CN113660678A - 5G internet service monitoring method based on android terminal - Google Patents

Abstract

The invention provides a method for monitoring 5G internet services based on an android terminal, which is characterized in that interactive signaling of the 5G services is acquired based on a real terminal and a real network under the condition that a user mobile phone does not need ROOT; training the interactive signaling by adopting a machine learning model, and identifying a service-domain name-function result; and matching the service-domain name-function according to the service-domain name-function result to obtain a domain name household register library. The method has the advantages that the 5G internet service signaling acquisition capacity of the mobile phone terminal is established, the accurate identification capacity based on the 5G internet service is formed, and the operator is helped to optimize and promote the 5G network. The problems of laggard methods and lack of means in the prior art are solved, and the identification precision of the 5G service and the dial testing quality accuracy can be effectively improved.

Description

5G internet service monitoring method based on android terminal

Technical Field

The invention relates to the technical field of electronic communication, in particular to a 5G internet service monitoring method based on an android terminal.

Background

With the continuous development of 5G networks, China already enters the rapid development period of 5G application, the number of 5G service applications is multiplied, and great challenges are brought to quality monitoring and quality guarantee. The traditional service quality monitoring system can not meet the 5G service monitoring requirement, and a new 5G service quality guarantee and monitoring system is cast in a mobile phone end signaling acquisition, automatic dial-up measurement and problem analysis mode, so that the system is used for 5G network development and national new construction and public service insurance driving and protection navigation.

The current dial testing means is mainly for dial testing of the traditional web page, and long-term monitoring and quality analysis means for 5G services are lacked. The existing monitoring system cannot perform accurate positioning on the found quality difference, and lacks the most powerful evidence that the problem falls to the ground. The existing means can only monitor the quality of web pages, domain names and the like, can not perform positioning analysis on found problems, relies on a large amount of manual statistics to find index degradation, and can not find the problems and position the problems in time through manual packet capturing analysis. The positioning and analysis of the quality difference problem mainly depend on manual work to carry out problem reduction, packet grabbing and analysis, and have low efficiency, poor accuracy and lack of accurate and efficient analysis means.

Disclosure of Invention

The invention aims to provide a 5G internet service monitoring method based on an android terminal.

In order to achieve the purpose, the invention provides the following scheme: A5G internet service monitoring method based on an android terminal comprises the following steps:

acquiring interactive signaling of the 5G service based on a real terminal and a real network under the condition that a user mobile phone does not need ROOT;

training the interactive signaling by adopting a machine learning model, and identifying a service-domain name-function result;

and matching the service-domain name-function according to the service-domain name-function result to obtain a domain name household register library.

Optionally, the acquiring the interactive signaling of the 5G service based on the real terminal and the real network under the condition that the user mobile phone does not need ROOT specifically includes:

based on a real terminal and a real network, under the condition that a user mobile phone does not need ROOT, service interaction signaling collection is carried out on the 5G service;

based on the automatic test function of the non-ROOT terminal, the automatic dial testing of various applications of intelligent medical treatment, news media, intelligent education and intelligent families is realized.

Optionally, the training of the interactive signaling by using a machine learning model, and the identifying of the "service-domain name-function" result specifically includes:

carrying out automatic dial testing on the 5G service, and building, self-repairing and self-improving the service interaction signaling by adopting a learning model;

based on the automatic testing function of the non-ROOT terminal, automatically testing various 5G applications, and combing out a database of 'service-domain name-function';

and training data of the database by adopting a training model, and obtaining an AI business accurate identification model through training, repairing, retraining and repairing.

According to the specific embodiment provided by the invention, the invention discloses the following technical effects: the invention discloses a method for monitoring 5G internet services based on an android terminal, which is characterized in that interactive signaling of the 5G services is acquired based on a real terminal and a real network under the condition that a user mobile phone does not need ROOT; training the interactive signaling by adopting a machine learning model, and identifying a service-domain name-function result; and matching the service-domain name-function according to the service-domain name-function result to obtain a domain name household register library. The method has the advantages that the 5G internet service signaling acquisition capacity of the mobile phone terminal is established, the accurate identification capacity based on the 5G internet service is formed, and the operator is helped to optimize and promote the 5G network. The problems of laggard methods and lack of means in the prior art are solved, and the identification precision of the 5G service and the dial testing quality accuracy can be effectively 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 embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without inventive exercise.

Fig. 1 is a flowchart of a 5G internet service monitoring method based on an android terminal provided by the 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.

The invention aims to provide a 5G internet service monitoring method based on an android terminal.

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in further detail below.

As shown in fig. 1, a 5G internet service monitoring method based on an android terminal includes:

acquiring interactive signaling of the 5G service based on a real terminal and a real network under the condition that a user mobile phone does not need ROOT, and performing service interactive signaling acquisition on the 5G service; based on the automatic test function of the non-ROOT terminal, the automatic dial testing of various applications of intelligent medical treatment, news media, intelligent education and intelligent families is realized.

Training the interactive signaling by adopting a machine learning model, and identifying a service-domain name-function result; carrying out automatic dial testing on the 5G service, and building, self-repairing and self-improving the service interaction signaling by adopting a learning model; based on the automatic testing function of the non-ROOT terminal, automatically testing various 5G applications, and combing out a database of 'service-domain name-function'; and training data of the database by adopting a training model, and obtaining an AI business accurate identification model through training, repairing, retraining and repairing.

By combining a machine self-learning technology, the 5G service is automatically dial-tested, and service interaction signaling is subjected to the processes of learning model building, model self-repairing and self-improvement, so that the purpose of accurately identifying the service-domain name-function is realized.

The method comprehensively considers the contents of various aspects such as data characteristics, size, application direction and the like, is carried out through multiple rounds of exploration and experiments, and finally adopts a learning algorithm as a neural network, and repeated trial and error and supervised learning are the places where the neural network is most different from other algorithms.

And (4) data storage: based on the automatic testing function of the non-ROOT terminal, the 5G applications are automatically tested, and therefore a massive database of 'service-domain name-function' is combed out.

Training a model: the time required to train the model varies greatly between different algorithms, often closely related to the model accuracy, and in brief, the longer the training time may be, the higher the model accuracy.

And (3) perfecting an algorithm: through the continuous process of training, repairing, retraining and repairing, the model algorithm is perfected, and finally a final model for accurately identifying the AI service is formed, so that the identification is more accurate.

Active repair: the algorithm is actively repaired through continuous training of the model, and the accuracy and the fitting degree of the algorithm are improved through a continuous training-repairing cycle process, so that the final purpose is achieved.

And matching the service-domain name-function according to the service-domain name-function result to obtain a domain name household register library. The method comprises the steps of performing accurate business identification and identification of AI (Artificial intelligence), performing accurate matching of 'business-domain name-function', forming a huge and delicate unique domain name household register library, forming a directional long-acting dial testing means for the business by utilizing the non-ROOT automatic testing capability, and really performing accurate identification, long-acting monitoring, problem-making and checking of information such as a temporary storage table account, detailed material in-out library, flow direction and the like.

Has the advantages that:

make up the short 5G service analysis board at the mobile phone end: the 5G era casting intelligent network application monitoring system makes up the defects of 5G service analysis at the mobile phone end, realizes an integrated means of packet capturing and test analysis of service signaling at the mobile phone end, assists the 5G network development, and improves the 5G service quality guarantee capability;

and (3) operating mode transition: the 5G service problem analysis and positioning gives consideration to services and terminal interaction signaling, the conversion from 'seeing network indexes' to 'seeing service perception' is realized, and the conversion from 'making index statistics' to 'making signaling analysis' is realized. The thinking that the operation and maintenance work jumps out of the network pipeline operation and maintenance is embodied, and the operation and maintenance work can go deep into the network pipeline operation and maintenance work (bottom layer signaling) and can also go beyond the network pipeline operation and maintenance work (client perception).

The positioning accuracy is improved: in the aspect of problem positioning accuracy, the automatic signaling acquisition and analysis application based on the terminal greatly improves the accuracy of the problem positioning by about 30 percent compared with the accuracy of the conventional method.

The work efficiency promotes: the number of network abnormal problems accurately positioned every day is improved by more than 5 times than before, the time for processing the closed loop of the abnormal problems is shortened by about 50%, 140 APP are tested, 7426 related service domain names are obtained by obtaining the service domain names, 10 times of fault location and fault location are carried out on poor service domains, 46 poor service domain names are found, and 35 poor service domain names are improved through cache and accelerated optimization.

Economic benefit: the cost is saved, the construction of the quality of the first-line production change control is improved through a new 5G intelligent network application monitoring system, the content network quality of operators and the efficiency and quality of customer support are improved, the personnel configuration and the cost investment are effectively reduced, and better economic and comprehensive benefits are created for companies.

Before the project is implemented: the Henan mobile content quality support is assisted to reduce cost and improve efficiency, 2 persons are required to be invested in each city of traditional mobile network content quality monitoring, 2 persons are required to be invested in complaint handling, the human cost is calculated according to 15 ten thousand per person per year, and the human cost is 880 ten thousand per year in the whole province.

After the project is implemented: at present, only 4 people are invested in the province company, the labor cost is 60 ten thousand yuan per year, and the system construction cost is 170 ten thousand yuan.

The cost is saved: 888, 60, 170, 658 ten thousand, the total annual accumulated labor cost saved 658 ten thousand yuan!

Social benefits are as follows: comprehensively improves the perception of customers, practices the idea of taking China mobile customers as the root and serving as the basis

Direct social benefits: by monitoring the 5G application service quality, the client perception problem is quickly delimited, positioned and solved, the poor quality content is quickly solved, the client perception and the client loyalty are comprehensively improved, and the concept of serving as the basis of China mobile clients is practiced.

Indirect social benefits: through the construction and application of the 5G network application monitoring system, the new service quality monitoring efficiency is saved, the content quality working efficiency is greatly improved, the optimization cost is compressed, and the call for cost reduction, efficiency improvement and cost reduction of the country is responded.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

The principles and embodiments of the present invention have been described herein using specific examples, which are provided only to help understand the method and the core concept of the present invention; meanwhile, for a person skilled in the art, according to the idea of the present invention, the specific embodiments and the application range may be changed. In view of the above, the present disclosure should not be construed as limiting the invention.

Claims (3)

1. A5G internet service monitoring method based on an android terminal is characterized by comprising the following steps:

acquiring interactive signaling of the 5G service based on a real terminal and a real network under the condition that a user mobile phone does not need ROOT;

training the interactive signaling by adopting a machine learning model, and identifying a service-domain name-function result;

and matching the service-domain name-function according to the service-domain name-function result to obtain a domain name household register library.

2. The android terminal-based 5G Internet service monitoring method of claim 1, wherein the acquiring of the interactive signaling of the 5G service based on the real terminal and the real network without a ROOT on a user mobile phone specifically comprises:

based on a real terminal and a real network, under the condition that a user mobile phone does not need ROOT, service interaction signaling collection is carried out on the 5G service;

based on the automatic test function of the non-ROOT terminal, the automatic dial testing of various applications of intelligent medical treatment, news media, intelligent education and intelligent families is realized.

3. The android terminal-based 5G Internet service monitoring method of claim 1, wherein the training of the interactive signaling by using a machine learning model specifically comprises the following steps:

carrying out automatic dial testing on the 5G service, and building, self-repairing and self-improving the service interaction signaling by adopting a learning model;

based on the automatic testing function of the non-ROOT terminal, automatically testing various 5G applications, and combing out a database of 'service-domain name-function';

and training data of the database by adopting a training model, and obtaining an AI business accurate identification model through training, repairing, retraining and repairing.

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