule is connected with the signal input ends of the inquiring submodule and the abnormal alarm submodule; wherein:
the drawing software submodule is used for loading and managing drawing software;
the topological diagram generating submodule is used for calling the drawing software in the drawing software submodule, drawing and generating an optical cable topological diagram according to the collected optical distribution frame information of the substation, and an authorized administrator can modify the optical cable topological diagram by moving the position of the substation or an optical cable icon on the topological diagram;
the information link sub-module is used for connecting the detailed information and the analysis result information of the site/optical cable to the corresponding icon position on the topological graph in a link mode, and a user can directly view corresponding information by clicking the icon of the site/optical cable;
the query submodule is used for providing a functional channel for searching and querying for a user, and the user can query site information, optical cable information, abnormal information and the like in the optical cable topology in terms;
and the abnormity warning sub-module is used for sending out a warning in a visual mode when the abnormity condition exists in the operation process of the communication optical cable.
6. An autonomous query device for communication optical cables is characterized in that: the system comprises a data acquisition device, a processor, a display, a memory, a data memory, a character recognition and extraction program module, a big data analysis program module, drawing software and an abnormal alarm program module;
the signal output end of the data acquisition device is connected with the signal input end of the processor, and the signal output end of the processor is connected with the signal input end of the display;
the memory is used for storing functional modules and computer programs running on the processor;
the data memory is used for storing the acquired original information data on the optical distribution frame and/or the result data obtained by subsequent analysis;
the data acquisition device is used for acquiring and acquiring information on the optical distribution frame, and the processor is used for calling a character recognition extraction program module, extracting corresponding character information from the data acquired by the data acquisition device and recording the corresponding character information into a standard form template;
the processor is used for calling a big data analysis program module and mining and analyzing the optical configuration information in the standard form template by adopting a big data analysis means;
the processor is used for calling mapping software, and drawing an optical cable topological graph according to the collected station, optical distribution frame and optical cable information so as to visually display the distribution condition of the communication optical cable;
and the processor calls the abnormal alarm program module and sends out an alarm according to a preset program or mode according to the identified optical cable abnormal condition.
7. The optical communication cable autonomous interrogation apparatus of claim 6, wherein: the data acquisition device includes but is not limited to an RFID radio frequency identification device, a camera, a scanner, an input device, etc.;
the input device includes but is not limited to a mouse, a keyboard, a card reader, an external memory card, etc.;
furthermore, according to different data acquisition devices, the communication optical cable autonomous query device further comprises a matched image identification program module, a matched UI subtitle program module and the like;
and the processor calls the image identification program module and is used for identifying and extracting the optical configuration frame information collected in the image format.
8. The optical communication cable autonomous interrogation apparatus of claim 6, wherein: in the big data analysis program module, the means of data analysis include but are not limited to: visual analysis, data mining algorithms, predictive analysis, semantic engines, data quality and data management, data storage/data warehousing, and the like.
9. The optical communication cable autonomous interrogation apparatus of claim 6, wherein: the data memory is a local memory and/or a cloud memory.
10. The optical communication cable autonomous interrogation apparatus of claim 6, wherein: the operation application platform of the device comprises a field application end, a management end and a foreground end; wherein:
the field operator adopts the data acquisition device to acquire information on the field optical distribution frame and leads the data into the system through the field application end; a background manager can access the system through a management end, can call the drawing software through the processor to draw and modify the optical cable topological graph, and can also perform operations such as modification management of a standard template, modification management of an abnormal alarm program and the like through the processor; and the common user accesses the system through the front desk end to check or inquire all public data, but does not have other operation rights.
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