CN112769476A - Distribution network optical fiber box distribution information management system and method - Google Patents

Abstract

The invention discloses a distribution network optical fiber sub-box information management system and a method, wherein the distribution network optical fiber sub-box information management system comprises: the optical fiber sub-box is connected with the optical cable and correspondingly leads out a plurality of optical fibers from the fiber core of the optical cable; the optical fiber monitoring module comprises an optical fiber testing unit and a monitoring server, wherein the optical fiber testing unit is connected with each optical fiber and is used for injecting a testing wavelength into the corresponding optical fiber according to the inspection instruction and acquiring a corresponding monitoring signal; the optical fiber testing unit is used for sending the monitoring signal to the monitoring server for analysis; the optical fiber inspection module is used for generating a corresponding inspection instruction according to the monitoring requirement and sending the inspection instruction to the optical fiber testing unit; and the resource management module is used for reporting the acquired monitoring requirements to the optical fiber inspection module, importing analysis results, and arranging and displaying the analysis results according to a preset template. The invention can enable users to know the transmission quality of each optical fiber in time and improve the stability of the power communication network.

Description

Distribution network optical fiber box distribution information management system and method

Technical Field

The invention relates to the technical field of power communication, in particular to a distribution network optical fiber box distribution information management system and method.

Background

At present, with the development of power systems, telephone switching networks, optical fiber transmission networks, data networks, computer communication networks, supporting networks and the like with the current scale have been built, so that the scale of power communication networks is increasingly large, and the requirement for modern management services of the power communication networks is also increasingly important in order to ensure the stable and reliable operation of the power communication systems. When the existing optical cable is used for long-distance optical fiber transmission or is in wiring butt joint with a user terminal, the optical fiber sub-box is required to be used as a separation node of the optical cable, but the existing optical fiber sub-box only has a wiring and branching function and cannot monitor the wiring quality of the optical cable, so that the optical fiber after wiring has loss to a certain extent, and the transmission quality of the subsequent optical fiber is influenced.

Disclosure of Invention

The technical problem to be solved by the invention is to provide a distribution network optical fiber box information management system and method to monitor the optical fiber transmission quality after distribution and improve the stability of a power communication network.

In order to solve the above technical problem, an embodiment of the present invention provides a distribution network optical fiber distribution box information management system, including:

the optical fiber sub-box is connected with the optical cable and correspondingly leads out a plurality of optical fibers from the fiber core of the optical cable;

the optical fiber monitoring module comprises an optical fiber testing unit and a monitoring server, wherein the optical fiber testing unit is connected with each optical fiber and is used for injecting a testing wavelength into the corresponding optical fiber according to the inspection instruction and acquiring a corresponding monitoring signal; the optical fiber testing unit is connected with the monitoring server and used for sending monitoring signals to the monitoring server for analysis;

the optical fiber inspection module is connected with the optical fiber testing unit and used for generating a corresponding inspection instruction according to monitoring requirements and sending the inspection instruction to the optical fiber testing unit;

and the resource management module is respectively connected with the optical fiber inspection module and the monitoring server and used for reporting the acquired monitoring requirements to the optical fiber inspection module, importing the analysis results obtained by analysis of the monitoring server, and arranging and displaying the analysis results according to a preset template.

Further, the polling command includes a terminal number for injecting the test wavelength, an injection sequence, and a time interval for continuous injection.

Furthermore, each optical fiber sub-box is marked with a module number, and each optical fiber terminal used for connecting the fiber core of the optical cable in each optical fiber sub-box is marked with a corresponding terminal number.

Further, the resource management module includes:

the acquisition unit is connected with the monitoring server and is used for acquiring the module number of each optical fiber sub-box, the terminal number of each optical fiber terminal in each optical fiber sub-box and the monitoring analysis result of the optical fiber corresponding to each optical fiber terminal;

the display unit is connected with the acquisition unit, associates and binds the acquired information, arranges the information according to a preset template, and finally displays the information in a page in a list manner;

the query unit is connected with the display unit and searches the information displayed in the page according to the received query instruction;

and the modifying unit is connected with the display unit and is used for adding, deleting or modifying the module or the terminal information in the page according to the received modifying instruction.

Further, the modifying unit is specifically configured to: when module information is added, automatically generating a polling instruction according to the number to which the newly added module belongs, monitoring all optical fiber terminals corresponding to the newly added module according to the polling instruction, and automatically updating a monitoring analysis result in a page; when the terminal information is added, a routing inspection instruction is automatically generated according to the number to which the newly added terminal belongs, the newly added optical fiber terminal is independently monitored, and the monitoring analysis result is automatically updated in the page.

Further, the monitoring server is used for monitoring the optical power of each optical fiber, the optical fiber loss condition and the optical cable vibration according to the monitoring signals so as to generate corresponding analysis results.

Furthermore, the optical fiber test unit comprises a monitoring host and a collector, wherein the monitoring host is accessed to each optical fiber terminal in the optical fiber sub-box and is used for injecting test wavelength into the optical fiber corresponding to each optical fiber terminal; and each optical fiber in the optical fiber sub-box is connected into the collector to receive the monitoring signal output by each optical fiber.

Further, the resource management module further comprises a list export unit, which is used for exporting the selected module or the terminal list to the document according to the export instruction.

The invention also provides a distribution network optical fiber sub-box information management method which is applied to the distribution network optical fiber sub-box information management system and comprises the following steps:

step S1, the resource management module receives the monitoring requirement input by the user, reports the monitoring requirement to the optical fiber inspection module to generate a corresponding inspection instruction, and the optical fiber inspection module sends the inspection instruction to the optical fiber test unit;

step S2, the optical fiber testing unit injects a testing wavelength to the corresponding optical fiber according to the inspection instruction to obtain a corresponding monitoring signal, and uploads the testing wavelength and the monitoring signal to the monitoring server to be analyzed to obtain an analysis result;

and step S3, the monitoring server uploads the analysis result to the resource management module, and the resource management module sorts and displays the module and the terminal information according to a preset template.

Further, the distribution network optical fiber distribution box information management method further includes:

step S4, the resource management module receives the query requirement input by the user and queries the module and the terminal information; or the resource management module receives a modification requirement input by a user, and adds, deletes or modifies the module and the terminal information.

The embodiment of the invention has the beneficial effects that: the optical fiber monitoring module is used for monitoring the optical fiber terminals of the optical fiber sub-boxes, and the resource management module is used for managing monitoring results, so that users can know the transmission quality of each optical fiber in time, and the stability of the power communication network is improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic block diagram of a distribution network optical fiber distribution box information management system according to an embodiment of the present invention.

Fig. 2 is a schematic flow chart of a distribution network optical fiber sub-box information management method according to a second embodiment of the present invention.

Detailed Description

The following description of the embodiments refers to the accompanying drawings, which are included to illustrate specific embodiments in which the invention may be practiced.

Referring to fig. 1, an embodiment of the present invention provides a distribution network optical fiber sub-box information management system, which is applied to an optical fiber sub-box 1 in an electrical power communication network, wherein a plurality of optical fiber terminals are arranged in the optical fiber sub-box 1, and after an optical cable is connected to the optical fiber sub-box 1, a user can correspondingly connect fiber cores of the optical cable to different optical fiber terminals according to needs, so as to achieve a purpose that a plurality of optical fibers are led out from one optical cable.

Every optic fibre divides box 1 all to be equipped with optic fibre monitoring module, and wherein optic fibre monitoring module includes optic fibre test unit 2 and monitoring server 3, optic fibre test unit 2 links to each other with every optic fibre for according to patrolling and examining the instruction and injecting the test wavelength to the optic fibre that corresponds, and acquire corresponding monitoring signal.

In this embodiment, the optical fiber testing unit 2 includes a monitoring host and a collector, the monitoring host accesses to each optical fiber terminal in the optical fiber sub-box 1, and is configured to inject a testing wavelength into an optical fiber corresponding to each optical fiber terminal according to the inspection instruction, where the testing wavelength is inconsistent with a wavelength of the optical fiber communication signal. Each optical fiber led out from the optical fiber sub-box 1 is connected into a collector, the test wavelength outputs monitoring signals after being transmitted by the optical fiber, and the monitoring signals output by each optical fiber can be received by the collector.

The optical fiber testing unit 2 is connected with the monitoring server 3, after the collector sends the collected single monitoring signal to the monitoring server 3, the monitoring server 3 can calculate the optical power, the optical fiber loss condition, the optical cable vibration and other data of each optical fiber according to the input testing wavelength and the output monitoring signal so as to generate a corresponding monitoring analysis result, whether the signal transmission quality of the optical fiber reaches a preset standard can be known according to the monitoring analysis result, and if the analysis result reaches the preset standard, the optical fiber is marked to be qualified; if the optical fiber does not reach the standard, marking the optical fiber as unqualified.

The rule that the optical fiber testing unit 2 injects the testing wavelength into the optical fiber corresponding to each optical fiber terminal is controlled by the inspection instruction, the inspection instruction is generated by the optical fiber inspection module 4 according to the monitoring requirement, and the optical fiber inspection module 4 generates the inspection instruction and then sends the inspection instruction to the connected optical fiber testing unit 2. In addition, the optical fiber inspection module 4 is further connected with the resource management module 5, the resource management module 5 is connected with a touch display screen for human-computer interaction, and after a user inputs a monitoring requirement by using the touch display screen, the resource management module 5 reports the monitoring requirement to the optical fiber inspection module 4 to generate a corresponding inspection instruction so as to control the optical fiber testing unit 2 to inject a testing signal into a corresponding optical fiber according to the monitoring requirement of the user.

In the present embodiment, one optical fiber sub-box 1 is a module, each optical fiber sub-box 1 is marked with its unique module number, and each optical fiber terminal in each optical fiber sub-box 1 for connecting the fiber core of the optical cable is also marked with its unique terminal number. And the inspection instruction comprises a terminal number for injecting the test wavelength, an injection sequence and a continuous injection time interval, and the test wavelength can be injected into the corresponding optical fiber terminal according to the module number and the terminal number according to the inspection instruction, so that the specified optical fiber is monitored.

The resource management module 5 is connected with the monitoring server 3, the monitoring analysis result obtained by the analysis of the monitoring server 3 can be led into the resource management module 5, and the resource management module 5 arranges and displays the analysis result according to a preset template.

In this embodiment, the resource management module 5 includes the following units to implement various management functions, specifically as follows:

the acquisition unit is connected with the monitoring server 3 and is used for acquiring the module number of each optical fiber sub-box 1, the terminal number of each optical fiber terminal in each optical fiber sub-box 1 and the monitoring analysis result of the optical fiber corresponding to each optical fiber terminal;

the display unit is connected with the acquisition unit and is used for performing associated binding on all acquired information, namely the optical fiber sub-box 1, each optical fiber terminal in the optical fiber sub-box 1 and a monitoring analysis result corresponding to each optical fiber terminal are bound together so as to facilitate subsequent information search and viewing; in addition, the display unit sorts the bound information according to a preset template and finally displays the bound information in a page in a list mode; the page comprises a module list and a terminal list, so that a user can know the wiring condition of the optical fiber sub-box 1 at any time through the webpage;

the query unit is connected with the display unit, a user can input search keywords in a search bar on a page, wherein the keywords can be module numbers, terminal numbers, unqualified optical fibers and the like, a corresponding query instruction is generated according to the keywords, and information which accords with the keywords is selected according to the content in the search page of the query instruction for preferential display, so that the user can search the information quickly;

the modification unit is connected with the display unit and is used for adding, deleting or modifying the module or the terminal information in the page according to the received modification instruction; namely, the user can edit various information in the page according to the actual situation, and can add new module information or new terminal information. When module information is added, automatically generating a polling instruction according to the number to which the newly added module belongs, monitoring all optical fiber terminals corresponding to the newly added module according to the polling instruction, and automatically updating a monitoring analysis result in a page; when the terminal information is added, a routing inspection instruction is automatically generated according to the number to which the newly added terminal belongs, the newly added optical fiber terminal is independently monitored, and the monitoring analysis result is automatically updated in the page. In addition, module or terminal information can be deleted, and when a user deletes information of a certain module or a certain terminal, the module number or the terminal number of the test wavelength injected in the original patrol inspection instruction can be synchronously deleted.

The resource management module 5 further comprises a list export unit, a user can check part or all of information in the page and generate an export instruction after pressing an export key, and the list export unit can export the selected module or terminal list to a document with a set path according to the export instruction.

Corresponding to a distribution network optical fiber distribution box information management system in an embodiment of the present invention, a second embodiment of the present invention provides a distribution network optical fiber distribution box information management method, which is applied to a distribution network optical fiber distribution box information management system in an embodiment of the present invention, and as shown in fig. 2, the distribution network optical fiber distribution box information management method in this embodiment includes:

step S1, the resource management module 5 receives the monitoring requirement input by the user, reports the monitoring requirement to the optical fiber inspection module 4 to generate a corresponding inspection instruction, and the optical fiber inspection module 4 sends the inspection instruction to the optical fiber test unit 2;

step S2, the optical fiber testing unit 2 injects a testing wavelength into the corresponding optical fiber according to the inspection instruction to obtain a corresponding monitoring signal, and uploads the testing wavelength and the monitoring signal to the monitoring server 3 for analysis to obtain an analysis result;

step S3, the monitoring server 3 uploads the analysis result to the resource management module 5, and the resource management module 5 arranges and displays the module and the terminal information according to the preset template, so that the module information, the terminal information, and the monitoring result are displayed in a centralized manner on the page, and the user can conveniently view the information.

In addition, the present embodiment further includes step S4, where the resource management module 5 receives a query request input by a user, and queries the module and the terminal information; or, the resource management module 5 receives a modification requirement input by the user, and adds, deletes or modifies the module and the terminal information, so as to improve the convenience of the management system.

From the above, compared with the prior art, the embodiment of the invention has the following beneficial effects: the optical fiber monitoring module is used for monitoring the optical fiber terminals of the optical fiber sub-boxes, and the resource management module is used for managing monitoring results, so that users can know the transmission quality of each optical fiber in time, and the stability of the power communication network is improved.

The above disclosure is only for the purpose of illustrating the preferred embodiments of the present invention, and it is therefore to be understood that the invention is not limited by the scope of the appended claims.

Claims (10)

1. The utility model provides a join in marriage net optic fibre and divide box information management system which characterized in that includes:

the optical fiber sub-box is connected with the optical cable and correspondingly leads out a plurality of optical fibers from the fiber core of the optical cable;

the optical fiber monitoring module comprises an optical fiber testing unit and a monitoring server, wherein the optical fiber testing unit is connected with each optical fiber and is used for injecting a testing wavelength into the corresponding optical fiber according to the inspection instruction and acquiring a corresponding monitoring signal; the optical fiber testing unit is connected with the monitoring server and used for sending monitoring signals to the monitoring server for analysis;

the optical fiber inspection module is connected with the optical fiber testing unit and used for generating a corresponding inspection instruction according to monitoring requirements and sending the inspection instruction to the optical fiber testing unit;

and the resource management module is respectively connected with the optical fiber inspection module and the monitoring server and used for reporting the acquired monitoring requirements to the optical fiber inspection module, importing the analysis results obtained by analysis of the monitoring server, and arranging and displaying the analysis results according to a preset template.

2. The distribution network fiber distribution box information management system according to claim 1, wherein the routing inspection instruction comprises a terminal number for injecting the test wavelength, an injection sequence and a time interval for continuous injection.

3. The distribution network fiber distribution box information management system of claim 1, wherein each fiber distribution box is labeled with a module number, and each fiber terminal in each fiber distribution box for connecting a fiber core of an optical cable is labeled with a corresponding terminal number.

4. The distribution network fiber distribution box information management system of claim 3, wherein the resource management module comprises:

the acquisition unit is connected with the monitoring server and is used for acquiring the module number of each optical fiber sub-box, the terminal number of each optical fiber terminal in each optical fiber sub-box and the monitoring analysis result of the optical fiber corresponding to each optical fiber terminal;

the display unit is connected with the acquisition unit, associates and binds the acquired information, arranges the information according to a preset template, and finally displays the information in a page in a list manner;

the query unit is connected with the display unit and searches the information displayed in the page according to the received query instruction;

and the modifying unit is connected with the display unit and is used for adding, deleting or modifying the module or the terminal information in the page according to the received modifying instruction.

5. The distribution network optical fiber distribution box information management system according to claim 4, wherein the modification unit is specifically configured to: when module information is added, automatically generating a polling instruction according to the number to which the newly added module belongs, monitoring all optical fiber terminals corresponding to the newly added module according to the polling instruction, and automatically updating a monitoring analysis result in a page; when the terminal information is added, a routing inspection instruction is automatically generated according to the number to which the newly added terminal belongs, the newly added optical fiber terminal is independently monitored, and the monitoring analysis result is automatically updated in the page.

6. The distribution network optical fiber distribution box information management system according to claim 1, wherein the monitoring server is configured to monitor optical power, optical fiber loss and optical cable vibration of each optical fiber according to the monitoring signal to generate a corresponding analysis result.

7. The distribution network optical fiber distribution box information management system according to claim 1, wherein the optical fiber test unit comprises a monitoring host and a collector, the monitoring host is accessed to each optical fiber terminal in the optical fiber distribution box and is used for injecting test wavelength into the optical fiber corresponding to each optical fiber terminal; and each optical fiber in the optical fiber sub-box is connected into the collector to receive the monitoring signal output by each optical fiber.

8. The distribution network fiber distribution box information management system according to claim 4, wherein the resource management module further comprises a list export unit for exporting the selected module or the terminal list to a document according to an export instruction.

9. A distribution network optical fiber sub-box information management method is applied to the distribution network optical fiber sub-box information management system of any one of claims 1 to 8, and comprises the following steps:

step S1, the resource management module receives the monitoring requirement input by the user, reports the monitoring requirement to the optical fiber inspection module to generate a corresponding inspection instruction, and the optical fiber inspection module sends the inspection instruction to the optical fiber test unit;

step S2, the optical fiber testing unit injects a testing wavelength to the corresponding optical fiber according to the inspection instruction to obtain a corresponding monitoring signal, and uploads the testing wavelength and the monitoring signal to the monitoring server to be analyzed to obtain an analysis result;

and step S3, the monitoring server uploads the analysis result to the resource management module, and the resource management module sorts and displays the module and the terminal information according to a preset template.

10. The method for managing the distribution network fiber distribution box information according to claim 9, further comprising:

step S4, the resource management module receives the query requirement input by the user and queries the module and the terminal information; or the resource management module receives a modification requirement input by a user, and adds, deletes or modifies the module and the terminal information.

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