CN111030885A - Monitoring data extraction method and system for communication infrastructure - Google Patents

Abstract

The invention relates to the technical field of communication infrastructure, in particular to a monitoring data extraction method and a monitoring data extraction system for communication infrastructure, wherein the method comprises the following steps of 1: initializing and preparing an early warning list grabbing module, downloading a real-time early warning list in the operation and maintenance monitoring system at regular time by the early warning list grabbing module, and storing the real-time early warning list in a file system; step 2: reading an early warning list in a file system, extracting early warning data and storing the early warning data in a database; and step 3: initializing station address information, reading early warning data in a database, and displaying the early warning data. According to the monitoring data extraction system facing the communication infrastructure, provided by the invention, the early warning list in the operation and maintenance monitoring system can be captured in real time without modifying the operation and maintenance monitoring system, the early warning data is displayed on a map, and a statistical chart of the early warning data is automatically generated, so that a user can complete research and judgment of early warning relevance at the first time conveniently, the steps for research and judgment and statistical analysis are simplified, and the working efficiency is improved.

Description

Monitoring data extraction method and system for communication infrastructure

Technical Field

The invention relates to the technical field of communication infrastructures, in particular to a monitoring data extraction method and system for communication infrastructures.

Background

The communication infrastructure mainly refers to network equipment facilities such as optical cables, microwaves, satellites, mobile communication and the like, is not only a basic support for information construction of countries and armies, but also an important component of basic facilities for ensuring social production and people's life.

In order to ensure high-quality wireless communication service, a communication infrastructure service provider uses an operation and maintenance monitoring system to track the running state of a station in all weather, the monitoring system can find abnormal states of station outage, high temperature, water immersion and the like at the first time and generate alarm information to remind monitoring center personnel, and the monitoring center personnel are responsible for analyzing, studying and judging the influence range of alarm and scheduling proper resources to eliminate the abnormal state of the station in time.

However, the existing operation and maintenance monitoring system displays the early warning information in a list form, and a user cannot quickly and intuitively acquire the overall situation and geographical distribution of the site abnormity early warning in an area, so that the research and judgment of alarm correlation is difficult to complete; if the user needs to perform some statistical analysis on the site early warning, the user needs to manually enter the operation and maintenance monitoring system to download the early warning data, and the speed is slow and tedious.

Disclosure of Invention

In order to solve the problem that the early warning data cannot be obtained quickly and intuitively in the prior art, the monitoring data extraction method facing the communication infrastructure provided by the invention can capture data without manual intervention and automatically generate a statistical chart of the early warning information.

The invention provides a monitoring data extraction method facing communication infrastructure, which comprises the following steps: s100, initializing and preparing an early warning list grabbing module, downloading a real-time early warning list in the operation and maintenance monitoring system at regular time by the early warning list grabbing module, and storing the early warning list in a file system;

s200, reading the early warning list in the file system, extracting early warning data and storing the early warning data in a database;

and S300, initializing station address information, reading the early warning data in the database, and displaying the early warning data.

Further, the initialization configuration comprises an account number, a password, a URL (uniform resource locator) address and a file storage position for logging in the operation and maintenance monitoring system.

Further, in step S100, the early warning list capturing module downloads a real-time early warning list in the operation and maintenance monitoring system according to the following steps:

s101, determining a path for downloading the early warning list in an operation and maintenance monitoring system, wherein the path comprises a label needing to be clicked and a form needing to be filled in for downloading the early warning list; based on a Web automatic test technology, simulating manual clicking or filling in a form by analyzing a Web page structure design code;

s102, analyzing an operation and maintenance monitoring system Html and a script code structure by means of a developer tool carried by a browser to obtain Xpath of a label and a form;

s103, downloading the early warning list and storing the early warning list in a file system.

Further, in step S200, the early warning list is read, early warning data is extracted, and the early warning data is stored in a database according to the following steps:

s201, reading the early warning list, recording the updating time of the early warning list, and analyzing and reading the latest early warning list;

s202, extracting the early warning data, forming an incidence relation between a station address and the early warning data, and connecting the station address and the early warning data with the database;

and S203, updating a database table for recording the station address early warning details in the database by referring to the association relation.

Further, the station address is a target station address list which needs to be monitored by the user in real time.

Further, the early warning data comprises a station address code, an administrative region to which the station address belongs, station address longitude and latitude, an early warning name, early warning occurrence time and an early warning processing state.

Further, in step S300, the initialized site information is a list of sites to be monitored, and the early warning data is displayed according to the following steps:

s301, when a Web display interface is logged in, a background program accesses the database and reads the early warning data of the total number of sites;

s302, displaying the early warning data on a map in a classified manner by calling an interface of a third-party GIS;

and S303, displaying the early warning data statistical result by using a chart plug-in.

Further, a jumping icon is used for indicating that early warning exists in the site, red represents that the early warning is not processed, and dark blue represents that the early warning is processed.

And further, the number of the various types of early warning data is represented by a pie chart, and the number of the various types of early warning data is represented by a bar chart.

The invention also provides a monitoring data extraction system facing the communication infrastructure, which comprises a monitoring auxiliary robot, wherein the monitoring auxiliary robot carries out monitoring through the monitoring data extraction method facing the communication infrastructure.

Compared with the prior art, the monitoring data extraction method facing the communication infrastructure can capture data without manual intervention and automatically generate a statistical chart of early warning information; according to the monitoring data extraction system facing the communication infrastructure, provided by the invention, the operation and maintenance monitoring system is not required to be modified, the modification risk is avoided, the early warning list in the operation and maintenance monitoring system can be automatically captured in real time, the early warning data is displayed on a map through Web, and the statistical chart of the early warning data is automatically generated, so that a user can conveniently complete the research and judgment of early warning relevance at the first time, the steps for research and judgment and statistical analysis are simplified, and the working efficiency 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 needed to be used in the description of the embodiments or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a flow chart of a monitoring data extraction method provided by the present invention;

FIG. 2 is a flow chart of an early warning list capture module provided by the present invention;

FIG. 3 is a flow chart of the method for extracting early warning data according to the present invention;

fig. 4 is a flowchart for displaying the warning data provided by the present invention.

FIG. 5 is a schematic diagram of a monitoring data extraction system provided by the present invention;

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, 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 some, but not all, embodiments of the present invention. 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.

The invention provides a monitoring data extraction method facing communication infrastructure, which comprises the following steps of S100, initializing and preparing an early warning list grabbing module, downloading a real-time early warning list in an operation and maintenance monitoring system at regular time by the early warning list grabbing module, and storing the early warning list in a file system; s200, reading the early warning list in the file system, extracting early warning data and storing the early warning data in a database; and S300, initializing station address information, reading the early warning data in the database, and displaying the early warning data. The invention provides a monitoring data extraction method facing communication infrastructure, which downloads an early warning list, collects, reads and displays early warning data, so that a user can acquire the overall situation and geographical distribution of the site abnormity early warning in an area and make related research and judgment.

Step 1, initializing and preparing an early warning list grabbing module, downloading a real-time early warning list in an operation and maintenance monitoring system at regular time by the early warning list grabbing module, and storing the real-time early warning list in a file system.

In specific implementation, the initialization configuration comprises an account number and a password for logging in the operation and maintenance monitoring system, a URL (uniform resource locator) address, a file storage position and the like; as shown in fig. 2, when the early warning list capturing module downloads a real-time early warning list in the operation and maintenance monitoring system at regular time, the user stands at the angle first to determine a path for downloading the early warning list in the operation and maintenance monitoring system, where the path for downloading the early warning list includes a tag to be clicked and a form to be filled in for downloading the early warning list, and it is ensured that a position for downloading the early warning list can be found; based on the Web automatic testing technology, the operations of manually clicking a label or filling a form and the like are simulated by analyzing a Web page structure design code. Preferably, the early warning list capturing module can be restarted under the abnormal condition.

And then, analyzing the Html and script code structures of the operation and maintenance monitoring system by using an automatic browser developer tool to obtain an Xpath of the label and the form, wherein the Xpath is used as an absolute path identifier for describing Web page elements, and the corresponding label and the corresponding form can be quickly found, so that the data downloading work is completed. And based on the automatic Web test toolkit, developing a program for downloading the early warning list, and storing the early warning list in a file system.

And 2, reading the early warning list in the file system, extracting early warning data and storing the early warning data in a database.

In specific implementation, an Excel analysis toolkit is used for monitoring the downloading condition of the early warning list in real time, as shown in fig. 3, the early warning list file is read from a given file directory, the updating time of the early warning list file is recorded, and when the early warning list file is the latest file, the latest early warning list is analyzed and read. Extracting early warning data, wherein the early warning data comprises a station address code, a station address administrative region, station address longitude and latitude, an early warning name, early warning occurrence time, an early warning processing state and the like; after the early warning data is extracted, an incidence relation between delirium and the early warning data is formed and connected to an early warning database, the site is a list of target sites which need to be monitored in real time by a user, and the site has a unique code for representing the site.

And then, updating a database table for recording the early warning details of the site in the database according to the incidence relation between the site and the early warning data, and combining the site into one piece of early warning information when a plurality of early warnings exist in the site. The database table is used for representing early warning details of the station address, and the database table comprises a station address code, the administrative region of the station address, the longitude and latitude of the station address, an early warning name, early warning occurrence time, an early warning processing state and the like.

And 3, initializing station address information, reading the early warning data in the database, and displaying the early warning data.

When the method is implemented specifically, station address information is initialized, and the station address information is a list of station addresses to be monitored; as shown in fig. 4, when the user logs in the Web display interface, the background program accesses the database and reads the early warning data of the total number of sites; preferably, the system presents the site warning data within the corresponding range according to the registration of the user. And then, displaying the early warning data on a map in a classified manner by calling a GIS interface of a third party, preferably, using a jumping icon to represent that the site has early warning, using red to represent that the early warning is not processed, and using dark blue to represent that the early warning is being processed. Then, according to the needs of the user, the statistical results of the early warning data are displayed by using the icon plug-in, preferably, the classification ratio of various early warning data is represented by using a pie chart, and the quantity of various early warning data is represented by using a bar chart.

The invention also provides a monitoring data extraction system facing the communication infrastructure, which comprises a monitoring auxiliary robot, wherein the monitoring auxiliary robot carries out monitoring through the monitoring data extraction method facing the communication infrastructure.

In specific implementation, when the monitoring auxiliary robot is deployed, a station address list, a file storage position, a user password and a password of the operation and maintenance monitoring system, a URL of the operation and maintenance monitoring system, a login account configured for a user and the like are configured. Preferably, the monitoring auxiliary robot is deployed in a local area network or a user computer, so that the safety performance can be improved, and data leakage and loss are avoided.

As shown in fig. 5, after logging in the operation and maintenance monitoring service system, the monitoring auxiliary robot simulates operations such as clicking and filling in a form by a user, downloads an early warning list in real time, extracts effective early warning data, and stores the effective early warning data in a database.

Compared with the prior art, the monitoring data extraction method facing the communication infrastructure can capture data without manual intervention and automatically generate a statistical chart of early warning information; according to the monitoring data extraction system facing the communication infrastructure, provided by the invention, the operation and maintenance monitoring system is not required to be modified, the modification risk is avoided, the early warning list in the operation and maintenance monitoring system can be automatically captured in real time, the early warning data is displayed on a map through Web, and the statistical chart of the early warning data is automatically generated, so that a user can conveniently complete the research and judgment of early warning relevance at the first time, the steps for research and judgment and statistical analysis are simplified, and the working efficiency is improved.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims (10)

1. A monitoring data extraction method oriented to communication infrastructure is characterized by comprising the following steps:

s100, initializing and preparing an early warning list grabbing module, downloading a real-time early warning list in the operation and maintenance monitoring system at regular time by the early warning list grabbing module, and storing the early warning list in a file system;

s200, reading the early warning list in the file system, extracting early warning data and storing the early warning data in a database;

and S300, initializing station address information, reading the early warning data in the database, and displaying the early warning data.

2. The method for extracting monitoring data oriented to communication infrastructure according to claim 1, wherein: the initialization configuration comprises an account number, a password, a URL address and a file storage position for logging in the operation and maintenance monitoring system.

3. The method for extracting monitoring data oriented to communication infrastructure according to claim 2, wherein in step S100, the early warning list capturing module downloads a real-time early warning list in the operation and maintenance monitoring system according to the following steps:

s101, determining a path for downloading the early warning list in an operation and maintenance monitoring system, wherein the path comprises a label needing to be clicked and a form needing to be filled in for downloading the early warning list; based on a Web automatic test technology, simulating manual clicking or filling in a form by analyzing a Web page structure design code;

s102, analyzing an operation and maintenance monitoring system Html and a script code structure by means of a developer tool carried by a browser to obtain Xpath of a label and a form;

s103, downloading the early warning list and storing the early warning list in a file system.

4. The method for extracting monitoring data oriented to communication infrastructure according to claim 1, wherein: in step S200, reading the early warning list, extracting early warning data and storing the early warning data in a database according to the following steps:

s201, reading the early warning list, recording the updating time of the early warning list, and analyzing and reading the latest early warning list;

s202, extracting the early warning data, forming an incidence relation between a station address and the early warning data, and connecting the station address and the early warning data with the database;

and S203, updating a database table for recording the station address early warning details in the database by referring to the association relation.

5. The method for extracting monitoring data oriented to communication infrastructure according to claim 4, wherein: the station address is a target station address list which needs to be monitored in real time by the user.

6. The method for extracting monitoring data oriented to communication infrastructure according to claim 5, wherein: the early warning data comprises station address codes, administrative areas to which the station addresses belong, station address longitude and latitude, early warning names, early warning occurrence time and early warning processing states.

7. The method for extracting monitoring data oriented to communication infrastructure according to claim 1, wherein in step S300, the initialized site information is a list of sites to be monitored, and the early warning data is displayed according to the following steps:

s301, when a Web display interface is logged in, a background program accesses the database and reads the early warning data of the total number of sites;

s302, displaying the early warning data on a map in a classified manner by calling an interface of a third-party GIS;

and S303, displaying the early warning data statistical result by using a chart plug-in.

8. The method for extracting monitoring data oriented to communication infrastructure according to claim 7, wherein: the jumping icon is used for indicating that early warning exists in the site, red represents that the early warning is not processed, and dark blue represents that the early warning is processed.

9. The method of claim 8, wherein the method comprises: and using a pie chart to represent the number proportion of various types of early warning data, and using a bar chart to represent the number of various types of early warning data.

10. A communication infrastructure-oriented monitoring data extraction system comprising a monitoring assistance robot that performs monitoring using a communication infrastructure-oriented monitoring data extraction method according to any one of claims 1 to 9.

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