CN113207146B - Wireless communication network quality monitoring system and method - Google Patents

Abstract

The invention is applicable to the technical field of wireless communication, and particularly relates to a wireless communication network quality monitoring system and a method, wherein the method comprises the following steps: sending a test data packet to the network equipment according to the network time; acquiring a feedback data packet from the network equipment, and analyzing the transmission condition of the test network between the network equipment and the test network equipment to obtain a test network analysis report; acquiring a wireless network work log, analyzing the transmission condition of a work network, and acquiring a work network analysis report; and analyzing the working network analysis report according to the test network analysis report to generate a network quality monitoring result. According to the invention, the server and the mobile terminal are subjected to wireless network data transmission test when the network occupation is small, whether the current wireless network has data transmission faults or not is judged, the data transmission in the working time of the wireless network is checked, whether the working time has network transmission quality problems or not is judged, and finally, a network quality monitoring result is formed, so that a user can conveniently diagnose the network problems.

Description

Wireless communication network quality monitoring system and method

Technical Field

The invention belongs to the technical field of wireless communication, and particularly relates to a wireless communication network quality monitoring system and a wireless communication network quality monitoring method.

Background

A communication method of transmitting information by radio waves is called radio communication, and it can transmit voice, text, data, images, and the like. Wireless communication has the advantages of long transmission distance, flexible setup and quick connection, and is therefore widely used in today's society.

In current wireless communication networks, wireless communication technologies used by mobile devices such as mobile phones are most commonly wireless networks used in areas. For example, in a home environment, a wired network is generally converted into a wireless network by using a wireless router, a mobile device used by a user directly establishes a network connection with the wireless router in a wireless connection manner, and one wireless router can simultaneously connect a plurality of mobile devices, that is, a plurality of mobile devices are on the internet at the same time.

Because the stability of the local area wireless network constructed by the wireless router is poor, no matter network fluctuation exists or signal transmission is blocked, the network quality is reduced, a user requiring high network quality is troubled, the user cannot know the reason of the network quality reduction, autonomous investigation cannot be carried out, the investigation is often carried out by professional technicians, and the consumption of financial resources and material resources is caused.

Disclosure of Invention

The embodiment of the invention aims to provide a method for monitoring the quality of a wireless communication network, and aims to solve the problems in the background art.

The embodiment of the invention is realized in such a way that a method for monitoring the quality of a wireless communication network comprises the following steps:

acquiring network time, and sending a test data packet to network equipment according to the network time, wherein the test data packet comprises a terminal test data packet sent to a mobile terminal and a cloud test data packet sent to a server;

acquiring a feedback data packet from the network equipment, and analyzing the transmission condition of the test network between the network equipment and the feedback data packet and the test data packet to obtain a test network analysis report;

acquiring a wireless network working log, and analyzing the transmission condition of a working network according to the wireless network working log to obtain a working network analysis report, wherein the working network analysis report at least comprises a working data loss rate, a working data loss amount, a working network delay and a real-time data transmission amount within working time;

and analyzing the working network analysis report according to the test network analysis report to generate a network quality monitoring result.

Preferably, the step of acquiring the network time and sending the test data packet to the network device according to the network time specifically includes:

acquiring network time, and sending a terminal test data packet to the mobile terminal according to the network time;

and sending a cloud test data packet to the server according to the transmission quantity of the wired network data.

Preferably, the step of obtaining the feedback data packet from the network device and obtaining the test network analysis report according to the analysis of the feedback data packet and the test network transmission condition between the network device specifically includes:

acquiring a terminal feedback data packet from a mobile terminal, wherein the terminal feedback data packet at least comprises terminal receiving time when the mobile terminal receives a terminal test data packet and test data contained in the terminal test data packet;

acquiring a cloud feedback data packet from a server, wherein the cloud feedback data packet at least comprises cloud receiving time when the server receives the cloud feedback data packet and test data contained in the cloud feedback data packet;

comparing the test data contained in the terminal feedback data packet with the test data contained in the terminal test data packet, comparing the test data contained in the cloud test data packet with the test data contained in the cloud feedback data packet, and calculating to obtain a test data loss rate and a test data loss amount;

and calculating to obtain the transmission delay of the test data according to the terminal receiving time and the cloud receiving time, and generating a test network analysis report.

Preferably, the step of obtaining the wireless network work log, analyzing a transmission condition of the work network according to the wireless network work log, and obtaining a work network analysis report includes:

acquiring a wireless network working log, wherein the wireless network working log at least comprises real-time data transmission quantity, working network delay and working data loss rate in working time;

establishing a coordinate system, and marking the real-time data transmission quantity in the coordinate system according to a time sequence to obtain a working data transmission curve;

and calculating to obtain the transmission rate of the working network according to the working data transmission curve, and generating a working network analysis report.

Preferably, the step of analyzing the working network analysis report according to the test network analysis report to generate a network quality monitoring result specifically includes:

obtaining a self-checking result according to the test network analysis report;

establishing a mapping function according to the test network analysis report;

checking the loss rate of the working data, the loss amount of the working data and the delay of a working network by using a mapping function to obtain a checking result;

and generating a network quality monitoring result according to the self-checking result and the checking result.

Preferably, the sending of the test data packet to the network device according to the network time is repeated at least once.

Preferably, after the step of obtaining the network time, the step of obtaining the network time further comprises judging whether to send out a test data packet according to the network time.

Another object of an embodiment of the present invention is to provide a wireless communication network quality monitoring system, which is characterized in that the wireless communication network quality monitoring system includes:

the test data sending module is used for acquiring network time and sending a test data packet to the network equipment according to the network time, wherein the test data packet comprises a terminal test data packet sent to the mobile terminal and a cloud test data packet sent to the server;

the feedback data acquisition module is used for acquiring a feedback data packet from the network equipment and analyzing the transmission condition of the test network between the network equipment and the feedback data packet and the test data packet to obtain a test network analysis report;

the log acquisition and analysis module is used for acquiring a wireless network working log and analyzing the transmission condition of a working network according to the wireless network working log to obtain a working network analysis report, wherein the working network analysis report at least comprises a working data loss rate, a working data loss amount, a working network delay and a real-time data transmission amount within working time;

and the network quality analysis module is used for analyzing the working network analysis report according to the test network analysis report to generate a network quality monitoring result.

Preferably, the test data sending module includes:

the terminal test data sending unit is used for acquiring network time and sending a terminal test data packet to the mobile terminal according to the network time;

and the cloud test data sending unit is used for sending a cloud test data packet to the server according to the wired network data transmission quantity.

Preferably, the feedback data acquiring module includes:

the terminal feedback data receiving unit is used for acquiring a terminal feedback data packet from the mobile terminal, wherein the terminal feedback data packet at least comprises terminal receiving time of the mobile terminal receiving the terminal test data packet and test data contained in the terminal test data packet;

the cloud feedback data receiving unit is used for acquiring a cloud feedback data packet from the server, wherein the cloud feedback data packet at least comprises cloud receiving time when the server receives the cloud feedback data packet and test data contained in the cloud feedback data packet;

the data comparison unit is used for comparing the test data contained in the terminal feedback data packet with the test data contained in the terminal test data packet, comparing the test data contained in the cloud test data packet with the test data contained in the cloud feedback data packet, and calculating to obtain a test data loss rate and a test data loss amount;

and the report generating unit is used for calculating to obtain the transmission delay of the test data according to the terminal receiving time and the cloud receiving time and generating a test network analysis report.

According to the wireless communication network quality monitoring method provided by the embodiment of the invention, wireless network data transmission tests are carried out on the server and the mobile terminal when the network occupation is small, whether a data transmission fault exists in the current wireless network is judged, data transmission in the working time of the wireless network is checked, whether a network transmission quality problem exists in the working time is judged, a network quality monitoring result is finally formed, and a user can conveniently diagnose the network problem.

Drawings

Fig. 1 is an application environment diagram of a method for monitoring quality of a wireless communication network according to an embodiment of the present invention;

fig. 2 is a flowchart of a method for monitoring quality of a wireless communication network according to an embodiment of the present invention;

FIG. 3 is a flowchart illustrating steps for sending test packets to a network device according to network time according to an embodiment of the present invention;

FIG. 4 is a flowchart of steps provided in an embodiment of the present invention to obtain a test network analysis report;

fig. 5 is a flowchart of obtaining a work network analysis report according to a wireless network work log analysis according to an embodiment of the present invention;

FIG. 6 is a flowchart illustrating steps for generating a network quality monitoring result according to a test network analysis report parsing operation network analysis report according to an embodiment of the present invention;

fig. 7 is an architecture diagram of a wireless communication network quality monitoring system according to an embodiment of the present invention;

FIG. 8 is an architecture diagram of a test data transmission module according to an embodiment of the present invention;

fig. 9 is an architecture diagram of a feedback data acquisition module according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

It will be understood that, as used herein, the terms "first," "second," and the like may be used herein to describe various elements, but these elements are not limited by these terms unless otherwise specified. These terms are only used to distinguish one element from another. For example, a first xx script may be referred to as a second xx script, and similarly, a second xx script may be referred to as a first xx script, without departing from the scope of the present application.

In the prior art, a local area wireless network constructed by a wireless router has poor stability, network quality is reduced no matter network fluctuation exists or signal transmission is blocked, a user requiring high network quality can be troubled, the user cannot know the reason of the network quality reduction, autonomous investigation cannot be carried out, professional technicians are often required to carry out the investigation, and thus financial and material resources are consumed.

In the invention, the server and the mobile terminal are subjected to wireless network data transmission test when the network occupation is small, whether the current wireless network has data transmission faults or not is judged, the data transmission in the working time of the wireless network is checked, whether the working time has network transmission quality problems or not is judged, and finally, a network quality monitoring result is formed, so that a user can conveniently diagnose the network problems.

Fig. 1 is an application environment diagram of a method for monitoring quality of a wireless communication network according to an embodiment of the present invention, as shown in fig. 1, the application environment includes a mobile terminal, a wireless router, and a server, where the mobile terminal may be a device with a wireless connection function, such as a mobile phone, a tablet computer, and a notebook computer; the wireless router is used for user to surf the internet, has a wireless coverage function and can be regarded as a repeater; the server may be an independent physical server or terminal, may also be a server cluster formed by a plurality of physical servers, and may be a cloud server providing basic cloud computing services such as a cloud server, a cloud database, a cloud storage, a CDN, and the like.

Fig. 2 provides a method for monitoring quality of a wireless communication network according to an embodiment of the present invention, where the method includes:

s100, network time is obtained, and a test data packet is sent to the network equipment according to the network time, wherein the test data packet comprises a terminal test data packet sent to the mobile terminal and a cloud test data packet sent to the server.

In this step, the network time is obtained, and before that, the position of the current wireless router needs to be judged according to the IP address, acquiring corresponding network time according to the position of the wireless router, for example, if the current router position is judged to be a certain province in China through an IP address, acquiring Beijing time from the network, judging whether the current time is the rest time according to the Beijing time, for example, setting one point in the morning to four points in the morning every day as the rest time, the rest time is working time, in the rest time, the equipment connected with the wireless router is gradually reduced, the data throughput is also gradually reduced, the normal use of the user is not influenced when the test is carried out, of course, in order to improve the accuracy of distinguishing the rest time, the network activity in the wireless router can be used for judging, and the test can be carried out when the activity is low and the rest time is reached; when testing is carried out, a terminal test data packet sent to the mobile terminal and a cloud test data packet sent to the server are sent out simultaneously; of course, in order to ensure the accuracy of the test, the test data packet may be sent to the network device at least once repeatedly according to the network time, preferably, three times, and the average value of the three test results is obtained.

After the step, the time is judged according to the network time, and if the time is the working time, the test data packet is not sent out, so that the influence on the normal use of the user is avoided.

S200, obtaining a feedback data packet from the network equipment, and analyzing the transmission condition of the test network between the network equipment and the test data packet according to the feedback data packet and the test data packet to obtain a test network analysis report.

In this step, the feedback data packets are acquired from the mobile terminal and the server, respectively, and the network device includes the mobile terminal and the server, because the network quality problem is related to the wired transmission process between the server and the wireless router and the transmission process between the wireless router and the mobile terminal in addition to the wireless router itself, and therefore the cause of the network quality problem can be discriminated by detecting these three directions.

S300, acquiring a wireless network working log, analyzing the working network transmission condition according to the wireless network working log to obtain a working network analysis report, wherein the working network analysis report at least comprises a working data loss rate, a working data loss amount, a working network delay and a real-time data transmission amount within working time.

In this step, a wireless network working log is obtained, which is obtained from the mobile terminal and records the situation that the mobile terminal uses a wireless network on the same day, wherein the data specifically includes the data volume transmitted at each moment and the value of the working network delay at the moment, and a working network analysis report is obtained by comprehensively analyzing the data, and the working network analysis report can be used for respectively recording the content recorded in the wireless network working log, and the data is recorded according to a fixed format so as to be convenient for comparison with a test network analysis report.

And S400, analyzing the working network analysis report according to the test network analysis report to generate a network quality monitoring result.

In this step, the analysis report of the test network is analyzed, so as to diagnose the wired transmission process between the server and the wireless router and the transmission process between the wireless router and the mobile terminal, and determine whether the wireless router has a data transmission problem; and then establishing a corresponding judgment function according to the test network analysis report, and substituting the data in the working network analysis report into the judgment function, so as to diagnose the data in the working network analysis report, thereby judging whether the data transmission between the mobile terminal and the wireless router has problems or not in the working time, wherein the network quality problems comprise high network delay, high data loss rate, low network transmission speed and the like, so that the wired transmission process among the wireless router, the server and the wireless router and the transmission process among the wireless router and the mobile terminal are diagnosed, and finally, a network quality monitoring result is generated so as to determine the reason causing the network quality problems.

As shown in fig. 3, as a preferred embodiment of the present invention, the step of acquiring the network time and sending the test data packet to the network device according to the network time specifically includes:

s101, obtaining network time, and sending a terminal test data packet to the mobile terminal according to the network time.

In this step, network time is acquired, whether the current time is at rest time is judged according to the network time, if the current time is at rest time, a terminal test data packet is sent to the mobile terminal, the mobile terminal can be a mobile phone, a tablet computer or a notebook computer, and when the mobile terminal is selected, equipment with low use possibility at rest time such as the tablet computer and the notebook computer can be preferentially selected.

And S102, sending a cloud test data packet to the server according to the transmission quantity of the wired network data.

In this step, the current network data transmission amount is acquired, the occupancy rate of the current wired transmission channel is judged, if the occupancy rate is high, it is indicated that a large amount of data transmission is currently performed, at this time, sending out the cloud test data packet will affect normal data transmission, and only when the occupancy rate is low, the cloud test data packet is sent to the server.

As shown in fig. 4, as a preferred embodiment of the present invention, the step of obtaining a feedback data packet from a network device, and obtaining a test network analysis report according to analysis of the feedback data packet and the test data packet and a test network transmission condition between the network device specifically includes:

s201, a terminal feedback data packet is obtained from the mobile terminal, wherein the terminal feedback data packet at least comprises terminal receiving time when the mobile terminal receives the terminal test data packet and test data contained in the terminal test data packet.

In this step, a terminal feedback data packet is obtained from the mobile terminal, the terminal feedback data packet records terminal receiving time, the terminal receiving time should include a time when the mobile terminal starts receiving and a time when receiving is completed, and a time for sending the terminal feedback data packet is recorded in the terminal feedback data packet, and the mobile terminal sends all test data contained in the terminal test data packet back to the wireless router.

S202, a cloud feedback data packet is obtained from the server, wherein the cloud feedback data packet at least comprises cloud receiving time when the server receives the cloud feedback data packet and test data contained in the cloud feedback data packet.

In this step, a cloud feedback data packet is obtained from the server, the cloud feedback data packet records cloud receiving time, the cloud receiving time should include a time when the server starts receiving and a time when receiving is completed, the time for sending the cloud feedback data packet is recorded in the cloud feedback data packet, and the server sends all test data contained in the cloud feedback data packet back to the wireless router.

S203, comparing the test data contained in the terminal feedback data packet with the test data contained in the terminal test data packet, comparing the test data contained in the cloud test data packet with the test data contained in the cloud feedback data packet, and calculating to obtain the test data loss rate and the test data loss amount.

In this step, the test data contained in the terminal feedback data packet is compared with the test data contained in the terminal test data packet, after the terminal feedback data packet returns to the wireless router, whether data loss exists or not is judged through comparison, the data loss rate is calculated, similarly, the test data contained in the cloud test data packet is compared with the test data contained in the cloud feedback data packet, and the test data loss amount and the data loss rate are recorded.

And S204, calculating to obtain the transmission delay of the test data according to the terminal receiving time and the cloud receiving time, and generating a test network analysis report.

In this step, the terminal receiving time includes the time when the mobile terminal starts receiving and the time when receiving is completed, the cloud receiving time includes the time when the server starts receiving and the time when receiving is completed, the transmission delay of the test data can be obtained by the difference value between the time when the wireless router sends the terminal test data packet and the time when the mobile terminal starts receiving the terminal test data packet, and the data transmission speed can be calculated according to the size of the terminal test data packet, the time when the mobile terminal starts receiving and the time when receiving is completed; similarly, the transmission delay of the test data can be obtained through the difference value between the time when the wireless router sends the cloud test data packet and the time when the server starts to receive the cloud test data packet, the data transmission speed can be obtained through calculation according to the size of the cloud test data packet, the time when the server starts to receive and the time when the receiving is completed, a test network analysis report is finally generated, and the judgment can be carried out according to the data transmission delay, the data loss rate and the data transmission speed.

As shown in fig. 5, as a preferred embodiment of the present invention, the step of obtaining a wireless network work log, analyzing a transmission condition of a work network according to the wireless network work log, and obtaining a work network analysis report specifically includes:

s301, a wireless network working log is obtained, wherein the wireless network working log at least comprises real-time data transmission quantity, working network delay and working data loss rate in working time.

S302, establishing a coordinate system, and marking the real-time data transmission quantity in the coordinate system according to a time sequence to obtain a working data transmission curve.

In this step, a wireless network working log is obtained from the mobile terminal, which records the situation that the mobile terminal uses the wireless network on the same day, wherein the data volume transmitted at each moment and the working network delay value at the moment are specifically included, the coordinate system is a rectangular coordinate system, when the coordinate system is established, the time is taken as an abscissa, the data volume transmitted at each moment is taken as an ordinate, and then the points in the coordinate system are connected by a smooth curve.

And S303, calculating to obtain the transmission rate of the working network according to the working data transmission curve, and generating a working network analysis report.

In this step, points are continuously fetched on the curve according to a preset step pitch, the step pitch may be 10ms, specifically, the steps may be selected according to needs, of course, the smaller the step pitch is, for example, 5ms is selected as the step pitch, the data processing amount of the steps will be larger, and similarly, the data processing amount will be correspondingly reduced when the step pitch is 20 ms; and calculating the curvature of each point after the point is taken, thereby obtaining the transmission rate of the working network of each point.

As shown in fig. 6, as a preferred embodiment of the present invention, the step of analyzing the working network analysis report according to the test network analysis report to generate a network quality monitoring result specifically includes:

s401, obtaining a self-checking result according to the test network analysis report.

In this step, the data transmission delay, the data loss rate, and the data transmission speed in the test network analysis report are read, the data transmission delay, the data loss rate, and the data transmission speed are compared with the preset delay, the preset loss rate, and the preset transmission speed, and when the data transmission delay is higher than the preset delay, the data loss rate is higher than the preset loss rate, and the data transmission speed is lower than the preset transmission speed, it is determined that there is an abnormality in the wired transmission process between the server and the wireless router or the transmission process between the wireless router and the mobile terminal.

S402, establishing a mapping function according to the test network analysis report.

In this step, the size of the test data packet in the test network analysis report is used as an independent variable, and the data transmission delay, the data loss rate and the data transmission speed are used as dependent variables respectively, so as to establish a mapping relation, and taylor expansion approximation is used to obtain three groups of approximation functions.

And S403, checking the loss rate of the working data, the loss amount of the working data and the delay of the working network by using the mapping function to obtain a checking result.

In this step, the real-time data transmission amount in the work network analysis report is substituted into the approximation function, and then a data loss rate calculation value, a work data loss amount calculation value and a work network delay calculation value are respectively obtained, and by comparing the data loss rate calculation value, the work data loss amount calculation value and the work network delay calculation value with the work data loss rate, the work data loss amount and the work network delay recorded in the work network analysis report, whether data transmission abnormality occurs in the work time can be judged, and a check result is obtained.

And S404, generating a network quality monitoring result according to the self-checking result and the checking result.

In this step, the self-checking result is used to determine whether there is an abnormality in the data transmission process in which the wireless router participates in the test time period; and the checking result is used for judging whether the data transmission process is abnormal in the working time, and finally, the judgment result is recorded in the network quality monitoring result.

As shown in fig. 7, a wireless communication network quality monitoring system provided by the present invention includes:

the test data sending module 100 is configured to obtain network time, and send a test data packet to the network device according to the network time, where the test data packet includes a terminal test data packet sent to the mobile terminal and a cloud test data packet sent to the server.

In the system, the test data sending module 100 obtains the network time, and needs to determine the current position of the wireless router according to the IP address before that, and obtains the corresponding network time according to the position of the wireless router, and sends the terminal test data packet sent to the mobile terminal and the cloud test data packet sent to the server at the same time when performing the test.

The feedback data obtaining module 200 is configured to obtain a feedback data packet from the network device, and obtain a test network analysis report according to analysis of the feedback data packet and the test data packet and a test network transmission condition between the network device and the network device.

In the system, the feedback data obtaining module 200 obtains feedback data packets from the mobile terminal and the server, respectively, and the network device includes the mobile terminal and the server.

The log obtaining and analyzing module 300 is configured to obtain a wireless network working log, and analyze a working network transmission condition according to the wireless network working log to obtain a working network analysis report, where the working network analysis report at least includes a working data loss rate, a working data loss amount, a working network delay, and a real-time data transmission amount within a working time.

In the system, the log obtaining and analyzing module 300 obtains a wireless network working log, which is obtained from a mobile terminal and records the wireless network usage of the mobile terminal on the same day, wherein the wireless network working log specifically includes the data volume transmitted at each moment and the working network delay value at the moment, and a working network analysis report is obtained by comprehensively analyzing the data.

And a network quality analysis module 400, configured to analyze the working network analysis report according to the test network analysis report, and generate a network quality monitoring result.

In the system, a test network analysis report is analyzed, so that a wired transmission process between a server and a wireless router and a transmission process between the wireless router and a mobile terminal are diagnosed, and whether the wireless router has a data transmission problem or not is judged; and then establishing a corresponding judgment function according to the test network analysis report, and substituting the data in the working network analysis report into the judgment function so as to diagnose the data in the working network analysis report.

As shown in fig. 8, the test data sending module provided by the present invention includes:

and the terminal test data sending unit 101 is configured to obtain network time and send a terminal test data packet to the mobile terminal according to the network time.

In the module, network time is obtained, whether the current time is in the rest time or not is judged according to the network time, and if the current time is in the rest time, a terminal test data packet is sent to the mobile terminal.

The cloud test data sending unit 102 is configured to send a cloud test data packet to the server according to the data transmission amount of the wired network.

In the module, the current network data transmission quantity is obtained, the current occupancy rate of the wired transmission channel is judged, if the occupancy rate is high, the current data transmission is carried out in a large quantity, the cloud test data packet is sent to influence the normal data transmission, and only when the occupancy rate is low, the cloud test data packet is sent to the server.

As shown in fig. 9, the feedback data acquiring module provided in the present invention includes:

a terminal feedback data receiving unit 201, configured to obtain a terminal feedback data packet from the mobile terminal.

In this module, the terminal feedback data receiving unit 201 obtains a terminal feedback data packet from the mobile terminal, where the terminal feedback data packet at least includes terminal receiving time when the mobile terminal receives the terminal test data packet and test data included in the terminal test data packet.

The cloud feedback data receiving unit 202 is configured to obtain a cloud feedback data packet from a server.

In this module, the cloud feedback data receiving unit 202 obtains a cloud feedback data packet from the server, the cloud feedback data packet records cloud receiving time, the cloud receiving time should include a time when the server starts receiving and a time when receiving is completed, the time for sending the cloud feedback data packet is recorded in the cloud feedback data packet, and the server sends all test data contained in the cloud feedback data packet back to the wireless router.

The data comparison unit 203 is configured to compare test data included in the terminal feedback data packet with test data included in the terminal test data packet, compare test data included in the cloud test data packet with test data included in the cloud feedback data packet, and calculate a test data loss rate and a test data loss amount.

In this module, the data comparison unit 203 compares the test data contained in the terminal feedback data packet with the test data contained in the terminal test data packet, and after the terminal feedback data packet returns to the wireless router, the terminal feedback data packet is compared to determine whether there is a data loss condition, and the data loss rate is calculated.

The report generating unit 204 is configured to calculate a transmission delay of the test data according to the terminal receiving time and the cloud receiving time, and generate a test network analysis report.

In this module, the report generating unit 204 calculates the data transmission speed and the data transmission delay between the mobile terminal and the wireless router and the data transmission speed and the data transmission delay between the server and the wireless router.

It should be understood that, although the steps in the flowcharts of the embodiments of the present invention are shown in sequence as indicated by the arrows, the steps are not necessarily performed in sequence as indicated by the arrows. The steps are not performed in the exact order shown and described, and may be performed in other orders, unless explicitly stated otherwise. Moreover, at least a portion of the steps in various embodiments may include multiple sub-steps or multiple stages that are not necessarily performed at the same time, but may be performed at different times, and the order of performance of the sub-steps or stages is not necessarily sequential, but may be performed in turn or alternately with other steps or at least a portion of the sub-steps or stages of other steps.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (9)

1. A method for wireless communication network quality monitoring, the method comprising:

acquiring network time, judging whether the current time is in rest time according to the network time, and if the current time is in rest time, sending a test data packet to network equipment, wherein the test data packet comprises a terminal test data packet sent to a mobile terminal and a cloud test data packet sent to a server;

acquiring a feedback data packet from the network equipment, and analyzing the transmission condition of the test network between the network equipment and the feedback data packet and the test data packet to obtain a test network analysis report;

acquiring a wireless network working log, and analyzing the transmission condition of a working network according to the wireless network working log to obtain a working network analysis report, wherein the working network analysis report at least comprises a working data loss rate, a working data loss amount, a working network delay and a real-time data transmission amount within working time;

analyzing the working network analysis report according to the test network analysis report to generate a network quality monitoring result;

the step of analyzing the working network analysis report according to the test network analysis report to generate a network quality monitoring result specifically comprises:

obtaining a self-checking result according to the test network analysis report;

establishing a mapping function according to the test network analysis report;

checking the loss rate of the working data, the loss amount of the working data and the delay of a working network by using a mapping function to obtain a checking result;

and generating a network quality monitoring result according to the self-checking result and the checking result.

2. The method for monitoring quality of a wireless communication network according to claim 1, wherein the step of acquiring network time, determining whether the network time is currently in a rest time according to the network time, and if the network time is in the rest time, sending a test data packet to the network device specifically includes:

acquiring network time, judging whether the current time is in the rest time according to the network time, and if the current time is in the rest time, sending a terminal test data packet to the mobile terminal;

and sending a cloud test data packet to the server according to the transmission quantity of the wired network data.

3. The method for monitoring quality of a wireless communication network according to claim 2, wherein the step of obtaining a feedback data packet from the network device and analyzing a test network transmission condition between the network device and the network device according to the feedback data packet and the test data packet to obtain a test network analysis report specifically comprises:

acquiring a terminal feedback data packet from a mobile terminal, wherein the terminal feedback data packet at least comprises terminal receiving time when the mobile terminal receives a terminal test data packet and test data contained in the terminal test data packet;

acquiring a cloud feedback data packet from a server, wherein the cloud feedback data packet at least comprises cloud receiving time when the server receives the cloud feedback data packet and test data contained in the cloud feedback data packet;

comparing the test data contained in the terminal feedback data packet with the test data contained in the terminal test data packet, comparing the test data contained in the cloud test data packet with the test data contained in the cloud feedback data packet, and calculating to obtain a test data loss rate and a test data loss amount;

and calculating to obtain the transmission delay of the test data according to the terminal receiving time and the cloud receiving time, and generating a test network analysis report.

4. The method for monitoring the quality of the wireless communication network according to claim 1, wherein the step of obtaining the wireless network work log, analyzing the transmission condition of the work network according to the wireless network work log, and obtaining the work network analysis report specifically comprises:

acquiring a wireless network working log, wherein the wireless network working log at least comprises real-time data transmission quantity, working network delay and working data loss rate in working time;

establishing a coordinate system, and marking the real-time data transmission quantity in the coordinate system according to a time sequence to obtain a working data transmission curve;

and calculating to obtain the transmission rate of the working network according to the working data transmission curve, and generating a working network analysis report.

5. The method of claim 1, wherein the sending test packets to the network device according to the network time is repeated at least once.

6. The method of claim 1, wherein the step of obtaining network time further comprises determining whether to send out a test packet according to network time.

7. A wireless communication network quality monitoring system, the wireless communication network quality monitoring system comprising:

the test data sending module is used for acquiring network time, judging whether the network time is in the rest time or not at present according to the network time, and sending a test data packet to the network equipment if the network time is in the rest time, wherein the test data packet comprises a terminal test data packet sent to the mobile terminal and a cloud test data packet sent to the server;

the feedback data acquisition module is used for acquiring a feedback data packet from the network equipment and analyzing the transmission condition of the test network between the network equipment and the feedback data packet and the test data packet to obtain a test network analysis report;

the log acquisition and analysis module is used for acquiring a wireless network working log and analyzing the transmission condition of a working network according to the wireless network working log to obtain a working network analysis report, wherein the working network analysis report at least comprises a working data loss rate, a working data loss amount, a working network delay and a real-time data transmission amount within working time;

the network quality analysis module is used for analyzing the working network analysis report according to the test network analysis report to generate a network quality monitoring result;

the process of analyzing the working network analysis report according to the test network analysis report to generate a network quality monitoring result specifically includes:

obtaining a self-checking result according to the test network analysis report;

establishing a mapping function according to the test network analysis report;

checking the loss rate of the working data, the loss amount of the working data and the delay of a working network by using a mapping function to obtain a checking result;

and generating a network quality monitoring result according to the self-checking result and the checking result.

8. The wireless communication network quality monitoring system of claim 7, wherein the test data transmission module comprises:

the terminal test data sending unit is used for acquiring network time, judging whether the mobile terminal is in the rest time or not according to the network time, and sending a terminal test data packet to the mobile terminal if the mobile terminal is in the rest time;

and the cloud test data sending unit is used for sending a cloud test data packet to the server according to the wired network data transmission quantity.

9. The wireless communication network quality monitoring system of claim 8, wherein the feedback data acquisition module comprises:

the terminal feedback data receiving unit is used for acquiring a terminal feedback data packet from the mobile terminal, wherein the terminal feedback data packet at least comprises terminal receiving time of the mobile terminal receiving the terminal test data packet and test data contained in the terminal test data packet;

the cloud feedback data receiving unit is used for acquiring a cloud feedback data packet from the server, wherein the cloud feedback data packet at least comprises cloud receiving time when the server receives the cloud feedback data packet and test data contained in the cloud feedback data packet;

the data comparison unit is used for comparing the test data contained in the terminal feedback data packet with the test data contained in the terminal test data packet, comparing the test data contained in the cloud test data packet with the test data contained in the cloud feedback data packet, and calculating to obtain a test data loss rate and a test data loss amount;

and the report generating unit is used for calculating to obtain the transmission delay of the test data according to the terminal receiving time and the cloud receiving time and generating a test network analysis report.

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