CN115396351A

CN115396351A - Automatic router test method, device, equipment and storage medium

Info

Publication number: CN115396351A
Application number: CN202211028026.8A
Authority: CN
Inventors: 黄峰; 刘磊; 陈英炜; 孙钦根; 甘俊杰
Original assignee: Guangdong Gaofeng Technology Co ltd
Current assignee: Guangdong Gaofeng Technology Co ltd
Priority date: 2022-08-25
Filing date: 2022-08-25
Publication date: 2022-11-25
Anticipated expiration: 2042-08-25
Also published as: CN115396351B

Abstract

The application relates to an automatic test method, a device, equipment and a storage medium of a router, which are applied to the field of communication, wherein the method comprises the following steps: acquiring actual angle parameters of a rotating device; calculating an angle difference value between the actual angle parameter and a first preset angle parameter; controlling the rotating device to adjust to an angle corresponding to the first preset angle parameter; acquiring a group of data throughput rates of the router to be tested; comparing the data throughput rate with a first abnormal value range, and recording the number of first abnormal data corresponding to the data throughput rate; if the number of the first abnormal data is zero, controlling the rotating device to adjust to an angle corresponding to a second preset angle parameter, and acquiring a group of data throughput rates of the router to be tested; and if the number of the first abnormal data corresponding to the data throughput rate is zero, storing the equipment number corresponding to the router to be tested into the qualified database. The application has the technical effects that: the possibility of requiring a tester to make manual adjustments to the router under test is reduced.

Description

Automatic router test method, device, equipment and storage medium

Technical Field

The present application relates to the field of communications technologies, and in particular, to a method, an apparatus, a device, and a storage medium for automatically testing a router.

Background

A router is a hardware device that connects two or more networks, acts as a gateway between the networks, and is a dedicated network device that reads the address in each packet and then decides how to transmit. In the evaluation of the performance of the router product, a testing link is indispensable, when the throughput performance of the whole router is tested, the whole testing process is carried out in a closed environment, generally speaking, in the hardware structure of the router, an antenna is a wireless interface between the router and an external propagation medium, and the angle of the antenna of the router has a great influence on the throughput performance of the router.

In the related art, when the transceiving performance of the router is tested, a tester is required to manually adjust the angle of the antenna of the router, and then the throughput performance of the router is tested, so that the throughput performance of the router can be ensured to meet the daily requirements of a family at any angle of the antenna of the router.

In the process of implementing the present application, the inventors found that at least the following problems exist in the technology: when the transceiving performance of the router is tested, a tester needs to manually adjust the angle of the antenna of the router, the process is complicated, and the time of the testing process is prolonged.

Disclosure of Invention

In order to reduce the possibility that a tester needs to manually adjust the router to be tested, the application provides an automatic router testing method, device, equipment and storage medium.

In a first aspect, the present application provides a method, an apparatus, a device, and a storage medium for automatically testing a router, which adopt the following technical solutions: the method comprises the following steps:

when a detection instruction is received, acquiring an actual angle parameter of the rotating device;

calculating an angle difference value between the actual angle parameter and a first preset angle parameter in a preset angle parameter database;

controlling the rotating device to adjust to an angle corresponding to a first preset angle parameter according to the angle difference;

acquiring a group of data throughput rates of the router to be tested in a preset time range;

comparing the acquired group of data throughput rates with a preset first abnormal value range in sequence, and recording the number of first abnormal data corresponding to the data throughput rate in the first abnormal value range;

comparing the number of the first abnormal data with zero, and controlling the rotating device to adjust to an angle corresponding to a second preset angle parameter if the number of the first abnormal data is zero;

acquiring a group of data throughput rates of the router to be tested under the second preset angle parameter;

and comparing the number of the first abnormal data with zero, and if the number of the first abnormal data corresponding to a group of data throughput rates of the router to be tested under a second preset angle parameter is zero, storing the equipment number corresponding to the router to be tested into a preset qualified database.

According to the technical scheme, the router automatic test system adjusts the angle of the rotating device, so that the angle of the antenna on the tested router body is changed, the data throughput rate of the tested router is respectively tested when the antenna of the tested router is at different angles, if the collected data throughput rate is totally within the standard range, the tested router corresponding to the data throughput rate is judged to be qualified, and the equipment number corresponding to the tested router is stored into preset qualified data; the router automatic test system can indirectly control the antenna angle of the router to be tested by controlling the rotating device, reduces the possibility that the tester needs to manually adjust the router to be tested, further contributes to reducing the workload of the tester and improves the test speed.

In a specific implementation scheme, if the number of the first abnormal data reaches a preset first standard number, storing the equipment number corresponding to the router to be tested into a preset unqualified database;

and if the number of the first abnormal data does not reach a preset first standard number and is not zero, continuing to acquire the data throughput rate of the router to be tested until the number of the first abnormal data in the acquired group of data throughput rates is zero.

According to the technical scheme, the router automatic testing system counts the number of the data throughput rates within the range of the first abnormal value in the acquired data throughput rates, namely the number of the first abnormal data, compares the number of the first abnormal data with the number of the first standard data, judges the router to be tested with more abnormal data in the data throughput rates as unqualified, stores the equipment number corresponding to the router to be tested into the preset qualified data, and waits for the overhaul of maintainers; if the number of the first abnormal data does not reach the first standard number, the number of the abnormal data in the data throughput rate of the router to be tested is less, so that the abnormal data throughput rate is very likely to be caused by the fault of the router automatic test system, and the router automatic test system can repeatedly acquire the data throughput rate corresponding to the router to be tested until a group of data throughput rates meet the standard, thereby being beneficial to reducing the situation that the measured data is wrong due to the fault of the router automatic test system.

In a specific implementation, a set of data throughput rates of the router under test is obtained;

comparing the acquired group of data throughput rates with a preset first abnormal value range in sequence, and recording a sequencing number corresponding to the data throughput rate in the first abnormal value range;

if the number of times of acquiring the data throughput rate of the router to be tested reaches a preset standard number value, comparing the sequence numbers corresponding to the data throughput rates positioned in the first abnormal value range in a group of data throughput rates acquired each time;

and if the sequence numbers corresponding to the data throughput rates within the first abnormal value range are consistent, sending alarm information to an intelligent terminal of a tester, and storing the equipment number corresponding to the router to be tested into a preset qualified database.

According to the technical scheme, when the number of times of acquiring the data throughput rate reaches the standard value, the automatic router test system compares the sequence numbers corresponding to the abnormal data in the data throughput rate acquired each time, if the sequence numbers corresponding to the abnormal data in the data throughput rate acquired each time are consistent, the time of acquiring the data throughput rate by the automatic router test system is random, no rule exists, and the sequence numbers corresponding to the abnormal data in the data throughput rate have a certain rule, so that the abnormal data in the data throughput rate is most likely to be caused by the self test error of the automatic router test system, and at the moment, the equipment number corresponding to the router to be tested is stored in the qualified database, which is beneficial for reducing the condition that the automatic router test system misjudges the performance of the qualified router due to the self fault, and is further beneficial for reducing the workload of subsequent maintenance personnel for overhauling the unqualified router.

In a specific implementation scheme, recording the sorting number corresponding to the data throughput rate of the last data throughput rate in the first abnormal value range;

calculating the number corresponding to the data throughput rate after the sorting number;

and if the number corresponding to the data throughput rate after the sequencing number reaches a preset second standard number value, storing the equipment number corresponding to the router to be tested into a preset qualified database.

By the technical scheme, if abnormal data in a group of data throughput rates acquired by the router automatic test system only appear in the first few bits of the group of data throughput rates, the abnormal data are likely to be data fluctuation generated by the router to be tested due to initial use, and the router to be tested does not break down, so that the abnormal data in the group of data throughput rates acquired by the router automatic test system only appear in the first few bits of the group of data throughput rates, the router to be tested is judged to be qualified, and the situation that the measured data are wrong due to the data fluctuation generated by the initial use is further reduced.

In a particular possible embodiment, a first actual position of the rotating means is obtained with respect to a preset standard position, said first actual position comprising a relative distance;

calculating a distance difference between the relative distance and a first preset distance parameter;

controlling the rotating device to adjust to a position corresponding to a first preset distance parameter according to the distance difference;

comparing the data throughput rate to the first range of outliers;

recording the number of second abnormal data corresponding to the data throughput rate within the first abnormal value range;

if the number of the second abnormal data is zero, controlling the rotating device to adjust to a position corresponding to a second preset distance parameter;

acquiring the data throughput rate of the router to be tested under the second preset distance parameter;

and if the number of second abnormal data corresponding to a group of data throughput rates of the router to be tested under a second preset distance parameter is zero, storing the equipment number corresponding to the router to be tested into a preset qualified database.

According to the technical scheme, the distance between the router to be tested and the testing device is adjusted by changing the position of the rotating device, the data throughput rate of the router to be tested is measured when the router to be tested is located at different positions, the router with the data throughput rate meeting the standard is judged to be qualified, and the possibility that some routers which cannot meet long-distance data transmission leave the factory and pass the testing is reduced.

In a specific implementation, the temperature detection device is used to detect the ambient temperature value of the router under test;

calculating a temperature difference value between the environment temperature value and a preset first preset temperature parameter;

controlling the temperature changing device to adjust the ambient temperature of the router to be tested to a temperature value corresponding to a first preset temperature parameter according to the temperature difference value;

comparing the data throughput rate with a preset first abnormal value range;

recording the number of third abnormal data corresponding to a group of data throughput rates within the first abnormal value range;

if the number of the third exception data is zero, controlling a temperature changing device to adjust the ambient temperature of the router to be tested to a temperature value corresponding to a second preset temperature parameter and acquiring a group of data throughput rates of the router to be tested under the second preset temperature parameter;

and if the number of the third abnormal data corresponding to a group of data throughput rates of the router to be tested under the second preset temperature parameter is zero, storing the equipment number corresponding to the router to be tested into a preset qualified database.

According to the technical scheme, the temperature of the environment where the router is located is adjusted through the temperature changing device, the data throughput rates of the router to be tested at different temperatures are measured respectively, the router with the data throughput rate not meeting the standard is judged to be unqualified, the router which cannot keep good data transmission in a low-temperature or high-temperature environment is screened out, and the overall quality of the router passing the test is improved.

In a specific implementation, sending a data packet to the router under test at a preset time interval;

recording a plurality of forwarding time delays of the router to be tested;

comparing a plurality of forwarding time delays with a preset second abnormal value range;

recording the number of fourth abnormal data corresponding to the forwarding time delay within the second abnormal value range;

and if the number of the fourth abnormal data is zero, storing the equipment number corresponding to the router to be tested into a preset qualified database.

By the technical scheme, the forwarding time delay of the router to be tested is measured, so that the whole automatic test content is more comprehensive, and the router passing the whole test is more comprehensive in performance.

In a second aspect, the present application provides a method, an apparatus, a device, and a storage medium apparatus for automatically testing a router, which adopt the following technical solutions: the device comprises:

the actual parameter acquisition module is used for acquiring the actual angle parameter of the rotating device when receiving the detection instruction;

the parameter data processing module is used for calculating an angle difference value between the actual angle parameter and a first preset angle parameter in a preset angle parameter database;

the first rotation control module is used for controlling the rotation device to adjust to an angle corresponding to a first preset angle parameter according to the angle difference value;

the first data acquisition module is used for acquiring a group of data throughput rates of the router to be tested in a preset time range;

the first data comparison module is used for sequentially comparing the acquired group of data throughput rates with a preset first abnormal value range and recording the number of first abnormal data corresponding to the data throughput rate within the first abnormal value range;

the second rotation control module is used for comparing the number of the first abnormal data with zero, and controlling the rotation device to adjust to an angle corresponding to a second preset angle parameter if the number of the first abnormal data is zero;

the second data acquisition module is used for acquiring a group of data throughput rates of the router to be tested under the second preset angle parameter;

the second data comparison module is used for sequentially comparing the acquired group of data throughput rates with a preset first abnormal value range and recording the number of first abnormal data corresponding to the data throughput rate in the first abnormal value range;

and the test result judging module is used for comparing the number of the first abnormal data with zero, and if the number of the first abnormal data corresponding to a group of data throughput rates of the router to be tested under a second preset angle parameter is zero, storing the equipment number corresponding to the router to be tested into a preset qualified database.

In a third aspect, the present application provides a computer device, which adopts the following technical solution: the router automatic testing device comprises a memory and a processor, wherein the memory is stored with a computer program which can be loaded by the processor and can execute any one of the router automatic testing method, the router automatic testing device, the router automatic testing equipment and the router automatic testing storage medium method.

In a fourth aspect, the present application provides a computer-readable storage medium, which adopts the following technical solutions: a computer program is stored which can be loaded by a processor and which implements any of the above described router automatic test methods, apparatus, devices and storage medium methods.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the router automatic test system adjusts the angle of the rotating device, so that the angle of an antenna on the tested router body is changed, the data throughput rate of the tested router is tested when the antenna of the tested router is at different angles, if the collected data throughput rate is all located in a standard range, the tested router corresponding to the data throughput rate is judged to be qualified, and the equipment number corresponding to the tested router is stored in preset qualified data; the router automatic test system can indirectly control the antenna angle of the router to be tested by controlling the rotating device, so that the possibility that testers need to manually adjust the router to be tested is reduced, the workload of the testers is reduced, and the test speed is improved;

2. the router automatic testing system counts the number of data throughput rates within a first abnormal value range in the acquired data throughput rates, namely the number of first abnormal data, compares the number of the first abnormal data with a first standard number value, judges the router to be tested with more abnormal data in the data throughput rates as unqualified, stores the equipment number corresponding to the router to be tested into preset qualified data, and waits for the overhaul of maintainers; if the number of the first abnormal data does not reach the first standard number, the number of the abnormal data in the data throughput rate of the router to be tested is less, so that the abnormal data throughput rate is very likely to be caused by the fault of the router automatic test system, and the router automatic test system can repeatedly acquire the data throughput rate corresponding to the router to be tested until a group of data throughput rates meet the standard, thereby being beneficial to reducing the situation that the measured data is wrong due to the fault of the router automatic test system.

Drawings

Fig. 1 is a flowchart of an automatic router test method according to an embodiment of the present application.

FIG. 2 is a schematic diagram of the test in the example of the present application.

Fig. 3 is a block diagram of a structure of an automatic router test apparatus according to an embodiment of the present application.

Reference numerals: 301. an actual parameter acquisition module; 302. a parameter data processing module; 303. a first rotation control module; 304. a first data acquisition module; 305. a first data comparison module; 306. a second rotation control module; 307. a second data acquisition module; 308. a second data comparison module; 309. and a test result judgment module.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses an automatic router test method, which is applied to an automatic router test system, wherein a corresponding instruction of the method is stored in a control center in the automatic router test system in advance, data transmission is carried out between router test and a router to be tested through a network, the automatic router test system comprises a rotating device, a temperature changing device and a temperature measuring device, the rotating device is used for placing the router to be tested and can rotate and move, the temperature changing device is used for adjusting the temperature in a shielding chamber, the temperature measuring device is used for measuring the temperature in the shielding chamber, the rotating device comprises a bearing plate which is specially used for placing the router to be tested, the temperature changing device not only has a heating function, but also has a cooling function, such as an air conditioner, the temperature measuring device can be a temperature sensor, the automatic router test system is installed in a test device, the test device respectively has data transmission with the rotating device, the temperature changing device and the temperature test device, the test device comprises input equipment and output equipment, the input equipment can be a keyboard and a mouse, and the output equipment can be a display screen.

As shown in fig. 1 and 2, the method comprises the steps of:

and S10, when the detection instruction is received, acquiring the actual angle parameter of the rotating device, and calculating the angle difference between the actual angle parameter and the first preset angle parameter in the preset angle parameter database.

Specifically, a tester firstly places the router to be tested on a supporting plate of a rotating device, and it is worth mentioning that the rotating device is positioned in a shielding room which can shield external electromagnetic interference, so that the test data is more accurate; after the maintenance personnel place the router to be tested, the maintenance personnel go out of the shielding room and start the automatic router testing system, wherein the mode of starting the automatic router testing system can be that a starting button on the testing device is pressed, a 'test starting' area on a display screen of the testing device is clicked, or a corresponding instruction is input to the automatic router testing system through a keyboard; the router automatic test system sends a starting instruction to the router to be tested after receiving the detection instruction, the router to be tested is started after receiving the starting instruction, and the router to be tested can be tested according to the preset starting time value of the router to be tested in consideration of different starting time of routers of different brands.

The router automatic test system detects whether the router to be tested is started up or not in a mode of acquiring a state signal of the router to be tested, wherein the state signal of the router to be tested comprises a working state and a shutdown state; after the router to be tested is started, the testing device can measure the actual angle parameter of the rotating device according to the angle sensor which is preset on the rotating device, wherein the actual angle parameter is the angle value between the bearing plate and the horizontal plane.

The angle parameter database is preset in the router automatic test system and mainly stores a plurality of preset angle parameters, the router automatic test system needs to adjust the rotating device according to the preset angle parameters in the subsequent test process, and the preset angle parameters comprise a first preset angle parameter.

And S20, controlling the rotating device to adjust to an angle corresponding to the first preset angle parameter according to the angle difference value.

Specifically, in this embodiment, the rotating device includes a motor control unit and a motor unit, the router testing device performs data transmission with the motor control unit of the rotating device through a network, in the testing process, the router automatic testing system generates a corresponding control instruction according to the calculated angle difference value, and sends the control instruction to the motor control unit on the rotating device, it is worth mentioning that the mentioned control instruction is used for controlling the rotating device to adjust to an angle corresponding to the first preset angle parameter, after receiving the control instruction sent by the router testing device, the motor control unit realizes rotation of the rotating device in the horizontal and vertical directions by driving the motor unit, so as to change an angle corresponding to an antenna of the router to be tested, when the rotating device rotates to the angle corresponding to the first preset angle parameter, the router automatic testing system tests a data throughput rate of the router to be tested when the antenna is located at the first preset angle parameter, and achieves a purpose of testing information transceiving performance of the router to be tested.

And S30, acquiring a group of data throughput rates of the router to be tested in a preset time range, sequentially comparing the acquired group of data throughput rates with a preset first abnormal value range, and recording the number of first abnormal data corresponding to the data throughput rates in the first abnormal value range.

Specifically, the router automatic test system can continuously acquire a plurality of data throughput rates within a preset time range; for example: the preset time range is 5 seconds, the router automatic test system continuously obtains 10 data throughput rates in 5 seconds, the 10 data throughput rates are a group of data throughput rates, if a certain data throughput rate is located in a first abnormal value range, the data throughput rate indicates that the router to be tested is in an abnormal working state, whether the router to be tested is often in the abnormal working state can be judged by recording the number of first abnormal data in the group of data throughput rates, and then the transceiving performance of the router to be tested is evaluated to know whether the router to be tested is in a fault.

And S40, comparing the number of the first abnormal data with zero, and controlling the rotating device to adjust to the angle corresponding to the second preset angle parameter if the number of the first abnormal data is zero.

Specifically, the fact that the number of the first abnormal data is zero means that the router to be tested can normally work when the antenna is at the angle corresponding to the first preset angle parameter, and if the number of the first abnormal data is large, the fact that the router to be tested is often in an abnormal working state when the antenna is at the angle corresponding to the first preset angle parameter is indicated; through detection of the router automatic test system, if the router to be tested can normally work when the antenna is positioned at the angle corresponding to the first preset angle parameter, the router automatic test system can control the rotating device to rotate to the angle corresponding to the second preset angle parameter; if the router to be tested cannot normally work when the antenna is at the angle corresponding to the first preset angle parameter when the detection is performed by the router automatic test system, the router automatic test system stores the equipment number corresponding to the router to be tested to the unqualified database, and it is worth mentioning that the unqualified database is used for storing the equipment number of the router to be tested which does not pass through the router automatic test system, so that subsequent maintenance personnel can find the corresponding router according to the equipment number in the unqualified database.

S50, a group of data throughput rates of the router to be tested under the second preset angle parameter are obtained, the obtained group of data throughput rates are sequentially compared with a preset first abnormal value range, and the number of first abnormal data corresponding to the data throughput rates within the first abnormal value range is recorded.

Specifically, the router automatic test system acquires a group of data throughput rates of the router to be tested again, and at the moment, the antenna of the router to be tested is at an angle corresponding to the second preset angle parameter; and the obtained group of data throughput rates are the data throughput rates of the rotating device at the angle corresponding to the second preset angle parameter.

And S60, comparing the number of the first abnormal data with zero, and if the number of the first abnormal data corresponding to a group of data throughput rates of the router to be tested under the second preset angle parameter is zero, storing the equipment number corresponding to the router to be tested into a preset qualified database.

Specifically, the router automatic test system determines whether the number of first abnormal data in the obtained group of data throughput rates is zero, and if the number of the first abnormal data is zero, it indicates that the router to be tested can normally operate when the antenna is at an angle corresponding to a second preset angle parameter, in order to further test the transceiving performance of the router to be tested, in this embodiment, the router automatic test system continues to adjust the angle of the rotating device according to preset angle parameters in the angle parameter database until the number of the first abnormal data in the data throughput rates of the router to be tested under different preset angle parameters is zero, and determines that the router to be tested passes the test, the router automatic test system stores the device number of the router to be tested into a preset qualified database, and it is worth mentioning that the qualified database is used to store the device number of the router to be tested passing through the router automatic test system; the router automatic test system changes the angle corresponding to the rotating device according to the preset angle parameter in the preset angle parameter database, further changes the angle corresponding to the antenna of the router to be tested, measures the data throughput rate of the router to be tested when the antenna is at different angle positions, achieves the purpose of testing the transceiving performance of the router to be tested, reduces the possibility that testers need to manually adjust the antenna of the router to be tested, and is beneficial to reducing the duration of the test process.

In an embodiment, in consideration that the obtained data throughput rate may be in error due to a failure of the automatic router test system, after recording a first abnormal data number corresponding to the data throughput rate within a first abnormal value range, the following steps may be further performed:

comparing the number of first abnormal data in the acquired group of data throughput rates with a preset first standard number value, wherein the first standard number value is the maximum value of the number of data throughput rates, which are positioned in a first abnormal value range, in the group of data throughput rates when the daily requirements of users can be met by the router to be tested, if the number of the first abnormal data in the acquired group of data throughput rates reaches the standard number value, directly judging that the router to be tested is unqualified, storing the equipment number corresponding to the router to be tested into an unqualified database, and if the number of the first abnormal data in the acquired group of data throughput rates does not reach the standard number value and is not zero, re-acquiring the group of data throughput rates of the router to be tested at the current angular position by the router automatic test system until the number of the first abnormal data corresponding to the acquired group of data throughput rates is zero; when the number of the first abnormal data in the obtained group of data throughput rates is small and does not reach the standard number value, the router to be tested is retested in a mode of repeatedly obtaining the data throughput rates, so that the possibility that the receiving and sending performance of the router to be tested is judged to be wrong due to the fact that the router automatic test system fails and the obtained data throughput rates are in a problem or distorted is reduced.

In one embodiment, to further reduce the possibility of a problem or distortion of the acquired data throughput rate due to a self-failure of the router automatic test system, the acquiring of the data throughput rate of the router under test is continued until the first number of abnormal data in the acquired set of data throughput rates is zero, which may be implemented as:

the router automatic test system obtains a group of data throughput rates of the router to be tested again, at the moment, the antenna of the router to be tested is still at the angle corresponding to the first preset angle parameter, the router automatic test system compares the data throughput rates in the group of obtained data throughput rates with the first abnormal value range in sequence, and records the sequencing number of the data throughput rates in the first abnormal range, and it is worth mentioning that the sequencing number of the data throughput rates represents the sequencing of the data throughput rates in the group of data throughput rates; for example, ten data throughput rates in the group of data throughput rates are total, wherein the third and fifth data throughput rates are in the first abnormal value range, and the data throughput rates in the group of data throughput rates in the first abnormal value range have the sorting numbers of three and five, respectively.

In order to reduce the possibility that the number of data throughput rates in a first abnormal value range in a group of data throughput rates obtained each time is always smaller than a first standard number but not zero when a tested router fails, so that an automatic router test system is in a dead cycle of continuously obtaining the data throughput rates of the tested router, when the times of obtaining the data throughput rates again by the automatic router test system reach a standard number, the automatic router test system compares sequence numbers corresponding to the data throughput rates in the first abnormal value range in the group of data throughput rates obtained each time, if the sequence numbers corresponding to the data throughput rates in the first abnormal value range in the group of data throughput rates obtained by the automatic router test system each time are consistent, the automatic router test system generates alarm information and sends the alarm information to an intelligent terminal of a tester, and when the alarm information is generated, the automatic router test system inquires whether a rotation device is not adjusted to a preset angle value corresponding to the preset angle parameter in the test process, if the rotation device is not adjusted to the preset angle parameter, the automatic router test system continues to adjust the preset angle parameter, and if the router test device is in the preset angle database, the automatic router test device, and the router test device continues to control the new router to perform the new router test device.

It should be noted that, in this embodiment, the alarm information generated by the automatic router testing system is used to inform a tester that the router testing device may have a fault and the router testing device needs to be overhauled, the standard value is the maximum value of the times that the automatic router testing system allows to reacquire the data throughput rate of the router to be tested, considering that the time spent for testing one router to be tested is not too long, the standard value in this embodiment may be set to 5 times, and in this embodiment, when the sequence number corresponding to the data throughput rate within the first abnormal value range in the group of data throughput rates does not include the angle value corresponding to the current preset angle parameter adjusted by the rotating device, the first group of data throughput rates is acquired.

For example: based on the foregoing example, when the antenna is at the angle value corresponding to the current preset angle parameter, the number of the data throughput rates located in the first abnormal value range in the first group of data throughput rates obtained by the router under test is 1, and the first standard number value is 2, then the router automatic test system continues to obtain 10 data throughput rates within the time range of 5 seconds, the number of the data throughput rates located in the first abnormal value range in the 4 groups of data throughput rates obtained again subsequently is 1, and the sequence numbers corresponding to the data throughput rates located in the first abnormal value range are 3, so that the router automatic test system determines that the transceiving performance is qualified when the antenna is at the current angle value.

The time for the router automatic test system to obtain the data throughput rate is random and has no rule, and the sequence numbers corresponding to abnormal data in the data throughput rate have a certain rule, so that the abnormal data in the data throughput rate are very likely to be caused by test errors of the router automatic test system, and the sequence numbers corresponding to the data throughput rate in the first abnormal value range in the data throughput rate are recorded and compared, thereby being beneficial to reducing the situation that the router automatic test system misjudges the performance of a qualified router due to self faults, and further being beneficial to reducing the workload of follow-up maintenance personnel for overhauling the router judged to be unqualified.

In one embodiment, considering that there may be a case where the data throughput rate fluctuates greatly in a previous period of the first use of the router under test after the router under test is manufactured, storing the device number corresponding to the router under test in a preset unqualified database may be performed as:

when the number corresponding to the data throughput rate in the first abnormal value range in the acquired group of data throughput rates reaches a first standard number value, recording the sequencing number of the last data throughput rate in the first abnormal value range in the group of data throughput rates, recording as the maximum sequencing number, calculating the number of the residual data throughput rate after the maximum sequencing number, comparing the number of the residual data throughput rate with a preset second standard number value, and if the number of the residual data throughput rate reaches the preset second standard number value, storing the equipment number corresponding to the router to be tested in a qualified database by the automatic router testing system.

For example: based on the foregoing example, the second standard number is 7, the number of the data throughput rates located in the first abnormal value range in the acquired 10 data throughput rates is 2, and the corresponding sorting numbers are 2 and 3, respectively, so that after the maximum sorting number, the number of the remaining data throughput rates is 7, and when the second standard number is reached, the automatic router testing system determines that the transceiving performance of the tested router when the antenna is located at the angle value corresponding to the current preset angle parameter is qualified, and if the transceiving performance of the tested router when the antenna is located at the angle value corresponding to any one preset angle parameter in the angle parameter database passes the test, the automatic router testing system stores the device number corresponding to the tested router into the qualified database; the maximum sequence number corresponding to the last data throughput rate in the first abnormal value range in the acquired group of data throughput rates is recorded, and whether the number corresponding to the data throughput rate after the maximum sequence number reaches a preset second standard number value or not is compared, so that the probability that the receiving and sending performance of the router to be tested is misjudged by the router automatic test system due to the fact that the data throughput rate is likely to fluctuate greatly in the early stage of the first use of the router to be tested after the router to be tested is manufactured is reduced.

In an embodiment, considering that there may be a possibility that a user is far away from a router when using the router, and the received signal strength is poor, and therefore the router to be tested should have a better transceiving capability even when being far away from a user, the device number corresponding to the router to be tested is stored in a preset qualified database, and the method may be specifically performed as:

the router automatic testing system obtains a first actual position of the rotating device relative to a preset standard position by using the position measuring sensor, and it is worth mentioning that the preset standard position is a specific position of the router testing device in the shield, the first actual position comprises a deflection angle and a relative distance of the rotating device relative to the router automatic testing system, then the router automatic testing system calculates a distance difference value between the obtained relative distance and a first preset distance parameter, and controls the rotating device to adjust to a position corresponding to the first preset distance parameter according to the distance difference value.

It should be noted that the first preset distance parameter is preset by a tester and stored in a preset distance parameter database, the distance parameter database is preset in an automatic router test system, when the rotating device reaches a position corresponding to the first distance parameter, the automatic router test system obtains a set of data throughput rates of a set of routers to be tested at the current position, calculates the number of the data throughput rates in a first abnormal value range in the obtained set of data throughput rates of the routers, namely the second abnormal data number, if the second abnormal data number is not zero, determines that the router to be tested fails the test, stores the device number corresponding to the router to be tested in a non-qualified database, otherwise, the automatic router test system controls the rotating device to adjust to a position corresponding to the second preset distance parameter in the distance parameter database, obtains a set of data throughput rates of the router to be tested at a position corresponding to the second preset distance parameter, determines whether the second abnormal data throughput rate in the set of the router to be tested at the position corresponding to the second preset distance parameter is zero, and determines that the number of the router to be tested is zero.

In order to further test the transceiving performance of the tested router at different positions, a plurality of preset distance parameters can be stored in the preset distance parameter database, the router automatic test system can adjust the position of the rotating device according to the preset distance parameters in the distance parameter database, and the testing of the transceiving performance of the tested router at different positions helps to ensure that the tested router passing the test can still maintain better transceiving capacity even when the tested router is far away from a user.

In an embodiment, in order to enable the router under test passing the test to maintain good transceiving performance even in a low-temperature or high-temperature environment, the device number corresponding to the router under test is stored in a preset qualified database, and the method may be specifically implemented as:

the router automatic test system controls the temperature detection device to measure the current environment temperature of the router to be tested, and it is worth mentioning that the current environment temperature value of the router to be tested is the environment temperature value around the router to be tested, then the router automatic test system calculates the difference value between the obtained environment temperature value and the first preset temperature parameter in the preset temperature parameter database, generates the temperature control instruction according to the calculated temperature difference value, and sends the temperature control instruction to the temperature changing device.

When the environmental temperature value of the router to be tested reaches the temperature value corresponding to the first preset temperature parameter, the router automatic test system acquires a group of data throughput rates of the router to be tested when the router to be tested is at the current environmental temperature value, calculates the number of third abnormal data of the data throughput rates of the router to be tested, wherein the data throughput rates of the router to be tested are in the first abnormal range, specifically, the number of the third abnormal data is the number of the data throughput rates of the router to be tested, wherein the number of the data throughput rates of the first abnormal range is in the first abnormal range, if the number of the third abnormal data is not zero, the router to be tested is judged to fail the test, the number of the device corresponding to the router to be tested is stored in a failed database, otherwise, the router automatic test system controls the temperature changing device to adjust the environmental temperature value of the router to be tested to the position corresponding to the second preset temperature parameter in the temperature parameter database, the number of the data throughput rates of the router to be tested when the router to be tested is at the position corresponding to the second preset temperature parameter is acquired, and if the number of the data corresponding to the router to be tested is zero, the number of the device corresponding to be tested, the router to be tested, and the number of the router to be tested.

In order to further test the transceiving performance of the router to be tested when the router is at different environmental temperature values, a plurality of preset temperature parameters can be stored in a preset temperature parameter database, and the router automatic test system can adjust the environmental temperature value of the router to be tested according to the preset temperature parameters in the temperature parameter database; for example: if the router to be tested is sold to the northeast region, the preset environmental temperature value can be in the range of-30 ℃ to 35 ℃, and if the router to be tested is sold to the Hainan region, the preset environmental temperature value can be in the range of 10 ℃ to 40 ℃; the test of the transceiving performance of the router to be tested in different environmental temperatures helps to enable the tested router to still maintain good transceiving capacity even at extreme environmental temperatures such as low temperature or high temperature.

In one embodiment, in order to improve the performance of the router under test tested by the router automatic test system more comprehensively, the device number corresponding to the router under test is stored in a preset qualified database, and the method may be specifically implemented as:

the router automatic test system sends a data packet to a router to be tested according to a preset time interval, when the router automatic test system sends the data packet, the router automatic test system measures the forwarding delay of the router to be tested through software preset in the router automatic test system to obtain a plurality of forwarding delay data of the router to be tested, the obtained plurality of forwarding delay data are compared with a preset second abnormal value range, and a fourth abnormal value number corresponding to the forwarding delay located in the second abnormal value range is recorded.

Fig. 1 is a flowchart illustrating an automatic router test method, apparatus, device, and storage medium according to an embodiment. It should be understood that, although the steps in the flowchart of fig. 1 are shown in order as indicated by the arrows, the steps are not necessarily performed in order as indicated by the arrows; the steps are not limited to be performed in the exact order disclosed, and steps may be performed in other orders, unless explicitly stated otherwise; and at least some of the steps in fig. 1 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 some of the sub-steps or stages of other steps.

Based on the method, the embodiment of the application also discloses an automatic router test method, an automatic router test device, automatic router test equipment and a storage medium device.

As shown in fig. 3, the apparatus includes the following modules:

an actual parameter obtaining module 301, configured to obtain an actual angle parameter of the rotating device when the detection instruction is received;

a parameter data processing module 302, configured to calculate an angle difference between the actual angle parameter and a first preset angle parameter in a preset angle parameter database;

the first rotation control module 303 is used for controlling the rotation device to adjust to an angle corresponding to the first preset angle parameter according to the angle difference;

a first data obtaining module 304, configured to obtain a set of data throughput rates of the router under test in a preset time range;

the first data comparison module 305 is configured to compare the obtained group of data throughput rates with a preset first abnormal value range in sequence, and record a number of first abnormal data corresponding to the data throughput rate within the first abnormal value range;

the second rotation control module 306 is configured to compare the number of the first abnormal data with zero, and if the number of the first abnormal data is zero, control the rotation device to adjust to an angle corresponding to the second preset angle parameter;

a second data obtaining module 307, configured to obtain a set of data throughput rates of the router under test under a second preset angle parameter;

the second data comparison module 308 is configured to sequentially compare the obtained group of data throughput rates with a preset first abnormal value range, and record the number of first abnormal data corresponding to the data throughput rate within the first abnormal value range;

the test result determining module 309 is configured to compare the number of the first abnormal data with zero, and if the number of the first abnormal data corresponding to the group of data throughput rates of the router to be tested under the second preset angle parameter is zero, store the device number corresponding to the router to be tested in a preset qualified database.

In an embodiment, the first data comparing module 305 is further configured to store the device number corresponding to the router to be tested in a preset maintenance database if the number of the first abnormal data reaches a preset first standard number;

the first data obtaining module 304 is further configured to, if the number of the first abnormal data does not reach the preset first standard number and is not zero, continue to obtain the data throughput rate of the router to be tested until the number of the first abnormal data in the obtained group of data throughput rates is zero.

In an embodiment, the first data comparing module 305 is further configured to sequentially compare a group of obtained data throughput rates with a preset first abnormal value range, and record a sorting number corresponding to the data throughput rate within the first abnormal value range;

if the times of acquiring the data throughput rate of the router to be tested reach a preset standard times value, comparing the sequencing numbers corresponding to the data throughput rates positioned in the first abnormal value range in a group of data throughput rates acquired each time;

the test result determining module 309 is further configured to send alarm information to the intelligent terminal of the tester when the sequence numbers corresponding to the data throughput rates within the first abnormal value range are consistent, and store the device number corresponding to the router to be tested in a preset qualified database.

In an embodiment, the first data comparing module 305 is further configured to record a sorting number corresponding to a data throughput rate of which the last data throughput rate is within the first abnormal value range;

calculating the number corresponding to the data throughput rate after the sequencing number;

the test result determining module 309 is further configured to store the device number corresponding to the router to be tested in a preset qualified database when the number corresponding to the data throughput rate after the sorting number reaches a preset second standard number value.

In one embodiment, the actual parameter obtaining module 301 is further configured to obtain a first actual position of the rotating apparatus relative to a preset standard position, where the first actual position includes a relative distance;

the parameter data processing module 302 is further configured to calculate a distance difference between the relative distance and the first preset distance parameter;

the first rotation control module 303 is further configured to control the rotation device to adjust a position corresponding to the first preset distance parameter according to the distance difference;

the first data obtaining module 304 is further configured to obtain a set of data throughput rates of the router under test within a preset time range;

the first data comparison module 305 is further configured to compare the data throughput rate with the first abnormal value range, and record a second abnormal data number corresponding to the data throughput rate within the first abnormal value range;

the second rotation control module 306 is further configured to control the rotation device to adjust to a position corresponding to the second preset distance parameter if the number of the second abnormal data is zero;

the second data obtaining module 307 is further configured to obtain a data throughput rate of the router to be tested under a second preset distance parameter;

the test result determining module 309 is further configured to, when the number of the second abnormal data corresponding to the data throughput rate of the router to be tested under the second preset distance parameter is zero, store the device number corresponding to the router to be tested in the preset qualified database.

In one embodiment, the actual parameter obtaining module 301 is further configured to detect an ambient temperature value at which the router under test is located by using a temperature detecting device;

the first data processing module is also used for calculating a temperature difference value between the environment temperature value and a preset first preset temperature parameter;

the environment temperature control module is used for controlling the temperature changing device to adjust the environment temperature of the router to be tested to a temperature value corresponding to the first preset temperature parameter according to the temperature difference value;

the first data comparing module 305 is further configured to compare the data throughput rate with a preset first abnormal value range, and record a third abnormal data number corresponding to the data throughput rate within the first abnormal value range;

the environment temperature control module is further used for controlling the temperature changing device to adjust the environment temperature of the router to be tested to a temperature value corresponding to the second preset temperature parameter and obtain the data throughput rate of the router to be tested under the second preset temperature parameter if the number of the third difference data is zero;

the second data obtaining module 307 is further configured to obtain a set of data throughput rates of the router under test under a second preset angle parameter;

the test result judging module 309 is further configured to, when the number of the third exception data corresponding to the data throughput of the router to be tested under the second preset temperature parameter is zero, store the device number corresponding to the router to be tested in the preset qualified database.

In one embodiment, the data signal sending module is configured to send a data packet to a router under test according to a preset time interval;

the first data acquisition module 304 is further configured to record a plurality of forwarding delays of the router to be tested;

the first data comparing module 305 is further configured to compare the forwarding delays with a preset second abnormal value range, record a fourth abnormal data number corresponding to the forwarding delay within the second abnormal value range,

the test result determining module 309 is further configured to, when the number of the fourth abnormal data is zero, store the device number corresponding to the router to be tested in a preset qualified database.

The embodiment of the application also discloses computer equipment.

Specifically, the computer device comprises a memory and a processor, wherein the memory stores a computer program which can be loaded by the processor and executes the router automatic test method, the device, the equipment and the storage medium method.

The embodiment of the application also discloses a computer readable storage medium.

Specifically, the computer readable storage medium stores a computer program capable of being loaded by a processor and executing the above-mentioned router automatic test method, apparatus, device and storage medium method, and the computer readable storage medium includes, for example: various media capable of storing program codes, such as a usb disk, a removable hard disk, a Read-only memory (ROM), a Random Access Memory (RAM), a magnetic disk, or an optical disk.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications without inventive contribution to the present embodiment as required after reading the present specification, but all of them are protected by patent law within the scope of the present invention.

Claims

1. An automatic router test method is applied to an automatic router test system, the automatic router test system comprises a rotating device which is used for placing a router to be tested and can rotate, and the method comprises the following steps:

calculating an angle difference between the actual angle parameter and a first preset angle parameter in a preset angle parameter database;

2. The method of claim 1, wherein after recording a first number of outliers corresponding to a data throughput rate within the first range of outliers, further comprising:

if the number of the first abnormal data reaches a preset first standard number value, storing the equipment number corresponding to the router to be tested into a preset unqualified database;

3. The method according to claim 2, wherein the continuously obtaining the data throughput rate of the router under test until the number of first abnormal data in the obtained group of data throughput rates is zero specifically includes:

acquiring a group of data throughput rates of the router to be tested;

comparing the obtained group of data throughput rates with a preset first abnormal value range in sequence, and recording a sequencing number corresponding to the data throughput rate in the first abnormal value range;

4. The method according to claim 2, wherein the storing the device number corresponding to the router under test in a preset unqualified database specifically comprises:

recording the sorting number corresponding to the data throughput rate of which the last data throughput rate is located in the first abnormal value range;

5. The method according to claim 4, wherein the storing the device number corresponding to the router under test in a preset qualified database specifically includes:

acquiring a first actual position of the rotating device relative to a preset standard position, wherein the first actual position comprises a relative distance;

comparing the data throughput rate to the first range of outliers;

6. The method according to claim 5, wherein the automatic test system further includes a temperature changing device for adjusting an ambient temperature of the router under test, and a temperature detecting device for detecting the ambient temperature of the router under test, and the storing the device number corresponding to the router under test in a preset qualified database specifically includes:

detecting the ambient temperature value of the router to be detected by using the temperature detection device;

comparing the data throughput rate with a preset first abnormal value range;

and if the third abnormal data corresponding to a group of data throughput rates of the router to be tested under the second preset temperature parameter are all zero, storing the equipment number corresponding to the router to be tested into a preset qualified database.

7. The method according to claim 6, wherein the storing the device number corresponding to the router under test in a preset qualified database specifically includes:

sending a data packet to the router to be tested according to a preset time interval;

recording a plurality of forwarding time delays of the router to be tested;

8. An automatic router test method, device, equipment and storage medium device are characterized in that the device comprises:

the actual parameter acquisition module (301) is used for acquiring the actual angle parameter of the rotating device when receiving the detection instruction;

a parameter data processing module (302) for calculating an angle difference between the actual angle parameter and a first preset angle parameter in a preset angle parameter database;

the first rotation control module (303) is used for controlling the rotating device to adjust to an angle corresponding to a first preset angle parameter according to the angle difference value;

a first data acquisition module (304) for acquiring a set of data throughput rates of the router under test within a preset time range;

the first data comparison module (305) is used for sequentially comparing the acquired group of data throughput rates with a preset first abnormal value range and recording the number of first abnormal data corresponding to the data throughput rate within the first abnormal value range;

the second rotation control module (306) is used for comparing the number of the first abnormal data with zero, and if the number of the first abnormal data is zero, the rotation device is controlled to adjust to an angle corresponding to a second preset angle parameter;

a second data obtaining module (307) for obtaining a set of data throughput rates of the router under test under the second preset angle parameter;

the second data comparison module (308) is used for sequentially comparing the acquired data throughput rates with a preset first abnormal value range and recording the number of first abnormal data corresponding to the data throughput rate within the first abnormal value range;

and the test result judging module (309) is used for comparing the number of the first abnormal data with zero, and if the number of the first abnormal data corresponding to a group of data throughput rates of the router to be tested under a second preset angle parameter is zero, storing the equipment number corresponding to the router to be tested into a preset qualified database.

9. A computer device comprising a memory and a processor, the memory having stored thereon a computer program that can be loaded by the processor and that executes the method according to any of claims 1 to 7.

10. A computer-readable storage medium, in which a computer program is stored which can be loaded by a processor and which executes the method of any one of claims 1 to 7.