CN115665778A - Wireless operation and maintenance method based on multi-dimensional association - Google Patents

Abstract

The invention discloses a wireless operation and maintenance method based on multi-dimensional association, which comprises the following steps: s10: reconstructing an edge terminal communication module; s20: establishing a network management system docking operation Internet of things platform; s30: a matching degree model; s40: and establishing a wireless network relation graph. The wireless operation and maintenance method based on multi-dimensional association can directionally report self-monitoring data through the timing module and regularly trigger to check the network state of an operator. The system is ensured to acquire monitoring information fed back by the equipment in time; when the system is matched, the terminal and the sim card are accurately matched and combined through fuzzy matching of the service name and the terminal name; and adopting multidimensional association through ICCID, mobile phone number and IP address in the association of the terminal and the sim card; the efficiency and the precision of the correlation operation can be greatly improved, meanwhile, the misoperation in manual operation is avoided, and the accuracy is improved; a set of integrated multifunctional wireless network management system is established.

Description

Wireless operation and maintenance method based on multi-dimensional association

Technical Field

The invention relates to the technical field of wireless operation and maintenance, in particular to a wireless operation and maintenance method based on multi-dimensional association.

Background

The communication terminal is used as a tool for providing communication services, and is responsible for providing a good user interface for users, completing required service functions, accessing a communication network and other tasks. The existing operator operation terminal has wide distribution range and distributed points, and a new wireless operation and maintenance scheme must be established for safety, so as to scan the edge terminal and manage and monitor the communication state, the operator network channel state and the terminal identity identification.

The current state of the edge terminal communication module, the state of the operator network channel and the correlation between the service terminal and the communication terminal and the SIM card are all carried out manually, and workers have to go to the site to operate.

In the prior art, a method for manually determining the state of the edge terminal communication module needs a worker to go to the site. In actual operation, because many terminals are remote and distributed dispersedly, a lot of time and manpower are needed to determine an accurate place, the time cost is high, and the efficiency is low; by means of the method for manually overhauling and troubleshooting the network channel state of the operator, the fault range needs to be manually determined, and screening and troubleshooting are carried out, so that the problems of low precision and slow response exist, and when the problems occur, the problems are easily confused with equipment faults and difficult to accurately process; the existing business terminal, communication terminal and SIM card have no established opposite relation, are difficult to clear the relation, and can not be positioned quickly when a fault occurs.

Disclosure of Invention

The invention aims to provide a wireless operation and maintenance method based on multi-dimensional association, so as to solve the problems of the wireless operation and maintenance method based on multi-dimensional association in the market in the prior art.

In order to achieve the purpose, the invention provides the following technical scheme: a wireless operation and maintenance method based on multi-dimensional association comprises the following steps:

s10: reconstructing an edge terminal communication module;

s20: establishing a network management system docking operation Internet of things platform;

s30: a matching degree model;

s40: and establishing a wireless network relation graph.

Preferably, the self-monitoring module is additionally installed in the step S10 to report the self-monitoring data to the network management system at regular time.

Preferably, the operator network status is determined in step S20 through automatic timing or time triggering.

Preferably, in step S20:

the network management system carries out updating and development and is butted with an operator Internet of things platform;

the running state of the operator network is checked in turn by adding automatic timing or event triggering to the system;

when an anomaly occurs in the operator network, time and location markers are made.

Preferably, in step S30, the service terminal, the communication terminal and the SIM card are associated in a multidimensional manner by name fuzzy matching, ICCID, mobile phone number, and IP address.

Preferably, the matching degree rule model used in step S30 is:

a. preferentially matching the names;

b. the communication terminal is matched with the SIM card through ICCID, namely the card number of the SIM card;

c. reading the mobile phone number stored in the SIM card, and marking the terminal corresponding to the SIM card, thereby associating the terminal with the mobile phone number;

d. distributing and recording a fixed ip address of the equipment, and corresponding to the SIM card on the equipment, thereby determining the position of the SIM card;

e. a wireless network management system is established.

Preferably, in step S40, services, devices and a wireless network account are managed, alarm information is monitored, and an interface is provided for external service query.

Compared with the prior art, the invention has the beneficial effects that: the wireless operation and maintenance method based on multi-dimensional association can directionally report self-monitoring data through the timing module and regularly trigger to check the network state of an operator. The system is ensured to acquire monitoring information fed back by the equipment in time; when the system is matched, the terminal and the sim card are accurately matched and combined through fuzzy matching of the service name and the terminal name; and adopting multidimensional association through ICCID, mobile phone number and IP address in the association of the terminal and the sim card; the efficiency and the precision of the associated operation can be greatly improved, meanwhile, the misoperation in manual operation is avoided, and the accuracy is improved; a set of integrated multifunctional wireless network management system is established. The system has the functions of managing services, equipment and a wireless network account in a quasi-real time manner; an alarm function monitoring function; and an external service inquiry interface is developed.

Drawings

FIG. 1 is a schematic view of the step structure 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.

Referring to fig. 1, the present invention provides a technical solution: a wireless operation and maintenance method based on multi-dimensional association comprises the following steps:

s10: reconstructing an edge terminal communication module;

s20: establishing a network management system docking operation Internet of things platform;

s30: a matching degree model;

s40: and establishing a wireless network relation graph.

Further, the self-monitoring module is additionally installed in the step S10 to report the self-monitoring data to the network management system at regular time;

specifically, the edge terminal communication module is modified, the edge terminal communication equipment is preferentially analyzed and positioned, and the identification is made for the edge terminal communication equipment;

checking the obtained equipment, analyzing the equipment version and performance, and judging whether the equipment supports upgrading and reconstruction, if not, replacing the equipment;

and a self-monitoring module is additionally arranged on the equipment meeting the upgrading and reconstruction conditions, so that the equipment has the function of regularly reporting self-monitoring data to a network management system.

Further, in the step S20, the operator network status is determined through automatic timing or time triggering;

and further, updating and developing the network management system, butting an operator Internet of things platform, and marking time and place when the operator network is abnormal.

Further, in step S20:

the network management system carries out updating and development and is butted with an operator Internet of things platform;

the running state of the operator network is checked in turn by adding automatic timing or event triggering to the system;

when an anomaly occurs in the operator network, time and location markers are made.

Further, in step S30, the service terminal, the communication terminal and the SIM card are associated in a multidimensional manner by name fuzzy matching, ICCID, mobile phone number, and IP address.

Further, the matching degree rule model used in step S30 is:

a. preferentially matching the names;

b. the communication terminal is matched with the SIM card through ICCID, namely the card number of the SIM card;

c. reading the mobile phone number stored in the SIM card, and marking the terminal corresponding to the SIM card, thereby associating the terminal with the mobile phone number;

d. distributing and recording a fixed ip address of the equipment, and corresponding to the SIM card on the equipment, thereby determining the position of the SIM card;

e. a wireless network management system is established.

Specifically, names are matched firstly, matching is carried out through the service names and the terminal names, and successful matching is carried out when the matching degree exceeds 80%; when the result is unsuccessful, marking, and changing the matching rule to 80 points;

the communication terminal and the SIM card are matched through ICCID, namely the card number of the SIM card. Recording the ICCID corresponding to the SIM card on each terminal;

reading the mobile phone number stored in the SIM card, and marking the terminal corresponding to the SIM card, thereby associating the terminal with the mobile phone number;

distributing and recording a fixed ip address of the equipment, and corresponding to the SIM card on the equipment, thereby determining the position of the SIM card;

establishing a wireless network management system, wherein the functions comprise:

I. establishing a quasi-real-time service, equipment and a wireless network management ledger, and standardizing management data;

II, setting up an alarm module, collecting and recording alarm information fed back by each terminal, monitoring alarm states and managing the alarm information in a unified manner;

and III, developing an external query interface for querying the quality of the service network. Other service systems can initiate inquiry through the interface and carry out state inquiry on the channel where the service is positioned

Further, in step S40, services, devices and wireless network ledgers are managed, alarm information is monitored, and an interface is provided for external service inquiry.

The system transforms the edge terminal communication module, and reports the self-monitoring data to the network management system at regular time by using the self-monitoring module.

The system associates the acquired service terminal information with the communication terminal and the SIM card through a multi-dimensional association rule, fuzzy and accurate matching.

According to the obtained matching degree result, when the matching degree is greater than or equal to a preset percentage limit value, the system automatically binds the logical port and the physical port; and when the matching degree is smaller than the preset percentage threshold value, notifying a worker to manually confirm and manually binding.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.

Claims (7)

1. A wireless operation and maintenance method based on multi-dimensional association is characterized in that: the method comprises the following steps:

s10: reconstructing an edge terminal communication module;

s20: establishing a network management system docking operation Internet of things platform;

s30: a matching degree model;

s40: and establishing a wireless network relation graph.

2. The wireless operation and maintenance method based on multi-dimensional association as claimed in claim 1, wherein: in the step S10, a self-monitoring module is additionally installed to report self-monitoring data to the network management system at regular time.

3. The wireless operation and maintenance method based on multi-dimensional association as claimed in claim 1, wherein: in step S20, the operator network status is determined by automatic timing or time triggering.

4. The wireless operation and maintenance method based on multi-dimensional association as claimed in claim 1, wherein: in the step S20:

the network management system carries out updating and development and is butted with an operator Internet of things platform;

the running state of the operator network is checked in turn by adding automatic timing or event triggering to the system;

when an anomaly occurs in the operator network, time and location markers are made.

5. The wireless operation and maintenance method based on multi-dimensional association as claimed in claim 1, wherein: in the step S30, the service terminal, the communication terminal and the SIM card are associated in a multidimensional manner by name fuzzy matching, ICCID, mobile phone number, and IP address.

6. The wireless operation and maintenance method based on multi-dimensional association as claimed in claim 1, wherein: the matching degree rule model used in step S30:

a. preferentially matching the name;

b. the communication terminal is matched with the SIM card through ICCID, namely the card number of the SIM card;

c. reading the mobile phone number stored in the SIM card, and marking the terminal corresponding to the SIM card, thereby associating the terminal with the mobile phone number;

d. distributing and recording a fixed ip address of the equipment, and corresponding to the SIM card on the equipment, thereby determining the position of the SIM card;

e. and establishing a wireless network management system.

7. The wireless operation and maintenance method based on multi-dimensional association as claimed in claim 1, wherein: in step S40, the service, the device and the wireless network account are managed, the alarm information is monitored, and an interface is provided for external service inquiry.

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