CN111130949A - Testing device, and WIFI wireless router testing method and system - Google Patents

Abstract

The invention discloses a testing device, a WIFI wireless router testing method and a system, comprising the following steps: placing a plurality of testing devices at different indoor positions, and accessing the control terminal and the plurality of testing devices to the same WIFI wireless network; one test device is designated as a data sending end, and other test devices are designated as data receiving ends; the control terminal sends a data sending instruction to the data sending terminal; the data sending end sends test data to the data receiving end; after the data receiving end receives the test data, all the test devices send uplink and downlink rate data to the control terminal; and judging whether the test frequency reaches a preset threshold value, if so, calculating the average value of the downlink rate data when each test device is used as a data receiving end and outputting the average value as a test result, otherwise, setting the test device with the highest downlink rate as a data sending end, and continuously testing other test devices as the data receiving end. The WIFI router parameter acquisition method and device can conveniently acquire WIFI router parameters, are convenient to carry, and are low in cost, simple and efficient in test.

Description

Testing device, and WIFI wireless router testing method and system

Technical Field

The invention belongs to the technical field of router testing, and particularly relates to a testing device, a WIFI wireless router testing method and a WIFI wireless router testing system.

Background

With the advent of the internet era, wireless routers are increasingly popularized among thousands of households, and in order to ensure that the router works stably and meets different use scenes, a common method is to test in a shielding box in the router research and development process to determine whether parameters such as up-down speed, time delay and the like meet requirements or not, and the scheme has the advantages of high manufacturing cost and difficulty in moving at will. And it is difficult to obtain accurate data under the complicated practical environment of the user.

Disclosure of Invention

Aiming at the problems that the WIFI wireless router in the prior art is complex in use environment, expensive in professional test equipment and inconvenient to carry, the invention provides the WIFI wireless router test method, the WIFI wireless router test system and the WIFI wireless router test device, which can obtain parameters of the WIFI wireless router in an actual application environment, are convenient to carry, low in cost and simple and efficient to test.

The testing device comprises a control unit and a WIFI communication module connected with the control unit;

the WIFI communication module is used for carrying out data transmission with a control terminal and other test devices in the same WIFI network;

the control unit is used for sending test data to other test devices through the WIFI communication module according to data transmission rate information and data transmission time information in a data sending instruction when the data sending instruction is received; for receiving test data; and the device is used for sending uplink and downlink rate data to the control terminal after receiving the test data.

Further, the device also comprises a working frequency prompting device connected with the control unit;

the working frequency prompting device comprises a 2.4G indicator light and a 5G indicator light;

and the control unit is also used for setting working frequency according to the working frequency information in the data sending instruction after receiving the data sending instruction, and sending a corresponding trigger signal to the working frequency prompting device according to the working frequency so as to light a 2.4G indicator lamp or a 5G indicator lamp.

A WIFI wireless router's test system includes:

the WIFI wireless router comprises a WIFI wireless router, a control terminal and any one of the testing devices;

the control terminal is used for carrying out data transmission with the testing device through the WIFI wireless router; the device is used for appointing a testing device as a data sending end during the initial test; the data sending end is used for sending a data sending instruction to the data sending end, and the data sending instruction comprises data transmission rate information and data transmission time information; the device is used for judging whether the testing times reach a preset threshold value after receiving the uplink and downlink rate data sent by all the testing devices, calculating the average value of the downlink rate data when all the testing devices are used as data receiving ends and outputting the average value as a testing result if the testing times reach the preset threshold value, and designating the testing device with the highest downlink rate as a data sending end if the testing times do not reach the preset threshold value.

Further, the data transmission instruction may further include operating frequency information.

A method for testing a WIFI wireless router comprises the WIFI wireless router, a control terminal and any one of the testing devices, and further comprises the following steps:

s1: placing a plurality of testing devices at different indoor positions, and connecting a control terminal and the plurality of testing devices with a WIFI wireless router respectively to access the same WIFI wireless network; one test device is designated as a data sending end, and other test devices are designated as data receiving ends;

s2: the control terminal sends a data sending instruction to the data sending terminal, wherein the data sending instruction comprises data transmission rate information and data transmission time information; the control terminal also sends a data receiving instruction to the data receiving terminal;

s3: after receiving a data sending instruction, the data sending end sends test data to the data receiving end according to the data transmission rate information and the data transmission time information;

s4: the data receiving end receives test data after receiving a data receiving instruction, and all the test devices send uplink and downlink rate data to the control terminal after receiving the test data;

s5: after the control terminal receives the uplink and downlink rate data sent by each test device, adding one to the test times, judging whether the test times reach a preset threshold value, if so, executing step S6, otherwise, designating the test device with the highest downlink rate as a data sending end, and executing step S2 if other test devices are data receiving ends;

s6: and the control terminal calculates the average value of the downlink speed data of each testing device when the testing device is used as a data receiving end and outputs the average value as a testing result.

Further, the data sending instruction further comprises working frequency information; in step S3, after receiving the data sending instruction, the data sending end sets a working frequency according to the working frequency information.

Further, the step S6 of calculating an average value of the downlink rate data of each test apparatus when the test apparatus is used as a data receiving end includes:

the preset threshold value is more than or equal to 3; the first tested downlink rate data is not used in calculating the average value of the downlink rate data.

Compared with the prior art, the invention has the following beneficial effects:

the control terminal enables the test devices to transmit data with specific length for many times, the WIFI transmission rates of the test devices at different positions are tested, and the performance of the WIFI wireless router is judged by comparing the difference of the downlink rates of the test devices at different positions, so that the improvement of design or the improvement of equipment installation environment is facilitated, and the appropriate indoor installation position of the WIFI wireless router is found.

Drawings

Fig. 1 is a schematic flow chart of a testing method of a WIFI wireless router in the present invention.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with reference to the specific drawings.

The testing device comprises a control unit and a WIFI communication module connected with the control unit;

the WIFI communication module is used for carrying out data transmission with a control terminal and other test devices in the same WIFI network;

the control unit is used for sending test data to other test devices through the WIFI communication module according to data transmission rate information and data transmission time information in a data sending instruction when the data sending instruction is received; the device is used for receiving the test data when receiving the data receiving instruction; and the device is used for sending uplink and downlink rate data when receiving the test data to the control terminal after receiving the test data.

The control unit in this scheme may be an MCU. The WIFI communication module can comprise an antenna and a WIFI chip. The control terminal can be a fixed terminal (such as a PC, a server and the like) or a mobile terminal (such as a mobile phone, a tablet and the like). The data sending command and the data receiving command can be sent by the control terminal, and the data sending command comprises data transmission rate information and data transmission time information. The data transmission rate refers to the amount of data sent by the data sending end per second, the data transmission time refers to the time for the data sending end to send data, and the data length of the total test data sent by the data sending end can be calculated according to the data transmission rate and the data transmission time, wherein the data length is data transmission rate multiplied by data transmission time. The testing device can also comprise an HDMI interface and a USB interface, wherein the HDMI interface can be used for accessing a television or other display output devices, and the USB interface can be used for accessing a U disk or an input device (such as a mouse) and the like so as to perform setting operation on the testing device.

The testing device of the scheme can be used for mutual data transmission and uplink and downlink rate recording under a WIFI network environment, uplink and downlink rate data are sent to the control terminal so that data processing and comparison can be conducted later, parameters of the WIFI wireless router can be easily acquired, and the testing device is simple in structure, convenient to carry and low in cost.

As an optimized scheme, the testing device further comprises a working frequency prompting device connected with the control unit;

the working frequency prompting device comprises a 2.4G indicator light and a 5G indicator light;

and the control unit is also used for setting working frequency according to the working frequency information in the data sending instruction after receiving the data sending instruction, and sending a corresponding prompt signal to a working frequency prompt device according to the working frequency so as to light a 2.4G indicator lamp or a 5G indicator lamp.

The data transmission instruction sent from the control terminal can also comprise working frequency information, and the working frequency comprises 2.4G and 5G; correspondingly, the testing device is also provided with a working frequency prompting device, and when the working frequency is determined, the corresponding indicator lamp is lightened; the WIFI communication module also adopts a dual-frequency WIFI module.

A WIFI wireless router's test system includes:

the WIFI wireless router comprises a WIFI wireless router, a control terminal and any one of the testing devices;

the control terminal is used for carrying out data transmission with the testing device through the WIFI wireless router; the device is used for appointing a testing device as a data sending end during the initial test; the data sending end is used for sending a data sending instruction to the data sending end, and the data sending instruction comprises data transmission rate information and data transmission time information; the device is used for judging whether the testing times reach a preset threshold value after receiving the uplink and downlink rate data sent by all the testing devices, calculating the average value of the downlink rate data when all the testing devices are used as data receiving ends and outputting the average value as a testing result if the testing times reach the preset threshold value, and designating the testing device with the highest downlink rate as a data sending end if the testing times do not reach the preset threshold value.

As an optimized solution, the data sending instruction may further include operating frequency information.

The control terminal can be a fixed terminal (such as a PC, a server and the like) or a mobile terminal (such as a mobile phone, a tablet and the like).

A method for testing a WIFI wireless router, as shown in fig. 1, includes a testing device, a control terminal, and a WIFI wireless router, and further includes the following steps:

s1: placing a plurality of testing devices at different indoor positions, and connecting a control terminal and the plurality of testing devices with a WIFI wireless router respectively to access the same WIFI wireless network; one test device is designated as a data sending end, and other test devices are designated as data receiving ends;

s2: the control terminal sends a data sending instruction to the data sending terminal, wherein the data sending instruction comprises data transmission rate information and data transmission time information; the control terminal also sends a data receiving instruction to the data receiving terminal;

s3: after receiving a data sending instruction, the data sending end sends test data to the data receiving end according to the data transmission rate information and the data transmission time information;

s4: the data receiving end receives test data after receiving a data receiving instruction, and all the test devices send uplink and downlink rate data to the control terminal after receiving the test data;

s5: after the control terminal receives the uplink and downlink rate data sent by each test device (after a test is completed, the test frequency is increased by one), whether the test frequency reaches a preset threshold value is judged, if so, step S6 is executed, otherwise, the test device with the highest downlink rate is designated as a data sending end, and other test devices are data receiving ends, and step S2 is executed;

s6: and the control terminal calculates the average value of the downlink speed data of each testing device when the testing device is used as a data receiving end and outputs the average value as a testing result.

The test device may be a test device as described hereinbefore. The control terminal can be a fixed terminal (such as a PC, a server and the like) or a mobile terminal (such as a mobile phone, a tablet and the like). The data transmission rate refers to the data volume sent by the data sending end per second, the data transmission time refers to the time for sending data by the data sending end, and the data length of the total test data sent by the data sending end can be calculated according to the data transmission rate and the data transmission time, wherein the data length is the data transmission rate multiplied by the data transmission time; for example, if the control terminal sets the data transmission rate to 100Mbps and the data transmission time to 3 seconds, the data length of the transmission is 100 × 3 ÷ 8 ═ 37.5 mbytes. The steps S2 to S4 are main testing processes, the testing times are initially zero, the testing times are increased by one when the step S4 is completed, the testing is terminated if a preset threshold is reached, and the next testing is continued if the preset threshold is not reached; the preset threshold in step S5 is at least 2, and is usually set to be 3 or more for better testing effect. The average may generally be an arithmetic average. Generally, if the average value of the downlink rate data of the testing device at a certain position in multiple tests is high, the signal coverage at the position is good, the anti-interference capability is strong, and the device is suitable for being used as the installation position of the WIFI wireless router.

According to the scheme, data with specific length are transmitted among the test devices for multiple times through the control terminal, the WIFI transmission rate of the test devices at different positions is tested, the downlink Rate (RX) and uplink rate (TX) data of each test device in a test result are used as references, the performance of the WIFI wireless router can be judged according to the relative difference of the data, the performances comprise a signal coverage range, the anti-interference capacity and the like, so that the improvement of design or the improvement of equipment installation environment is facilitated, and the appropriate indoor installation position of the WIFI wireless router is found.

As an optimized scheme, the data sending instruction further comprises working frequency information; in step S3, after receiving the data sending instruction, the data sending end sets a working frequency according to the working frequency information.

The operating frequency may be 2.4G or 5G. The WIFI wireless router can be tested in different working frequency bands respectively, and the best indoor installation position of the WIFI wireless router can be found out by synthesizing test results of different frequency bands.

As an optimized scheme, the calculating, in step S6, an average value of downlink rate data of each test apparatus when the test apparatus is used as a data receiving end includes:

the preset threshold value is more than or equal to 3; the first tested downlink rate data is not used in calculating the average value of the downlink rate data.

Because the data sending end in the first test is randomly designated and used for starting the test, the reference value of the downlink data in the first test is not as good as that of the test for a plurality of times. To further improve the data accuracy, it can be considered to omit the value of the first test, and only use the downlink data of the next several tests to calculate the mean value as the reference.

Generally speaking, after the test device and the test method of the scheme are adopted, a router development engineer or an installation engineer and a tester can conveniently test the performance of the WIFI wireless router in an office place, a family and a public place, and the improvement design efficiency and the installation efficiency of the router are greatly improved.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above embodiment, and all technical solutions belonging to the principle of the present invention belong to the protection scope of the present invention. Modifications to the disclosed embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention.

Claims (7)

1. The testing device is characterized by comprising a control unit and a WIFI communication module connected with the control unit;

the WIFI communication module is used for carrying out data transmission with a control terminal and other test devices in the same WIFI network;

the control unit is used for sending test data to other test devices through the WIFI communication module according to data transmission rate information and data transmission time information in a data sending instruction when the data sending instruction is received; for receiving test data; and the device is used for sending uplink and downlink rate data to the control terminal after receiving the test data.

2. The testing device of claim 1, further comprising an operating frequency prompting device connected to the control unit;

the working frequency prompting device comprises a 2.4G indicator light and a 5G indicator light;

and the control unit is also used for setting working frequency according to the working frequency information in the data sending instruction after receiving the data sending instruction, and sending a corresponding trigger signal to the working frequency prompting device according to the working frequency so as to light a 2.4G indicator lamp or a 5G indicator lamp.

3. The utility model provides a WIFI wireless router's test system which characterized in that includes:

a WIFI wireless router, a control terminal and the test device of any one of claims 1 or 2;

the control terminal is used for carrying out data transmission with the testing device through the WIFI wireless router; the device is used for appointing a testing device as a data sending end during the initial test; the data sending end is used for sending a data sending instruction to the data sending end, and the data sending instruction comprises data transmission rate information and data transmission time information; the device is used for judging whether the testing times reach a preset threshold value after receiving the uplink and downlink rate data sent by all the testing devices, calculating the average value of the downlink rate data when all the testing devices are used as data receiving ends and outputting the average value as a testing result if the testing times reach the preset threshold value, and designating the testing device with the highest downlink rate as a data sending end if the testing times do not reach the preset threshold value.

4. The system of claim 3, wherein the system further comprises:

the data transmission instructions may also include operating frequency information.

5. A method for testing a WIFI wireless router, which is characterized by comprising the WIFI wireless router, a control terminal and the testing device of any one of claims 1 or 2, and further comprising the following steps:

s1: placing a plurality of testing devices at different indoor positions, and connecting a control terminal and the plurality of testing devices with a WIFI wireless router respectively to access the same WIFI wireless network; one test device is designated as a data sending end, and other test devices are designated as data receiving ends;

s2: the control terminal sends a data sending instruction to the data sending terminal, wherein the data sending instruction comprises data transmission rate information and data transmission time information; the control terminal also sends a data receiving instruction to the data receiving terminal;

s3: after receiving a data sending instruction, the data sending end sends test data to the data receiving end according to the data transmission rate information and the data transmission time information;

s4: the data receiving end receives test data after receiving a data receiving instruction, and all the test devices send uplink and downlink rate data to the control terminal after receiving the test data;

s5: after the control terminal receives the uplink and downlink rate data sent by each test device, adding one to the test times, judging whether the test times reach a preset threshold value, if so, executing step S6, otherwise, designating the test device with the highest downlink rate as a data sending end, and executing step S2 if other test devices are data receiving ends;

s6: and the control terminal calculates the average value of the downlink speed data of each testing device when the testing device is used as a data receiving end and outputs the average value as a testing result.

6. The method for testing the WIFI wireless router of claim 5, wherein the method comprises the following steps:

the data sending instruction also comprises working frequency information; in step S3, after receiving the data sending instruction, the data sending end sets a working frequency according to the working frequency information.

7. The method for testing the WIFI wireless router of claim 5, wherein the method comprises the following steps:

in step S6, the calculating an average value of the downlink rate data of each test apparatus when the test apparatus is used as a data receiving end includes:

the preset threshold value is more than or equal to 3; the first tested downlink rate data is not used in calculating the average value of the downlink rate data.

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