CN111082520B - Method, equipment and storage medium for operation control of optical distribution network - Google Patents

Abstract

The invention discloses an operation control method based on an electric power intelligent optical distribution network, which comprises the following steps: s1: leading and connecting and extracting optical fiber operation data; s2: integrating the optical fiber operation data; s3: judging whether the optical fiber operation data has abnormal data, if so, executing S4; if not, go to S6; s4: calling abnormal data in the optical fiber operation data to generate a maintenance work order; positioning the abnormal optical fiber distribution position according to the abnormal data, associating the maintenance work order with the abnormal optical fiber distribution position, and issuing a light path adjusting instruction aiming at the abnormal optical fiber distribution position according to the maintenance work order; s5: extracting the optical fiber operation data of the optical fiber abnormal position again after the set time, and jumping to S2; s6: and storing the integrated standardized data in the resource pool, calling corresponding data in the resource pool according to the operation management requirement, summarizing and analyzing the data, generating a corresponding analysis report, and managing and controlling the intelligent power distribution network.

Description

Method, equipment and storage medium for operation control of optical distribution network

Technical Field

The present invention relates to the field of power network management, and in particular, to a method, device, and storage medium for managing and controlling operation of an optical distribution network.

Background

At present, due to the passive characteristic of optical fibers, an optical fiber channel bearing power communication equipment and wiring equipment thereof lack an effective intelligent management means in the aspects of daily scheduling use, detection and maintenance, so that the maintenance efficiency is low, and the resource accuracy is poor. Because the number of optical fibers is large, the wiring is complicated, and the operation and inspection personnel are very easy to cause mistaken pulling or misconnection when the optical fibers jump, thereby causing the interruption of communication service and even causing power grid events.

Secondly, because the existing power communication equipment can only realize signal transmission, the maintenance and management of the optical fiber equipment can only be carried out in a manual recording mode, but the manual mode has difficulty in label query and identification by hand writing and is difficult to adapt to the scale application of the optical fiber network, so that the problems of optical network resource waste and low fault repair efficiency are highlighted day by day, and the maintenance and management of the optical fiber network are not facilitated.

Disclosure of Invention

In order to overcome the defects of the prior art, one of the objectives of the present invention is to provide an operation control method for an optical distribution network, which can automatically monitor the faults of the optical network, and can also implement intelligent resource management and improve maintenance efficiency.

The second purpose of the invention is to provide a terminal device.

It is a further object of the present invention to provide a storage medium.

One of the purposes of the invention is realized by adopting the following technical scheme:

an operation control method based on an electric power intelligent optical distribution network comprises the following steps:

step S1: leading and connecting the power optical fiber management system and extracting optical fiber operation data;

step S2: integrating the optical fiber operation data;

step S3: judging whether the optical fiber operation data has abnormal data, if so, executing the step S4; if not, go to step S6;

step S4: calling abnormal data in the optical fiber operation data, and generating a maintenance work order according to the abnormal data; positioning the abnormal optical fiber distribution position according to the abnormal data, associating the maintenance work order with the abnormal optical fiber distribution position, and issuing a light path adjusting instruction aiming at the abnormal optical fiber distribution position according to the maintenance work order;

step S5: extracting the optical fiber operation data of the optical fiber abnormal position again after the set time, and jumping to the step S2;

step S6: and storing the integrated standardized data in the resource pool, calling corresponding data in the resource pool according to the operation management requirement, summarizing and analyzing the data, generating a corresponding analysis report, and managing and controlling the intelligent power distribution network.

Further, before the step S1, configuring an extraction parameter, where the extraction parameter includes an extraction range, an extraction rule, an extraction manner, and an extraction frequency.

Further, in step S1, the optical fiber operation data at least includes an optical fiber identifier, optical fiber transmission information, a pre-add port number, and a real-add port number.

Further, the method for performing integration processing on the optical fiber operation data in step S2 includes:

step S21: extracting corresponding data in the power optical fiber management system to an interface data layer according to the extraction parameters;

step S22: data of the interface data layer is cleaned, and missing data is repaired;

step S23: carrying out unified format conversion on the cleaned data;

step S24: and loading the converted data to an integrated data layer, constructing a unified data view controlled by a communication network, and realizing data stream conversion and sharing.

Further, the method for determining whether the optical fiber operation data has the abnormal condition in step S3 includes: sequentially judging whether the pre-plugging port number corresponding to each optical fiber identifier is consistent with the real-plugging port number, if so, indicating that the optical fiber operation data has no abnormal data; and if the numbers of the pre-plugging ports and the real-plugging ports are inconsistent, marking the optical fiber identifiers corresponding to the inconsistency of the numbers of the pre-plugging ports and the real-plugging ports as abnormal.

Further, the step S4 includes performing a whole-process management and control on the maintenance work order, storing the maintenance work order and the management and control result in the resource pool, and updating the management and control result in the resource pool in real time.

Further, the method for storing the standardized data after the integration processing in the step S6 in the resource pool includes:

and performing regional storage on the data according to the frequency of accessing the data by adopting a data temperature technology.

Further, the operation management requirements comprise performance management requirements, fault management requirements and comprehensive query requirements; when the operation management requirement is a performance management requirement, calling optical fiber transmission information stored in a resource pool, carrying out statistical analysis on the optical fiber transmission information, and generating a performance report; if the operation management requirement is a fault management requirement, calling a maintenance work order and a management and control result in the resource pool, analyzing the fault influence and generating a fault report; and when the operation management requirement is the comprehensive query requirement, calling data corresponding to the query instruction in the resource pool according to the input query instruction, and generating a query report by the query data according to a set template.

The second purpose of the invention is realized by adopting the following technical scheme:

a terminal device, comprising a processor, a memory and a computer program stored on the memory and executable on the processor, wherein the processor executes the computer program to implement the operation control method based on the power intelligent optical distribution network.

The third purpose of the invention is realized by adopting the following technical scheme:

a storage medium having stored thereon a computer program which, when executed, implements the power-intelligent optical distribution network-based operation management and control method as described above.

Compared with the prior art, the invention has the beneficial effects that:

(1) the optical fiber link is automatically monitored, the fault position of the optical cable is quickly positioned, and a corresponding optical path adjusting instruction is provided, so that the optical path scheduling work is greatly simplified;

(2) the intelligent resource management is carried out on the optical fiber resources, and the optical fiber maintenance efficiency is improved.

Drawings

Fig. 1 is a schematic flow chart of the operation control method of the present invention.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the detailed description, and it should be noted that any combination of the embodiments or technical features described below can be used to form a new embodiment without conflict.

An operation control method based on an electric power intelligent optical distribution network, as shown in fig. 1, includes:

step S0: and configuring extraction parameters, wherein the extraction parameters comprise an extraction range, an extraction rule, an extraction mode and an extraction frequency, so that optical fiber operation data meeting the pre-configuration conditions can be conveniently extracted from huge data in the power optical fiber management system at a later stage according to the configuration condition of the extraction parameters, and the expansibility of data extraction is increased and the efficiency of data integration is improved.

Step S1: leading and connecting the power optical fiber management system and extracting optical fiber operation data;

the optical fiber management system is accessed into an original electric power optical fiber management system through wiring, optical fiber operation data, such as optical fiber identification, optical fiber transmission information, pre-plugging port numbers, real-plugging port numbers and the like, in each application are extracted, the working state of the optical fiber of each application can be known according to the optical fiber operation data, and the optical fiber management system is convenient for management and control of the optical fiber in the later period.

Step S2: the optical fiber operation data extracted from the power optical fiber management system is integrated, and the purpose of the processing is that the data extracted from the original power optical fiber management system may have data with different formats or not meeting requirements, so that the extracted data needs to be firstly transmitted to an interface data layer of the operation management and control system, and then the operations such as preprocessing, conversion and the like are carried out to enter an integrated data layer, so as to form core data for operation statistical analysis.

The method for performing integration processing on the optical fiber operation data in step S2 includes:

step S21: extracting corresponding data in the power optical fiber management system to an interface data layer according to the extraction parameters; and data extraction is to classify data according to data characteristics, a data extraction principle is formulated according to the data classification, and source data are extracted to the interface data layer under the guidance of the data extraction principle. The data of the interface data layer homologous system should keep quasi-real-time synchronization, and the real-time performance of data extraction should be improved as much as possible for the source data with real-time requirements.

Step S22: data of the interface data layer is cleaned, and missing data is repaired; the data cleaning is mainly to filter the data which do not meet the requirements, provide feasible data for subsequent operation, run statistical analysis to be responsible for production data verification reports for the data which do not meet the requirements, and send the data to a source system for data modification.

Step S23: carrying out unified format conversion on the cleaned data; and establishing a corresponding relation with the integrated data as required, and converting the corresponding relation according to a unified data model for running statistical analysis.

Step S24: and loading the converted data to an integrated data layer, constructing a unified data view controlled by a communication network, and realizing data stream conversion and sharing. And the data loading loads the converted data to an integrated data layer for running statistical analysis to form a unified data view for communication network management and control.

The integrated optical fiber operation data has the advantages of uniform format, complete and clear data and the like, and provides core data for subsequent abnormal judgment and subsequent optical fiber management control.

Step S3: judging whether the optical fiber operation data has abnormal data, if so, executing the step S4; if not, go to step S6;

the method for judging whether the optical fiber operation data has abnormal conditions comprises the following steps: extracting optical fiber running data corresponding to each integrated optical fiber according to the optical fiber identification, sequentially judging whether the pre-plugging port number and the real-plugging port number corresponding to each optical fiber identification are consistent, if so, indicating that the optical fiber running data has no abnormal data, namely indicating that the position of the port where the optical fiber is plugged is correct; if the optical fiber is not consistent with the real insertion port number, marking the optical fiber identification corresponding to the inconsistency of the pre-insertion port number and the real insertion port number as abnormal, and indicating that the position of the optical fiber insertion port is wrong.

In addition, performance parameters such as optical fiber transmission information in the optical fiber operation data can be judged, and if the optical fiber transmission information is obviously lacked or lost, the optical fiber transmission information can also be judged to be abnormal.

Step S4: calling abnormal data in the optical fiber operation data, wherein the abnormal data can comprise an optical fiber identifier corresponding to an abnormal optical fiber, a pre-plugging port number, a real-plugging port number, historical alarm information, optical fiber performance parameters, communication network data and the like, generating a maintenance work order according to the abnormal data, positioning an optical fiber abnormal wiring position according to the abnormal data, associating the maintenance work order with the optical fiber abnormal wiring position, and issuing a light path adjusting instruction for the optical fiber abnormal wiring position according to the maintenance work order; the optical path adjusting instruction can be forwarded to a terminal of a maintenance worker to be checked by the maintenance worker, the maintenance worker can maintain and adjust the position of the optical fiber abnormal wiring conveniently, the state of the corresponding LED indicating lamp on each optical fiber port can be changed directly according to the optical path adjusting instruction, if the position of a certain optical fiber port needs to be changed, the LED indicating lamp corresponding to the optical fiber port is displayed in red, the LED indicating lamp corresponding to the correct port is displayed in yellow, and if the change is completed and is correct, the LED indicating lamp corresponding to the port is displayed in green.

The maintenance work order can be sent to a light path adjusting instruction for maintenance personnel to adjust and implement after being generated and accepted and approved, the maintenance work order is subjected to whole-process management and control, each approval process of the maintenance work order is recorded, the maintenance work order and a management and control result are stored in a resource pool, and the management and control result in the resource pool is updated in real time.

In addition, the maintenance work order can be checked by maintenance personnel so that the maintenance work order can adjust the abnormal optical fiber wiring condition, meanwhile, the maintenance work order is subjected to background storage and management, the specific abnormal condition is counted, the reason of the abnormal condition is analyzed, and the like, so that an analysis report can be issued at the later stage conveniently.

Step S5: extracting the optical fiber operation data of the optical fiber abnormal position again after the set time, and jumping to the step S2; and after extracting and integrating the optical fiber operation data at the optical fiber abnormal position again, judging whether the abnormal condition exists again, if the abnormal condition of the optical fiber position is not solved, continuing to issue a light path adjusting instruction, and if the optical fiber position is normal, updating the optical fiber operation data to convert the optical fiber operation data into standardized data and storing the standardized data in a resource pool.

Step S6: storing the integrated standardized data in a resource pool, wherein the data pool stores history and real-time optical fiber operation data of each optical fiber, abnormal data, maintenance work orders corresponding to the abnormal data and the like; the data storage adopts a data temperature technology, and the data is stored in a partitioned mode according to the frequency of data access so as to guarantee the timeliness of the data storage and access.

And then, calling corresponding data in the resource pool according to the operation management requirement, summarizing and analyzing the data, generating a corresponding analysis report, and managing and controlling the intelligent power distribution network.

The operation management requirements comprise performance management requirements, fault management requirements, comprehensive query requirements and the like; when the operation management requirement is a performance management requirement, calling optical fiber transmission information in optical fiber operation data stored in a resource pool, performing statistical analysis on the optical fiber transmission information, and generating a performance report; if the operation management requirement is a fault management requirement, calling a maintenance work order and a management and control result in the resource pool, analyzing the fault influence and generating a fault report; and when the operation management requirement is the comprehensive query requirement, calling data corresponding to the query instruction in the resource pool according to the input query instruction, and generating a query report by the query data according to a set template.

The generation and display of the various reports can be realized in a man-machine interaction mode, the required data types can be searched or selected through the man-machine interaction terminal according to the requirements of operators, the corresponding reports are generated and then displayed in the man-machine interaction terminal, and the working efficiency and quality of operation management and maintenance can be obviously improved.

The beneficial effect of this embodiment does:

(1) the extraction parameters are configured, so that optical fiber operation data meeting the pre-configuration conditions can be extracted from huge data in the power optical fiber management system at the later stage according to the configuration condition of the extraction parameters, and the expansibility of data extraction is increased and the efficiency of data integration is improved;

(2) the optical fiber operation data is extracted by connecting wires into the original electric power optical fiber management system, the original system is not required to be upgraded, the data can be collected under the condition of not influencing the original system, and the safety of the original system is improved;

(3) extracting optical fiber operation data corresponding to each integrated optical fiber according to the optical fiber identification, and sequentially judging whether the pre-plugging port number and the real-plugging port number corresponding to each optical fiber identification are consistent; the position of each optical fiber port can be detected, and the function of preventing misconnection of optical fibers is realized;

(4) a maintenance work order is generated according to the abnormal data, the abnormal distribution position of the optical fiber is positioned according to the abnormal data, the function of automatically positioning the position of the abnormal optical fiber is realized, maintenance personnel can conveniently and quickly find the position of the abnormal optical fiber, and the maintenance efficiency is improved;

a light path adjusting instruction is issued according to the abnormal optical fiber distribution position, so that maintenance personnel can clearly know the position and the adjusting scheme of the abnormal optical fiber, and the maintenance efficiency of the maintenance personnel is improved;

(5) the maintenance work order is controlled in the whole process, so that the historical maintenance condition can be conveniently searched in the subsequent process;

(6) storing the integrated standardized data in a resource pool, wherein the data pool stores history and real-time optical fiber operation data of each optical fiber, abnormal data, maintenance work orders corresponding to the abnormal data and the like; parameters of the steps of calling, integrating, judging, abnormity, maintaining and the like can be collected into a resource pool, and a uniform data source is provided for management and control;

(7) calling corresponding data in the resource pool according to the operation management requirement, summarizing and analyzing the data, and generating a corresponding analysis report; the corresponding data can be automatically called according to different requirements of operators for analysis, and the intelligent power distribution network is managed and controlled.

The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention is not limited thereby, and any insubstantial changes and substitutions made by those skilled in the art based on the present invention are within the protection scope of the present invention.

Claims (9)

1. An operation control method based on an electric power intelligent optical distribution network is characterized by comprising the following steps:

step S1: leading and connecting the power optical fiber management system and extracting optical fiber operation data;

step S2: integrating the optical fiber operation data;

step S3: judging whether the optical fiber operation data has abnormal data, if so, executing the step S4; if not, go to step S6;

step S4: calling abnormal data in the optical fiber operation data, and generating a maintenance work order according to the abnormal data; positioning the abnormal optical fiber distribution position according to the abnormal data, associating the maintenance work order with the abnormal optical fiber distribution position, and issuing a light path adjusting instruction aiming at the abnormal optical fiber distribution position according to the maintenance work order;

step S5: extracting the optical fiber operation data of the optical fiber abnormal position again after the set time, and jumping to the step S2;

step S6: storing the integrated standardized data in a resource pool, calling corresponding data in the resource pool according to operation management requirements, summarizing and analyzing the data, generating a corresponding analysis report, and managing and controlling the power intelligent optical distribution network, wherein the operation management requirements comprise performance management requirements, fault management requirements and comprehensive query requirements; when the operation management requirement is a performance management requirement, calling optical fiber transmission information stored in a resource pool, carrying out statistical analysis on the optical fiber transmission information, and generating a performance report; if the operation management requirement is a fault management requirement, calling a maintenance work order and a management and control result in the resource pool, analyzing the fault influence and generating a fault report; and when the operation management requirement is the comprehensive query requirement, calling data corresponding to the query instruction in the resource pool according to the input query instruction, and generating a query report by the query data according to a set template.

2. The operation control method according to claim 1, wherein before the step S1, an extraction parameter is configured, where the extraction parameter includes an extraction range, an extraction rule, an extraction manner, and an extraction frequency.

3. The operation control method according to claim 1, wherein the optical fiber operation data in step S1 at least includes an optical fiber identifier, optical fiber transmission information, a pre-plug port number, and a real plug port number.

4. The operation control method according to claim 1, wherein the method for performing the integrated processing on the optical fiber operation data in step S2 is as follows:

step S21: extracting corresponding data in the power optical fiber management system to an interface data layer according to the extraction parameters;

step S22: data of the interface data layer is cleaned, and missing data is repaired;

step S23: carrying out unified format conversion on the cleaned data;

step S24: and loading the converted data to an integrated data layer, constructing a unified data view controlled by a communication network, and realizing data stream conversion and sharing.

5. The operation control method according to claim 1, wherein the method for determining whether the optical fiber operation data has an abnormal condition in step S3 is as follows: sequentially judging whether the pre-plugging port number corresponding to each optical fiber identifier is consistent with the real-plugging port number, if so, indicating that the optical fiber operation data has no abnormal data; and if the numbers of the pre-plugging ports and the real-plugging ports are inconsistent, marking the optical fiber identifiers corresponding to the inconsistency of the numbers of the pre-plugging ports and the real-plugging ports as abnormal.

6. The operation control method according to claim 1, wherein the step S4 further includes performing a whole-process control on the maintenance work order, storing the maintenance work order and the control result in the resource pool, and updating the control result in the resource pool in real time.

7. The operation control method according to claim 1, wherein the step S6 of storing the integrated standardized data in the resource pool includes:

and performing regional storage on the data according to the frequency of accessing the data by adopting a data temperature technology.

8. A terminal device, comprising a processor, a memory, and a computer program stored in the memory and capable of running on the processor, wherein the processor implements the operation control method according to any one of claims 1 to 7 when executing the computer program.

9. A storage medium having a computer program stored thereon, wherein the computer program is executed to implement the operation control method according to any one of claims 1 to 7.

Images