CN110166317B - Test method for influencing Wi-Fi throughput - Google Patents

Abstract

The invention provides a test method for influencing Wi-Fi throughput, which comprises the steps of providing a first device to be tested and a second device to be tested which are provided with different on-chip operating systems, wherein the first device to be tested and the second device to be tested are both connected with a wireless device; the first tested device is provided with a first processor, and the second tested device is provided with a second processor; the test method comprises the following steps: step S1, respectively carrying out Wi-Fi throughput test on the first tested device and the second tested device to obtain a first test result; step S2, after replacing a second processor in a second device under test with a first processor, performing Wi-Fi throughput test on the second device under test to obtain a second test result; and step S3, judging the influence of the on-chip operating system and the processor on the Wi-Fi throughput according to the first test result and the second test result. The invention has the beneficial effects that: and judging whether hardware except the processor affects the Wi-Fi throughput or not, thereby reducing the test cost and improving the test precision.

Description

Test method for influencing Wi-Fi throughput

Technical Field

The invention relates to the field of network testing, in particular to a testing method for influencing Wi-Fi throughput.

Background

With the popularization of wireless networks, the performance requirements on wireless local area networks (WIFI) are higher and higher, and it is more and more important how to test and optimize the WIFI network to obtain a higher-performance WIFI network. In the test of the WIFI network, the WIFI throughput is greatly affected by differences of environments, devices, platforms and the like.

Whether the WIFI throughput is influenced by hardware except the processor in the test process cannot be qualitatively, quantitatively and quickly eliminated in the process of testing the WIFI throughput of different processing systems.

Disclosure of Invention

In view of the above problems in the prior art, a testing method for affecting Wi-Fi throughput is provided to reduce testing cost and improve testing accuracy.

The specific technical scheme is as follows:

a test method for influencing Wi-Fi throughput is characterized in that a first device to be tested and a second device to be tested with different on-chip operating systems are provided, and a wireless device is connected to both the first device to be tested and the second device to be tested;

the first tested device is provided with a first processor, and the second tested device is provided with a second processor; the test method comprises the following steps:

step S1, respectively carrying out Wi-Fi throughput test on the first tested device and the second tested device to obtain a first test result;

Step S2, after a second processor in the second device under test is replaced by a first processor, the Wi-Fi throughput test is carried out on the second device under test to obtain a second test result;

and step S3, judging the influence of the on-chip operating system and the processor on the Wi-Fi throughput according to the first test result and the second test result.

Preferably, the testing method, wherein the first test result comprises:

carrying out Wi-Fi throughput testing on first tested equipment to obtain first throughput; and

and the second throughput is obtained by performing Wi-Fi throughput testing on the second tested device.

Preferably, the method of testing, wherein the second test result comprises:

and the third throughput is obtained by performing Wi-Fi throughput testing on the second device to be tested provided with the first processor.

Preferably, the testing method, wherein the step S3 specifically includes:

step S31, comparing the third throughput with the first throughput to obtain a second comparison difference;

step S32, determining whether the second comparison difference is within a first preset range;

if yes, the on-chip operating system and the processor are shown to affect the Wi-Fi throughput;

if not, the Wi-Fi throughput is influenced by the on-chip operating system, the processor and hardware except the processor.

Preferably, the test method, wherein the hardware configuration of the first device under test and the second device under test are the same.

Preferably, the method of testing, wherein the wireless device is a wireless router.

Preferably, the testing method, wherein the step S1 specifically includes: and respectively carrying out Wi-Fi throughput testing on the first tested equipment and the second tested equipment in a preset environment scene.

Preferably, the method is tested, wherein the environmental scenario is a shielded room or an office provided with a signal interference source.

Preferably, the testing method includes that the on-chip operating system of the first device under test is android 4.4.2; and/or

The on-chip operating system of the second device under test is android 8.0.

The technical scheme has the following advantages or beneficial effects: the Wi-Fi throughput testing is carried out on the tested equipment provided with different processors and different on-chip operating systems, the processors and the on-chip operating systems are replaced in a crossed mode, Wi-Fi throughput testing is carried out on one tested equipment, and the two testing results are compared to judge whether hardware except the processors affects the Wi-Fi throughput or not, so that the testing cost is reduced, and the testing precision is improved.

Drawings

Embodiments of the present invention will now be described more fully hereinafter with reference to the accompanying drawings. The drawings are, however, to be regarded as illustrative and explanatory only and are not restrictive of the scope of the invention.

FIG. 1 is a flow diagram of an embodiment of a test method of the present invention for affecting Wi-Fi throughput;

FIG. 2 is a flowchart of step S2 of an embodiment of the test method of the present invention for affecting Wi-Fi throughput;

FIG. 3 is a flowchart of step S3 of an embodiment of the testing method of the present invention for affecting Wi-Fi throughput.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that the embodiments and features of the embodiments may be combined with each other without conflict.

The invention is further described with reference to the following drawings and specific examples, which are not intended to be limiting.

The invention comprises a test method for influencing Wi-Fi throughput, wherein a first device to be tested and a second device to be tested which have different on-chip operating systems are provided, and the first device to be tested and the second device to be tested are both connected with a wireless device;

the first device under test is provided with a first processor, and the second device under test is provided with a second processor; as shown in fig. 1, the test method comprises the following steps:

step S1, respectively carrying out Wi-Fi throughput test on the first tested device and the second tested device to obtain a first test result;

step S2, after replacing a second processor in a second device under test with a first processor, performing Wi-Fi throughput test on the second device under test to obtain a second test result;

and step S3, judging the influence of the on-chip operating system and the processor on the Wi-Fi throughput according to the first test result and the second test result.

In the embodiment, Wi-Fi throughput tests are performed on devices to be tested provided with different processors and different on-chip operating systems, so that the Wi-Fi throughput of the different devices to be tested is found to be different, and in order to judge whether only the processors and the on-chip operating systems affect the Wi-Fi throughput, the processors and the on-chip operating systems are replaced alternately, and the Wi-Fi throughput tests are performed on one of the devices to be tested, and the test results of the two times are compared to determine whether hardware except the processors affects the Wi-Fi throughput, so that the test cost is reduced, and the test precision is improved.

Further, in the above embodiment, the first test result includes:

carrying out Wi-Fi throughput testing on first tested equipment to obtain first throughput; and

and the second throughput is obtained by performing Wi-Fi throughput testing on the second tested device.

By comparing the first throughput and the second throughput in the first test result, a large difference is found, but the result cannot judge whether only the processor and the on-chip operating system influence the Wi-Fi throughput.

Further, in the above embodiment, the second test result includes:

and the third throughput is obtained by performing Wi-Fi throughput testing on the second device to be tested provided with the first processor.

Further, in the above embodiment, as shown in fig. 2, the step S2 may include the following steps:

step S21, respectively detaching the second processor in the second device under test and the first processor in the first device under test;

step S22, a second processor is provided on the first device under test.

In the above embodiment, the second processor in the second device under test and the first processor in the first device under test may be detached by the soldering station, so as to obtain a processor bonding area on the second device under test and a processor bonding area in the first device under test, then the detached first processor is disposed in the second device under test, and the configuration information of the second device under test is modified, so that the second device under test runs the first processor, and the on-chip operating system on the first processor is transferred to the second device under test, and then only the second device under test needs to be tested for Wi-Fi throughput, that is, the Wi-Fi throughput test does not need to be performed on each device under test after the processors are replaced in a crossing manner, thereby reducing the test cost.

In the above embodiment, in order to enable the second device under test to operate the first processor more effectively, the WIFI & BT function may be continuously optimized after the configuration information of the second device under test is modified.

The configuration information may be eFUSE information, wherein the eFUSE information includes a chip ID;

it should be noted that the eFUSE information may be configuration parameter information.

Further, in the foregoing embodiment, as shown in fig. 3, step S3 specifically includes:

step S31, comparing the third throughput with the first throughput to obtain a second comparison difference;

step S32, determining whether the second comparison difference is within a first preset range;

if yes, the on-chip operating system and the processor are shown to affect the Wi-Fi throughput;

if not, the Wi-Fi throughput is influenced by the on-chip operating system, the processor and hardware except the processor.

In the embodiment, only the third throughput and the first throughput need to be compared, that is, the Wi-Fi throughput test does not need to be performed on each tested device after the processors are replaced in a crossing manner, so that the test cost is reduced.

Further, in the above-described embodiment, the hardware configurations of the first device under test and the second device under test are the same. Therefore, the first tested device and the second tested device can be compatible with the first processor and the second processor.

Further, in the above embodiment, the wireless device is a wireless router.

Further, in the above embodiment, step S1 specifically includes: and respectively carrying out Wi-Fi throughput testing on the first tested equipment and the second tested equipment in a preset environment scene.

Further, in the above embodiments, the environmental scene is a shielded room without a signal interference source or an office provided with a signal interference source.

Wherein the test result obtained by carrying out the Wi-Fi throughput test in the shielding room is close to the test result obtained by carrying out the Wi-Fi throughput test in the office and is close to the theoretical test value of the Wi-Fi throughput test.

In step S1, Wi-Fi throughput tests must be performed on the first device under test and the second device under test respectively in the same environmental scenario, and in step S3, Wi-Fi throughput tests are also performed in the environmental scenario of step S1, so as to improve the accuracy of the tests.

Further, in the above embodiment, the on-chip operating system of the first device under test is android 4.4.2; and/or

The on-chip operating system of the second device under test is android 8.0.

TABLE 1

Further, in a preferred embodiment, as shown in table 1 above, Wi-Fi throughput tests are performed on the first device under test and the second device under test in the shielded room under the settings of table 1, respectively, to obtain a first throughput and a second throughput, wherein the first throughput is 480Mbps and the second throughput is 400Mbps in the test results in table 1;

Finding that the difference between the first throughput and the second throughput is large, namely that the Wi-Fi throughput is influenced;

then, in order to judge the influence factors of Wi-Fi throughput, a second processor in second tested equipment is replaced by a first processor, a corresponding on-chip operating system is replaced, and Wi-Fi throughput testing is performed on the second tested equipment provided with the first processor, so that third throughput is obtained, wherein the third throughput in the test results in the table 1 is 470 Mbps;

and finally, judging whether the difference value between the first throughput and the third throughput is within a first preset range, wherein the difference value between the first throughput and the third throughput in the embodiment is within the first preset range, namely, the difference value represents that the Wi-Fi throughput is only affected by the on-chip operating system and the processor, so that the influence of hardware except the processor is eliminated, wherein the first preset range can be 20 Mbps.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made without departing from the spirit and scope of the invention.

Claims (6)

1. A testing method for influencing Wi-Fi throughput is characterized in that a first device under test and a second device under test with different on-chip operating systems are provided, and the first device under test and the second device under test are both connected with a wireless device;

the first device under test is provided with a first processor, and the second device under test is provided with a second processor; the testing method comprises the following steps:

step S1, respectively carrying out Wi-Fi throughput testing on the first tested device and the second tested device to obtain a first test result;

step S2, after the second processor in the second device under test is replaced by the first processor, performing Wi-Fi throughput test on the second device under test to obtain a second test result;

step S3, judging the influence of the on-chip operating system and the processor on the Wi-Fi throughput according to the first test result and the second test result;

the first test result comprises:

carrying out Wi-Fi throughput testing on the first tested equipment to obtain first throughput; and

performing Wi-Fi throughput testing on the second tested device to obtain second throughput;

The second test result comprises:

performing Wi-Fi throughput testing on the second device under test provided with the first processor to obtain third throughput;

the step S3 specifically includes:

step S31, comparing the third throughput with the first throughput to obtain a second comparison difference;

step S32, determining whether the second comparison difference is within a first preset range;

if yes, the influence of the on-chip operating system and the processor on the Wi-Fi throughput is shown;

and if not, the influence of the on-chip operating system, the processor and hardware except the processor on the Wi-Fi throughput is shown.

2. The test method of claim 1, wherein the hardware configuration of the first device under test and the second device under test are the same.

3. The testing method of claim 1, wherein the wireless device is a wireless router.

4. The testing method according to claim 1, wherein the step S1 specifically includes: and respectively carrying out Wi-Fi throughput testing on the first tested equipment and the second tested equipment in a preset environment scene.

5. The testing method of claim 4, wherein the environmental scenario is a shielded room or an office provided with a signal interference source.

6. The test method of claim 1, wherein the on-chip operating system of the first device-under-test is android 4.4.2; and/or

The on-chip operating system of the second device under test is android 8.0.

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