CN115174437A - Network connection stability detection method and system - Google Patents

Abstract

The invention discloses a network connection stability detection method, aiming at eliminating invalid test results and improving the accuracy of test conclusion; still provide a network connection stability detecting system, its technical scheme: a network connection stability detection method comprises the following steps: step 1: acquiring network signal quality data, network connection state data and network test data to form a test result; step 2: whether the test result is effective or not is judged according to a preset rule, and the effective test result is stored, and the method belongs to the technical field of wireless communication.

Description

Network connection stability detection method and system

Technical Field

The present invention belongs to the field of wireless communication technologies, and in particular, to a method and a system for detecting network connection stability.

Background

Traditional wired communication mode need erect the cable, considers the cable and walks the line, and wireless communication mode need not lay a large amount of cables, only need arrange at the terminal can, so more and more equipment selection carries on wireless communication module and is used for communication connection.

The equipment carrying the wireless communication module needs to perform a network connection stability test to judge whether the wireless communication is reliable or not; the network connection stability test needs a long-time test, a plurality of groups of test results are obtained, and a test conclusion is obtained by counting the network disconnection times and the network disconnection duration of the equipment;

however, in the existing detection process, the actual network fluctuation factor is not considered, because the situation that the network fluctuation causes the network disconnection of the equipment or the delay is large may occur in the test process in the actual network environment, and the wireless communication module is not problematic, the group of test results in the situation are invalid, which may affect the judgment of the final test conclusion, and thus the test conclusion is inaccurate.

Disclosure of Invention

The invention mainly aims to provide a network connection stability detection method, aiming at eliminating invalid test results and improving the accuracy of test conclusions; a network connection stability detection system is also provided.

According to a first aspect of the present invention, there is provided a network connection stability detection method, including the following steps:

step 1: acquiring network signal quality data, network connection state data and network test data to form a test result;

and 2, step: and judging whether the test result is valid according to a preset rule, and storing the valid test result.

In the method for detecting network connection stability, the network signal quality data includes a signal parameter of the network, and the signal parameter includes an RSSI parameter, an RSRP parameter, an RSRQ parameter, and an SINR parameter.

In the method for detecting network connection stability, the preset rule is to determine whether a signal parameter in the network signal quality data is within a preset reference range.

In the above method for detecting network connection stability, the predetermined reference range of the RSSI parameter is-85 dBm-51 dBm, the predetermined reference range of the RSRP parameter is-95 dBm-44 dBm, the predetermined reference range of the RSRQ parameter is-15 dB-3 dB, and the predetermined reference range of the SINR parameter is 0 dB-30 dB.

According to a second aspect of the present invention, there is provided a network connection stability detection system for implementing any one of the methods of the first aspect, comprising a signal quality data acquisition unit, a network connection state detection unit, a network test unit, and a data analysis unit;

signal quality data acquisition unit: the data analysis unit is used for acquiring network signal quality data and sending the network signal quality data to the data analysis unit;

a network connection state detection unit: the data analysis unit is used for acquiring network connection state data and sending the network connection state data to the data analysis unit;

a network test unit: the network test data acquisition unit is used for acquiring network test data and sending the network test data to the data analysis unit;

a data analysis unit: the device is used for summarizing the network signal quality data, the network connection state data and the network test data to generate a test result, judging whether the test result is valid according to a preset rule, and storing the valid test result.

In the above system for detecting network connection stability, the network signal quality data includes a signal parameter of the network, and the signal parameter includes an RSSI parameter, an RSRP parameter, an RSRQ parameter, and an SINR parameter.

In the above system for detecting stability of network connection, the signal quality data acquisition unit includes the following modules:

an acquisition module: the system is used for acquiring signal parameters of a network;

a processing module: and processing the acquired signal parameters and sending the processed signal parameters to a data analysis unit.

In the above system for detecting network connection stability, the data analysis unit includes the following modules:

a data receiving module: the network connection state data and the network test data are received and test results are generated;

a data analysis module: and storing a preset rule, calling the preset rule to judge whether the test result is valid, and then determining whether to store the test result.

One of the above technical solutions of the present invention has at least one of the following advantages or beneficial effects:

according to the invention, the test result is formed by acquiring the network signal quality data, the network connection state data and the network test data, and whether the test result is valid is judged by using the preset rule, so that invalid test results in the whole test process are eliminated, the valid test results are retained, and the test conclusion is more accurate.

Drawings

The invention is further described below with reference to the accompanying drawings and examples;

fig. 1 is a flow chart illustrating a network connection stability detection method according to an embodiment of the present invention;

fig. 2 is a schematic diagram of a network connection stability detection system according to an embodiment of the present invention.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are illustrative only for the purpose of explaining the present invention and are not to be construed as limiting the present invention.

The equipment carrying the wireless communication module needs to perform a network connection stability test to judge whether the wireless communication is reliable or not; the network connection stability test needs a long-time test, a plurality of groups of test results are obtained, and a test conclusion is obtained by counting the network disconnection times and the network disconnection duration of the equipment;

however, in the existing detection process, the actual network fluctuation factor is not considered, because the situation that the network fluctuation causes the network disconnection of the equipment or the delay is large may occur in the test process in the actual network environment, and the wireless communication module is not problematic, the group of test results in the situation are invalid, which may affect the final test conclusion judgment, and result in the inaccurate test conclusion.

Referring to fig. 1, the present embodiment provides a method for detecting network connection stability, which judges whether a group of test results is valid by analyzing network signal quality data, so as to eliminate invalid test results, and retain valid test results, so that a test conclusion is more accurate.

The network connection stability detection method comprises the following steps:

step 1: acquiring network signal quality data, network connection state data and network test data to form a test result;

the method comprises the steps that network connection state data are obtained, namely whether current equipment is normally connected to a network or not is mainly recorded, if the equipment is normally connected, the online time needs to be recorded, and if the equipment is not connected and is in a disconnection state, the disconnection time needs to be recorded;

if the network test data is obtained, recording network packet loss rate data and network delay data of the equipment, and obtaining the network packet loss rate data and the network delay data through real-time ping detection on the network; ping is a common network connectivity and network delay testing tool, and by ping detection of a network, whether the packet loss rate of the current network is qualified or not and whether the network has delay or not can be known;

acquiring network signal quality data comprising signal parameters of the current network, including an RSSI (received signal strength indicator) parameter, an RSRP (reference signal received power) parameter, an RSRQ (reference signal quality) parameter and an SINR (signal to interference ratio) parameter, obtaining the signal quality of the current network according to the signal parameters, and judging whether the current network has abnormal fluctuation or not; generally, signal parameters of a current network are obtained by sending an AT instruction to a wireless communication module;

the network connection state data and the network test data in the test result are used for calculating the network performance of the equipment so as to judge the network connection stability; the network signal quality data is used for judging whether the test result is valid or not;

and 2, step: judging whether the test result is valid according to a preset rule, and storing the valid test result;

generally, the step 1 and the step 2 are repeatedly executed, invalid test results are removed, only valid test results are stored, and then the network performance of the equipment is calculated according to a plurality of valid test results, so that whether the network connection stability of the equipment is reliable or not is judged, and the test conclusion is more accurate due to the fact that the invalid test results are removed.

The preset rule is to judge whether the signal parameters in the network signal quality data are in a preset reference range, the preset reference range of the RSSI parameter is-85 dBm to-51dBm, the preset reference range of the RSRP parameter is-95 dBm to-44dBm, the preset reference range of the RSRQ parameter is-15 dB to-3 dB, the preset reference range of the SINR parameter is 0dB to 30dB, when all the signal parameters are in the preset reference ranges, the actual fluctuation of the analysis network is not large, and the test result is effective;

in actual testing, several test results may occur:

the equipment in the network connection state data is normally connected with the network, and the equipment is not disconnected; each signal parameter in the network signal quality data is within a preset reference range; in the network test data, the network ping detection is successful, and the network delay is in a reasonable range; judging that the test result is valid, and deducing the normal connection of the equipment network;

the equipment in the network connection state data is normally connected with the network, and the equipment is not disconnected; each signal parameter in the network signal quality data is within a preset reference range; in the network test data, the network ping detection is successful, and the network delay exceeds a reasonable range; judging that the test result is valid, and deducing the network delay of the equipment;

the equipment in the network connection state data is normally connected with the network, and the equipment is not disconnected; each signal parameter in the network signal quality data is within a preset reference range; in the network test data, the network ping detection fails; judging that the test result is valid, and deducing the network abnormality of the equipment;

the equipment in the network connection state data is normally connected with the network, and the equipment is not disconnected; the network signal quality data comprises signal parameters which are not in the preset reference range; in the network test data, the network ping detection is successful, and the network delay exceeds a reasonable range; judging that the test result is invalid, and deducing that the network fluctuation causes equipment network delay;

the equipment in the network connection state data is normally connected with the network, and the equipment is not disconnected; the network signal quality data comprises signal parameters which are not in the preset reference range; in the network test data, the network ping detection fails; judging that the test result is invalid, and deducing that the network fluctuation causes equipment network abnormality;

if the equipment in the network connection state data is not connected with the network, the equipment is disconnected; each signal parameter in the network signal quality data is within a preset reference range; in the network test data, the network ping detection fails; judging that the test result is valid, and deducing that the equipment network is abnormally disconnected;

if the equipment in the network connection state data is not connected with the network, the equipment is disconnected; the network signal quality data comprises signal parameters which are not in the preset reference range; in the network test data, the network ping detection fails; judging that the test result is invalid, and deducing that the network fluctuation causes the network disconnection of the equipment;

and according to a preset rule, the invalid test results can be eliminated, and only the valid test results are stored.

Based on the same inventive concept as the above embodiment, in a second aspect of the embodiments of the present application, a system for detecting network connection stability is provided, which is shown in fig. 2 and includes a signal quality data acquisition unit 1, a network connection state detection unit 2, a network test unit 3, and a data analysis unit 4;

the signal quality data acquisition unit 1 is used for acquiring network signal quality data and sending the network signal quality data to the data analysis unit 4;

the network signal quality data comprises signal parameters of the current network, including RSSI (received signal strength indicator) parameters, RSRP (reference signal received power) parameters, RSRQ (reference signal quality indicator) parameters and SINR (signal to interference ratio) parameters, and the signal quality of the current network is obtained through the signal parameters, and whether the current network has abnormal fluctuation or not is judged;

the signal quality data acquisition unit 1 comprises an acquisition module 11 and a processing module 12, wherein the acquisition module 11 is used for sending an AT command to acquire signal parameters, generally speaking, the wireless communication module provides a USB serial port for interaction of the AT command, and the acquisition module 11 acquires related information by sending the AT command to the USB serial port of the wireless communication module; the specific AT instruction is determined according to the manufacturer of the wireless communication module;

the acquisition module 11 sends the acquired signal parameters to the processing module 12, unit conversion is sometimes needed for the signal parameters returned by different manufacturers, and the conversion methods are different, the processing module 12 is mainly responsible for uniformly converting the original data acquired by the acquisition module 11 into a preset data format, and the processing module 12 sends the processed signal parameters to the data analysis unit 4;

the network connection state detection unit 2 is used for acquiring network connection state data and sending the network connection state data to the data analysis unit 4;

the network connection state data mainly records whether the current equipment is normally connected to the network, if the equipment is normally connected, the online time length needs to be recorded, and if the equipment is not connected and is in a disconnection state, the disconnection time length needs to be recorded;

the network test unit 3 is used for acquiring network test data and sending the network test data to the data analysis unit 4;

the network test unit 3 performs network packet loss rate test and network delay detection on the equipment, mainly performs real-time ping detection on the network to form network test data;

the data analysis unit 4 summarizes the network signal quality data, the network connection state data and the network test data to generate a test result, judges whether the test result is valid according to a preset rule, and stores the valid test result;

the data analysis unit 4 includes a data receiving module 41 and a data analysis module 42, where the data receiving module 41 is configured to receive network signal quality data, network connection state data, and network test data, generate a test result, and further send the test result to the data analysis module 42; the data analysis module 42 stores a preset rule, and after receiving the test result, the data analysis module 42 calls the preset rule to determine whether the test result is valid, and then determines whether to store the test result;

specifically, the preset rule is to judge whether the signal parameters in the network signal quality data are in a preset reference range, the preset reference range of the RSSI parameters is-85 dBm to-51dBm, the preset reference range of the RSRP parameters is-95 dBm to-44dBm, the preset reference range of the RSRQ parameters is-15 dB to-3 dB, the preset reference range of the SINR parameters is 0dB to 30dB, and when all the signal parameters are in the preset reference ranges, the actual fluctuation of the analysis network is not large, and the test result is effective.

While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (8)

1. A network connection stability detection method is characterized by comprising the following steps:

step 1: acquiring network signal quality data, network connection state data and network test data to form a test result;

step 2: and judging whether the test result is valid according to a preset rule, and storing the valid test result.

2. The method of claim 1, wherein the network signal quality data comprises signal parameters of the network, the signal parameters comprising an RSSI parameter, an RSRP parameter, an RSRQ parameter, and an SINR parameter.

3. The method according to claim 2, wherein the predetermined rule is to determine whether the signal parameter in the network signal quality data is within a predetermined reference range.

4. The method as claimed in claim 3, wherein the predetermined reference range of the RSSI parameter is-85 dBm to-51 dBm, the predetermined reference range of the RSRP parameter is-95 dBm to-44 dBm, the predetermined reference range of the RSRQ parameter is-15 dB to-3 dB, and the predetermined reference range of the SINR parameter is 0dB to 30dB.

5. A network connection stability detection system for implementing the method of any one of claims 1 to 4, comprising a signal quality data acquisition unit, a network connection state detection unit, a network test unit and a data analysis unit;

signal quality data acquisition unit: the data analysis unit is used for acquiring network signal quality data and sending the network signal quality data to the data analysis unit;

a network connection state detection unit: the data analysis unit is used for acquiring network connection state data and sending the network connection state data to the data analysis unit;

a network test unit: the network test data acquisition unit is used for acquiring network test data and sending the network test data to the data analysis unit;

a data analysis unit: the device is used for summarizing the network signal quality data, the network connection state data and the network test data to generate a test result, judging whether the test result is effective according to a preset rule, and storing the effective test result.

6. The network connection stability detection system of claim 5, wherein the network signal quality data comprises signal parameters of the network including RSSI parameters, RSRP parameters, RSRQ parameters, SINR parameters.

7. The network connection stability detection system of claim 6, wherein the signal quality data acquisition unit comprises the following modules:

an acquisition module: the system is used for acquiring signal parameters of a network;

a processing module: and processing the acquired signal parameters and sending the processed signal parameters to a data analysis unit.

8. The network connection stability detection system of claim 5, wherein the data analysis unit comprises the following modules:

a data receiving module: the network connection state data acquisition module is used for receiving the network signal quality data, the network connection state data and the network test data and generating a test result;

a data analysis module: the preset rule is stored, the preset rule can be called to judge whether the test result is valid or not, and then whether the test result is stored or not is determined.

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