CN115802405A - Wi-Fi performance test system - Google Patents

Abstract

The invention discloses a Wi-Fi performance test system, which comprises: the system comprises a first rotary table, a router to be tested, a test host, an accompanying device and at least one test auxiliary machine; the first rotating table is arranged at a first test position; the router to be tested is placed on the first rotary table and is connected with the test host; the test host controls a first rotation angle of the first rotary table according to a preset strategy, and is selectively connected with the at least one test auxiliary machine according to the preset strategy and sends a test instruction to the test auxiliary machine; the test auxiliary machine is placed at a second test position and connected with the test assistant device, the test auxiliary machine generates first test data between the test assistant device and the router to be tested according to the test instruction, and then the first test data are sent to the test main machine. The Wi-Fi performance testing system provided by the invention can automatically complete the test of Wi-Fi performance, reduce the labor cost and improve the testing efficiency and the testing accuracy.

Description

Wi-Fi performance test system

Technical Field

The invention relates to the technical field of Wi-Fi performance testing, in particular to a Wi-Fi performance testing system.

Background

Due to the popularity of Wi-Fi products, more and more users are concerned about the performance of Wi-Fi products.

The existing Wi-Fi performance test usually depends on manual work, and testers hold test equipment to test at different test point positions respectively, so that the method is time-consuming and labor-consuming, and the accuracy is low.

Therefore, a system capable of efficiently and accurately completing the Wi-Fi performance test is needed.

Disclosure of Invention

The invention provides a Wi-Fi performance testing system, which aims to solve the problems of high labor cost, low efficiency and low accuracy of the existing Wi-Fi performance testing.

According to an aspect of the present invention, there is provided a Wi-Fi performance test system, the test system comprising: the system comprises a first rotary table, a router to be tested, a test host, an accompanying device and at least one test auxiliary machine;

the first rotating table is arranged at a first test position;

the router to be tested is placed on the first rotary table and is connected with the test host;

the test host controls a first rotation angle of the first rotary table according to a preset strategy, and is selectively connected with the at least one test auxiliary machine according to the preset strategy and sends a test instruction to the test auxiliary machine;

the testing auxiliary machine is placed at a second testing position and connected with the accompanying equipment, the testing auxiliary machine controls the accompanying equipment and the router to be tested to establish Wi-Fi connection according to the testing instruction, first testing data between the accompanying equipment and the router to be tested are generated according to the testing instruction, and then the first testing data are sent to the testing main machine.

Optionally, the test system further comprises: a second turntable;

the second rotary table is used for placing the accompanying equipment, and the test host machine also controls a second rotation angle of the second rotary table according to a preset strategy.

Optionally, the test system further comprises: the router of the competitive products is provided with a router,

the competitive product router is placed on the first rotary table and connected with the test host; and the test auxiliary machine generates second test data between the test assistant device and the competitive product router according to the test instruction, and then sends the second test data to the test main machine.

Optionally, the test system further comprises: the network card to be tested is connected with the network card,

the network card to be tested is placed on the second rotary table and is connected with the test auxiliary machine; and the test auxiliary machine generates third test data between the network card to be tested and the router to be tested according to the test instruction, and then sends the third test data to the test main machine.

Optionally, the controlling, by the test host, the first rotation angle of the first turntable according to a preset policy includes:

equally dividing the rotation angle of the first rotary table into a plurality of rotation units according to a preset strategy;

and after the first rotary table is controlled to be electrified, sequentially increasing the rotation angle of the first rotary table according to the rotation unit so as to obtain first test data between the accompanying equipment and the router to be tested under different rotation angles.

Optionally, the first turntable is a lifting turntable, and the test host further controls the height of the first turntable according to a preset strategy so as to obtain first test data between the accompanying device and the router to be tested at different heights.

Optionally, the test auxiliary machine includes a plurality of test auxiliary machines, and the test host further selectively connects the at least one test auxiliary machine according to a preset policy and sends a test instruction to the test auxiliary machine, including:

sequentially numbering a plurality of test auxiliary machines according to a preset strategy;

and sequentially selecting and connecting the test auxiliary machines according to the serial number sequence and sending a test instruction to the test auxiliary machines so as to control the plurality of the test auxiliary machines and the router to be tested to sequentially generate first test data.

Optionally, the test system generates a test report according to the first test data, the second test data, and the third test data.

Optionally, the first test data, the second test data, and the third test data at least include: throughput average performance data, directional data, signal coverage data, and associated rate data.

Optionally, the channel width of the router to be tested at 2.4GHz frequency is 40MHz, and the channel width of the router to be tested at 5GHz frequency is 80MHz.

The Wi-Fi performance testing system provided by the invention can automatically complete the Wi-Fi performance testing, reduce the labor cost and improve the testing efficiency and the testing accuracy.

It should be understood that the statements in this section do not necessarily identify key or critical features of the embodiments of the present invention, nor do they necessarily limit the scope of the invention. Other features of the present invention will become apparent from the following description.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a Wi-Fi performance testing system according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of another Wi-Fi performance testing system according to a second embodiment of the present invention.

Detailed Description

In order to make the technical solutions of the present invention better understood, 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 terms "first," "second," and the like in the description and claims of the present invention and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the invention described herein are capable of operation in other sequences than those illustrated or described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

Example one

Fig. 1 is a schematic structural diagram of a Wi-Fi performance testing system according to an embodiment of the present invention, and as shown in fig. 1, the performance testing system 10 includes: the system comprises a first rotary table 11, a router to be tested 12, a test host 13, an auxiliary device 14 and at least one test auxiliary machine 15; the first turntable 11 is arranged at a first test position; the router 12 to be tested is placed on the first rotary table 11 and is connected with the test host 13; the test host 13 controls the first rotation angle of the first rotary table 11 according to a preset strategy, and the test host 13 is further selectively connected with at least one test auxiliary 15 according to the preset strategy and sends a test instruction to the test auxiliary 15; the test auxiliary machine 15 is placed at the second test position and connected with the slave device 14, the test auxiliary machine 15 controls the slave device 14 and the router 12 to be tested to establish Wi-Fi connection according to the test instruction, first test data between the slave device 14 and the router 12 to be tested are generated according to the test instruction, and then the first test data are sent to the test main machine 13. In this embodiment, the number of the test auxiliary 15 and the number of the test assisting devices 14 are both 5 for exemplary illustration, and in other embodiments, the number of the test auxiliary and the number of the test assisting devices may be set according to requirements, which is not limited in this application.

Specifically, the router 12 to be tested may be connected to the test host 13 through a network cable, and the router 12 to be tested may send out a wireless signal under the control of the test host 13 to establish a Wi-Fi connection with the accessory device 14. Wi-Fi performance is also different when the angle of antenna is different in the router 12 that awaits measuring, therefore Wi-Fi performance when router 12 that awaits measuring is in a plurality of different angles need be tested when the test, thereby improve the rate of accuracy of test, in this embodiment, first revolving stage 11 can be connected with test host 13 through RS485 serial port line, in the test process, router 12 that awaits measuring places on first revolving stage 11, test host 13 can be according to the turned angle of the first revolving stage of strategy control first revolving stage 11 of predetermineeing, thereby Wi-Fi performance when the antenna of router 12 that awaits measuring is in different angles is tested, thereby improve the rate of accuracy of test.

With continued reference to fig. 1, in the present embodiment, the test master 13 is connected to the 5 test slaves 15 through the switch 16 and the network cable, and the test master 13 selectively connects to at least one test slave 15 according to a preset policy and sends a test command to the test slave 15. The test auxiliary machine 15 is placed at the second test position and connected with the auxiliary device 14, the test auxiliary machine 15 controls the auxiliary device 14 and the router 12 to be tested to establish Wi-Fi connection according to the test instruction, first test data between the auxiliary device 14 and the router 12 to be tested are generated according to the test instruction, and then the first test data are sent to the test main machine 13.

The Wi-Fi performance test system provided by the embodiment of the invention comprises: the system comprises a first rotary table, a router to be tested, a test host, an accompanying device and at least one test auxiliary machine; the first rotating table is arranged at a first test position; the router to be tested is placed on the first rotary table and is connected with the test host; the test host controls a first rotation angle of the first rotary table according to a preset strategy, and is selectively connected with the at least one test auxiliary machine according to the preset strategy and sends a test instruction to the test auxiliary machine; the testing auxiliary machine is placed at a second testing position and connected with the accompanying equipment, the testing auxiliary machine controls the accompanying equipment and the router to be tested to establish Wi-Fi connection according to the testing instruction, first testing data between the accompanying equipment and the router to be tested are generated according to the testing instruction, and then the first testing data are sent to the testing main machine. The Wi-Fi performance testing system provided by the invention can automatically complete the test of Wi-Fi performance, reduce the labor cost and improve the testing efficiency and the testing accuracy.

Example two

Fig. 2 is a schematic structural diagram of another Wi-Fi performance testing system according to a second embodiment of the present invention. As shown in fig. 2, on the basis of the first embodiment, the test system 10 further includes: and the second rotary table 17 is used for placing the accompanying equipment 14, and the test host 13 also controls a second rotation angle of the second rotary table 17 according to a preset strategy.

In this embodiment, the number of the second rotary table 17, the test auxiliary machine 15 and the test accompanying device 14 is 5, the second rotary table 17 is used for placing the test accompanying device 14, the test host 13 is connected with the second rotary table 17 through a HUB (multiport repeater) and a plurality of network cables, and the test host 13 can control the second rotation angles of the 5 second rotary tables 17 respectively according to preset strategy control. When the antenna angles of the accompanying equipment are different, the Wi-Fi signal intensity received from the router to be tested is different, so that in the testing process, the testing host controls the second rotary table to rotate according to a preset strategy, the Wi-Fi signal intensity received by the antenna of the accompanying equipment from the router to be tested at different angles is measured, and the testing accuracy is improved.

Optionally, on the basis of the above embodiment, the test system 10 further includes: and the competitive product router is arranged on the first rotary table 11 and connected with the test host 13, and the test auxiliary machine 15 generates second test data between the test assisting device 14 and the competitive product router according to the test instruction and then sends the second test data to the test host 13. The second data is compared with the first data, so that the performance of the router to be tested and the performance of the router for the competitive products can be rapidly and visually compared, and a direction is provided for research, development and upgrading of products.

Optionally, on the basis of the above embodiment, the test system 10 further includes: the network card to be tested is placed on the second rotary table 17 and is connected with the test auxiliary machine 15; the test auxiliary machine 15 generates third test data between the network card to be tested and the router 12 to be tested according to the test instruction, and then sends the third test data to the test main machine 13.

Optionally, the test host 13 controls the first rotation angle of the first turntable 11 according to a preset strategy, including: equally dividing the rotation angle of the first rotary table 12 into a plurality of rotation units according to a preset strategy; after the first rotary table 12 is controlled to be powered on, the rotation angle of the first rotary table 12 is sequentially set in an increasing mode according to the rotation units so as to obtain first test data between the accompanying equipment 14 and the router 12 to be tested under different rotation angles.

Optionally, the first rotating table 11 may be a lifting rotating table, and the test host 13 further controls the height of the first rotating table 11 according to a preset policy, so as to obtain first test data between the slave device 14 and the router 12 to be tested at different heights. Optionally, the second turntable 17 may be a lifting turntable, and the test host 13 further controls the height of the second turntable 17 according to a preset policy, so as to obtain first test data between the slave device 14 and the router 12 to be tested at different heights. In other embodiments, the lifting turntable is provided with two platforms with different heights, and the router to be tested and the router for competition are respectively placed on the two platforms with different heights, so that the router to be tested and the router for competition cannot block each other in the testing process, and the transmission of signals is not interfered. When the router to be tested and the router to be competitive products are tested respectively, the height of the first rotary table is adjusted to ensure that the router to be tested and the router to be competitive products are at the same height, and therefore the accuracy of the test is improved.

Optionally, the test auxiliary machines include a plurality of test auxiliary machines, and the test host 13 further selectively connects at least one test auxiliary machine 15 according to a preset policy and sends a test instruction to the test auxiliary machine 15, where the method includes: sequentially numbering the plurality of test auxiliary machines 15 according to a preset strategy; and sequentially selecting and connecting the test auxiliary machine 15 according to the serial number sequence and sending a test instruction to the test auxiliary machine 15 so as to control the plurality of the slave devices and the router to be tested to sequentially generate first test data.

Optionally, the test system generates a test report according to the first test data, the second test data and the third test data. Specifically, the test report comprises a histogram and a directional diagram generated according to the first test data, the second test data and the third test data, and the Wi-Fi performance of the router to be tested and the competitive product router can be intuitively and clearly analyzed through the histogram and the directional diagram.

Optionally, the first test data, the second test data, and the third test data at least include: throughput average performance data, directional data, signal coverage data, and associated rate data.

Specifically, the throughput is the number of data successfully transmitted in a unit time, in this embodiment, the test host sequentially selects and connects the test slave and sends a test instruction to the test slave, the test slave performs throughput tests on uplink (upload data), downlink (download data), and uplink + downlink (upload data + download data) according to the test instruction, and as exemplarily described with 5 test slaves, the average values in the uplink, downlink, and uplink + downlink directions are respectively taken at 5 second test positions, that is, 15 sets of data in total at 5 second test positions, so as to obtain throughput average performance data. The directionality is that the antenna has different radiation or receiving capabilities in different directions in space, and in this embodiment, the test system realizes that the Wi-Fi performance of the antenna of the router to be tested when the antenna is at different angles and the Wi-Fi signal strength received by the antenna of the accompanying device when the antenna is at different angles are tested by controlling the rotation angles of the first rotary table and the second rotary table. In this embodiment, the test system may generate a Wi-Fi thermodynamic diagram according to the signal strength values of the plurality of second test locations, so as to analyze and compare the coverage capability of the Wi-Fi signal. The test system can control the auxiliary equipment or the wireless network card to perform wireless association and disassociation with the router to be tested, and obtain the current signal value and the physical connection rate, so as to obtain association rate data.

Optionally, the channel width of the router 12 to be tested at 2.4GHz frequency is 40MHz, and the channel width of the router 12 to be tested at 5GHz frequency is 80MHz. In other embodiments, the channel width for the 2.4GHz frequency of the bidding router is 40MHz, and the channel width for the 5GHz frequency of the bidding router is 80MHz.

It should be understood that various forms of the flows shown above may be used, with steps reordered, added, or deleted. For example, the steps described in the present invention may be executed in parallel, sequentially, or in different orders, and are not limited herein as long as the desired results of the technical solution of the present invention can be achieved.

The above-described embodiments should not be construed as limiting the scope of the invention. It should be understood by those skilled in the art that various modifications, combinations, sub-combinations and substitutions may be made in accordance with design requirements and other factors. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A Wi-Fi performance testing system, the testing system comprising: the system comprises a first rotary table, a router to be tested, a test host, an accompanying device and at least one test auxiliary machine;

the first rotating table is arranged at a first test position;

the router to be tested is placed on the first rotary table and is connected with the test host;

the test host controls a first rotation angle of the first rotary table according to a preset strategy, and is selectively connected with the at least one test auxiliary machine according to the preset strategy and sends a test instruction to the test auxiliary machine;

the testing auxiliary machine is placed at a second testing position and connected with the accompanying equipment, the testing auxiliary machine controls the accompanying equipment and the router to be tested to establish Wi-Fi connection according to the testing instruction, first testing data between the accompanying equipment and the router to be tested are generated according to the testing instruction, and then the first testing data are sent to the testing main machine.

2. The Wi-Fi performance testing system of claim 1, wherein the testing system further comprises: a second turntable;

the second rotary table is used for placing the accompanying equipment, and the test host machine also controls a second rotation angle of the second rotary table according to a preset strategy.

3. The Wi-Fi performance testing system of claim 2, wherein the testing system further comprises: the router of the competitive products is provided with a router,

the competitive product router is placed on the first rotary table and connected with the test host; and the test auxiliary machine generates second test data between the test assistant device and the competitive product router according to the test instruction, and then sends the second test data to the test main machine.

4. The Wi-Fi performance testing system of claim 2, wherein the testing system further comprises: the network card to be tested is connected with the network card,

the network card to be tested is placed on the second rotary table and is connected with the test auxiliary machine; and the test auxiliary machine generates third test data between the network card to be tested and the router to be tested according to the test instruction, and then sends the third test data to the test main machine.

5. The Wi-Fi performance testing system of claim 1, wherein the test host controls the first rotation angle of the first turntable according to a preset policy, comprising:

equally dividing the rotation angle of the first rotary table into a plurality of rotation units according to a preset strategy;

and after the first rotary table is controlled to be electrified, sequentially increasing the rotation angle of the first rotary table according to the rotation unit so as to obtain first test data between the accompanying equipment and the router to be tested under different rotation angles.

6. The Wi-Fi performance test system of claim 1, wherein the first turntable is a lifting turntable, and the test host further controls the height of the first turntable according to a preset strategy to obtain first test data between the accessory device and the router to be tested at different heights.

7. The Wi-Fi performance test system of claim 1, wherein the test auxiliary comprises a plurality of test auxiliaries, and the test master further selectively connects to the at least one test auxiliary and sends a test command to the test auxiliary according to a preset policy, including:

sequentially numbering a plurality of test auxiliary machines according to a preset strategy;

and sequentially selecting and connecting the test auxiliary machines according to the serial number sequence and sending a test instruction to the test auxiliary machines so as to control the plurality of the test auxiliary machines and the router to be tested to sequentially generate first test data.

8. The Wi-Fi performance testing system of claim 4, wherein the testing system is to generate a test report based on the first test data, the second test data, and the third test data.

9. The Wi-Fi performance testing system of claim 4, wherein the first, second, and third test data comprise at least: throughput average performance data, directional data, signal coverage data, and associated rate data.

10. The Wi-Fi performance testing system of claim 1, wherein the channel width at 2.4GHz frequency of the router under test is 40MHz, and the channel width at 5GHz frequency of the router under test is 80MHz.

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