CN117675634A - WIFI network testing method, device and system - Google Patents

Abstract

The application provides a WIFI network testing method, device and system, and relates to the technical field of network testing. The method comprises the following steps: when testing the network condition of the equipment to be tested, determining target WIFI routing equipment corresponding to the test scene information according to the test scene information, wherein the target WIFI routing equipment comprises connecting WIFI routing equipment and/or interference WIFI routing equipment, and the connecting WIFI routing equipment is connected with the equipment to be tested; according to the test scene information, a control instruction is sent to target equipment corresponding to the target WIFI routing equipment, and the control instruction is used for controlling the target equipment to establish network connection with the target WIFI routing equipment; according to the method, the device and the system, the interference scene is simulated according to the requirements of the test scene information, and the network condition of the device to be tested is tested under the interference scene, so that the network condition of the device under different interference scenes can be effectively tested, and references are provided for the subsequent targeted improvement of the product performance of the device.

Description

WIFI network testing method, device and system

Technical Field

The application relates to the technical field of network testing, in particular to a WIFI network testing method, device and system.

Background

Home WIFI networks have become the most popular networking means at present, and more devices support networking and telecommunications over WIFI connections. The devices networked through WIFI are all in a preemption port link resource to ensure stable connection, but interference is caused to other devices.

In order to ensure stable connection of other interfered devices, the product performance of the devices can be purposefully improved based on the network conditions of the devices in different interference scenes. Therefore, how to test the network conditions of the device under different interference scenarios is a problem that needs to be solved by those skilled in the art.

Disclosure of Invention

The WIFI network testing method, device and system can effectively test network conditions of equipment in different interference scenes and provide references for improving product performance of the equipment in a targeted manner.

The application also provides a WIFI network testing device.

The application also provides a test management platform.

The application also provides a WIFI network test system.

The present application also proposes a non-transitory computer readable storage medium.

The WIFI network testing method according to the embodiment of the first aspect of the application is applied to a test management platform and comprises the following steps:

Receiving input test scene information, and determining target WIFI routing equipment corresponding to the test scene information according to the test scene information, wherein the target WIFI routing equipment comprises connecting WIFI routing equipment and/or interference WIFI routing equipment, and the connecting WIFI routing equipment is connected with equipment to be tested;

according to the test scene information, a control instruction is sent to target equipment corresponding to the target WIFI routing equipment, and the control instruction is used for controlling the target equipment to establish network connection with the target WIFI routing equipment;

and under the condition that the target equipment and the target WIFI routing equipment are connected in a network, testing the network condition of the equipment to be tested.

According to the WIFI network testing method provided by the embodiment of the application, according to the testing scene information, a control instruction is sent to target equipment corresponding to target WIFI routing equipment, and the control instruction is used for controlling the target equipment to establish network connection with the target WIFI routing equipment; the method and the device simulate the interference scene according to the requirement of the test scene information, and test the network condition of the device to be tested under the interference scene, so that the network condition of the device under different interference scenes can be effectively tested, and a reference is provided for the subsequent targeted improvement of the product performance of the device.

According to an embodiment of the present application, the test scenario information includes a test scenario type, and determining, according to the test scenario information, a target WIFI routing device corresponding to the test scenario information includes:

under the condition that the test scene type is the same home network test scene, the target WIFI routing equipment comprises the connected WIFI routing equipment;

under the condition that the test scene types are different home network test scenes, the target WIFI routing equipment comprises the interference WIFI routing equipment;

and under the condition that the test scene types are the same home network test scene and different home network test scenes, the target WIFI routing equipment comprises the connecting WIFI routing equipment and the interference WIFI routing equipment.

According to an embodiment of the present application, the test scenario information further includes a network parameter corresponding to the target device, and the method further includes:

according to the network parameters corresponding to the target equipment, controlling the target equipment to be in a network state indicated by the network parameters;

correspondingly, under the condition that the target device and the target WIFI routing device establish network connection, testing the network condition of the device to be tested comprises:

And under the condition that the target equipment and the target WIFI routing equipment are connected in a network mode indicated by the network parameters, testing the network condition of the equipment to be tested.

According to an embodiment of the present application, the network parameter includes a wireless bandwidth occupancy rate, and the controlling, according to the network parameter corresponding to the target device, the target device to be in a network state indicated by the network parameter includes:

determining the target wireless bandwidth occupancy rate corresponding to each target device according to the wireless bandwidth occupancy rate;

and sending a bandwidth occupation instruction to a server for providing network service for the target WIFI routing equipment, wherein the bandwidth occupation instruction is used for controlling the target equipment to be in the network state based on the corresponding target wireless bandwidth occupation rate.

According to an embodiment of the present application, the network parameter includes a signal attenuation value, and the controlling, according to the network parameter corresponding to the target device, the target device to be in a network state indicated by the network parameter includes:

transmitting a signal attenuation instruction to a signal attenuator connected with the target WIFI routing equipment according to the signal attenuation value;

The signal attenuation instruction is used for indicating a target device connected with the signal attenuator to be in the network state based on the signal attenuation value.

According to one embodiment of the present application, the target WIFI routing device includes the interfering WIFI routing device, and the method further includes:

and sending a connection control instruction to the programmable power supply distribution unit, wherein the connection control instruction is used for indicating the interference WIFI routing equipment to establish network connection with a corresponding server.

According to an embodiment of the second aspect of the present application, a WIFI network testing device is applied to a test management platform, and the WIFI network testing device includes:

the receiving unit is used for receiving the input test scene information;

the processing unit is used for determining target WIFI routing equipment corresponding to the test scene information according to the test scene information, wherein the target WIFI routing equipment comprises connecting WIFI routing equipment and/or interference WIFI routing equipment, and the connecting WIFI routing equipment is connected with equipment to be tested;

the first sending unit is used for sending a control instruction to target equipment corresponding to the target WIFI routing equipment according to the test scene information, and the control instruction is used for controlling the target equipment to establish network connection with the target WIFI routing equipment;

And the testing unit is used for testing the network condition of the device to be tested under the condition that the network connection is established between the target device and the target WIFI routing device.

According to the WIFI network testing device provided by the embodiment of the application, according to the testing scene information, a control instruction is sent to target equipment corresponding to target WIFI routing equipment, and the control instruction is used for controlling the target equipment to establish network connection with the target WIFI routing equipment; the method and the device simulate the interference scene according to the requirement of the test scene information, and test the network condition of the device to be tested under the interference scene, so that the network condition of the device under different interference scenes can be effectively tested, and a reference is provided for the subsequent targeted improvement of the product performance of the device.

The above technical solutions in the embodiments of the present application have at least one of the following technical effects: when testing the network condition of the equipment to be tested, determining target WIFI routing equipment corresponding to the test scene information according to the test scene information, wherein the target WIFI routing equipment comprises connecting WIFI routing equipment and/or interference WIFI routing equipment, and the connecting WIFI routing equipment is connected with the equipment to be tested; according to the test scene information, a control instruction is sent to target equipment corresponding to the target WIFI routing equipment, and the control instruction is used for controlling the target equipment to establish network connection with the target WIFI routing equipment; the method and the device simulate the interference scene according to the requirement of the test scene information, and test the network condition of the device to be tested under the interference scene, so that the network condition of the device under different interference scenes can be effectively tested, and a reference is provided for the subsequent targeted improvement of the product performance of the device.

Further, in the embodiment of the present application, under the condition that the test scenario type is the same home network test scenario, it may be understood that only the target device connected to the WIFI routing device provides interference for the device to be tested, that is, the test scenario is a scenario in which the target device connected to the WIFI routing device generates interference, and in this case, the target WIFI routing device is connected to the WIFI routing device; under the condition that the test scene types are different home network test scenes, the test scene type can be understood as a scene that only the target equipment connected to the interference WIFI routing equipment provides interference for the equipment to be tested, namely the test scene is interference generated by the target equipment connected to other interference WIFI routing equipment, and under the condition, the target WIFI routing equipment comprises the interference WIFI routing equipment; under the condition that the test scene types are the same home network and different home network test scenes, the test scene can be understood as a scene that the test scene is generated by connecting the target device on the WIFI routing device and the target device connected on the interference WIFI routing device together, namely the test scene is the scene that the target device connected on the WIFI routing device and the target device connected on other interference WIFI routing devices are connected together, and under the condition that the target WIFI routing device comprises the connecting WIFI routing device and the interference WIFI routing device, the test scene can be determined based on the test scene types so as to test the network condition of the device to be tested under different interference scenes.

Further, in the embodiment of the present application, the test scenario information may include not only the number of devices used to provide the target device for interference, but also network parameters corresponding to the target device, and the test management platform may control, according to the network parameters corresponding to the target device, the target device to be in a network state indicated by the network parameters; and under the condition that the target equipment and the target WIFI routing equipment are connected in a network mode indicated by network parameters, the network condition of the equipment to be tested is tested, so that the network condition of the equipment under different interference scenes can be effectively tested, and references are provided for the subsequent targeted improvement of the product performance of the equipment.

Further, in the embodiment of the present application, when testing the network condition of the device to be tested, the test management platform may determine, according to the wireless bandwidth occupancy rates, target wireless bandwidth occupancy rates corresponding to the target devices respectively; and controlling the wireless bandwidth occupancy rate corresponding to each target device to be the corresponding target wireless bandwidth occupancy rate, so that the network condition of the device to be tested can be tested under the condition that the wireless bandwidth occupancy rate of each target device is the corresponding target wireless bandwidth occupancy rate, and a reference can be provided for the subsequent targeted improvement of the product performance of the device.

Further, in the embodiment of the present application, the test management platform may control the signal attenuation value of the target device connected to the signal attenuator to be the indicated signal attenuation value according to the signal attenuation value; in this way, the network condition of the device to be tested can be tested under the condition that the signal attenuation value of the target device connected with the signal attenuator is the indicated signal attenuation value, and a reference is provided for the subsequent targeted improvement of the product performance of the device.

Further, in the embodiment of the present application, when the target WIFI routing device includes the interfering WIFI routing device, the test management platform may send a connection control instruction to the programmable power distribution unit, where the connection control instruction is used to instruct the interfering WIFI routing device to establish network connection with the corresponding server, so that interference may be provided for the device to be tested by the target device connected to the interfering WIFI routing device.

Additional aspects and advantages of the application will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the application.

Drawings

For a clearer description of the present application or of the prior art, the drawings that are used in the description of the embodiments or of the prior art will be briefly described, it being apparent that the drawings in the description below are some embodiments of the present application, and that other drawings may be obtained from these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural diagram of a home WIFI network testing system according to an embodiment of the present application;

fig. 2 is a schematic structural diagram of a radio link analog control device according to an embodiment of the present application;

fig. 3 is a schematic structural diagram of an analog control device for co-channel interference according to an embodiment of the present application;

fig. 4 is a schematic structural diagram of an adjacent channel interference simulation control device provided in an embodiment of the present application;

fig. 5 is a flow chart of a WIFI network testing method according to an embodiment of the present application;

fig. 6 is a flow chart of another WIFI network testing method according to an embodiment of the present application;

fig. 7 is a flow chart of another WIFI network testing method according to an embodiment of the present application;

fig. 8 is a flowchart of another WIFI network testing method according to an embodiment of the present application;

fig. 9 is a schematic structural diagram of a WIFI network testing apparatus provided in an embodiment of the present application;

fig. 10 is a schematic diagram of an entity structure of an electronic device according to an embodiment of the present application.

Detailed Description

For the purposes of making the objects, technical solutions and advantages of the present application more apparent, the technical solutions in the present application will be clearly and completely described below with reference to the drawings in the present application, and it is apparent that the described embodiments are some, but not all, embodiments of the present application. All other embodiments, which can be made by one of ordinary skill in the art without undue burden from the present disclosure, are within the scope of the present disclosure.

In embodiments of the present application, "at least one" means one or more, and "a plurality" means two or more. "and/or", describes an association relationship of an association object, and indicates that there may be three relationships, for example, a and/or B, and may indicate: there are three cases, a alone, a and B together, and B alone, wherein a, B may be singular or plural. In the text description of the present application, the character "/" generally indicates that the front-rear association object is an or relationship.

The technical scheme provided by the embodiment of the application can be applied to a network test scene, taking a home WIFI network test scene as an example, in a home WIFI network, each device which is networked through WIFI is in a preemption port link resource so as to ensure stable connection of the device, but interference can be caused to other devices.

In order to ensure stable connection of other interfered devices, network conditions of the other interfered devices under different interference scenes can be tested so as to purposefully improve product performance of the devices. Therefore, how to test the network conditions of the device under different interference scenarios is a problem that needs to be solved by those skilled in the art.

In order to test network conditions of equipment in different interference scenes and provide references for improving product performance of the equipment in a targeted manner, the embodiment of the application provides a home WIFI network test system for realizing the home WIFI network test method.

For example, referring to fig. 1, fig. 1 is a schematic structural diagram of a home WIFI network test system provided in an embodiment of the present application, and, as can be seen in conjunction with fig. 1, the home WIFI network test system provided in an embodiment of the present application may include a test management platform, a radio link analog control device, and other interference analog control devices. The other interference simulation control devices include, for example, an on-channel interference simulation control device and an adjacent channel interference simulation control device.

The test management platform is used for controlling the wireless link simulation control device to provide interference required by a test scene according to the test scene information under the condition that the equipment to be tested is connected with the WIFI routing equipment in the wireless link simulation control device, and/or controlling other interference simulation control devices to provide interference required by the test scene according to the test scene information under the condition that the equipment to be tested is connected with the WIFI routing equipment in the wireless link simulation control device, so as to test the network condition of the equipment to be tested under different interference scenes.

The device to be tested may be an electronic device such as a television, a sound box, a refrigerator, etc. with a WIFI function, and may be specifically set according to actual needs, where the embodiment of the present application is not further limited for the specific type of the device to be tested.

For example, referring to fig. 2, fig. 2 is a schematic structural diagram of a radio link simulation control apparatus provided in an embodiment of the present application, where the radio link simulation control apparatus may include the above WIFI routing device, a server that provides network services for the WIFI routing device, a signal attenuator connected to the WIFI routing device, and a device connected to the WIFI routing device and configured to provide interference for a device to be tested. The server may be an Iperf server, and the device for providing interference to the device to be tested may be a raspberry group, which may be specifically set according to actual needs, so as to provide interference required by different interference scenarios for the raspberry group as an interference device, thereby implementing testing network conditions of the device to be tested under different interference scenarios, for example, interference scenarios of different numbers of devices, different wireless bandwidth occupation, and different signal strengths in the same home.

The raspberry pie is a microcomputer based on ARM architecture, has a size of a credit card, has complete computer functions, can run operating systems such as Linux and the like, supports multiple programming languages, and can be applied to various application scenes such as the fields of media centers, intelligent home, internet of things, education and the like.

The hardware configuration of the raspberry group may include: ARM processor, graphics processor (Graphics Processing Unit, GPU), memory, universal serial bus (Universal Serial Bus, USB) interface, ethernet interface, high-definition multimedia interface (High-Definition Multimedia Interface, HDMI), audio Output interface, general purpose input/Output interface (General Purpose Input/Output, GPIO), etc. and support wireless communication interfaces such as WIFI and Bluetooth.

For example, referring to fig. 3, fig. 3 is a schematic structural diagram of an co-channel interference simulation control device provided in the embodiment of the present application, where the co-channel interference simulation control device may include a co-channel interference WIFI routing device, a server for providing network services for the co-channel interference WIFI routing device, a programmable power distribution unit (Power Distribution Unit, PDU) for controlling connection between the co-channel interference WIFI routing device and the server, a signal attenuator connected to the co-channel interference WIFI routing device, and a device connected to the co-channel interference WIFI routing device for providing interference for a device to be tested. The server providing network service for the co-channel interference WIFI routing device may be an Iperf server, the device for providing interference for the device to be tested may be a raspberry group, and the raspberry group may be specifically set according to actual needs, so as to provide interference required by different interference scenes for the device to be tested under different interference scenes, for example, under the same family, the same WIFI channel, different numbers of devices, different wireless bandwidth occupation, and interference scenes with different signal strengths, thereby testing network conditions of the device to be tested.

The number of the same-frequency interference WIFI routing devices can be one or more, and the same-frequency interference WIFI routing devices can be specifically set according to actual needs, and the number of the same-frequency interference WIFI routing devices is not further limited.

For example, referring to fig. 4, fig. 4 is a schematic structural diagram of an adjacent channel interference simulation control device provided in an embodiment of the present application, where the adjacent channel interference simulation control device may include an adjacent channel interference WIFI routing device, a server that provides network services for the adjacent channel interference WIFI routing device, a signal attenuator connected to the adjacent channel interference WIFI routing device, and a device connected to the adjacent channel interference WIFI routing device and configured to provide interference for a device to be tested. The server providing network service for the adjacent channel interference WIFI routing device may be an Iperf server, the device for providing interference for the device to be tested may be a raspberry group, and the raspberry group may be specifically set according to actual needs, so as to provide interference required by different interference scenes for the device to be tested under different interference scenes, for example, under the interference scenes of the same family, different WIFI channels, different numbers of devices, different occupation of wireless bandwidths and different signal strengths, and test network conditions of the device to be tested.

The number of the adjacent-channel interference WIFI routing devices can be one or more, and the adjacent-channel interference WIFI routing devices can be specifically set according to actual needs, and the embodiment of the application is not further limited to the specific number of the adjacent-channel interference WIFI routing devices.

For example, in the embodiment of the present application, the device for providing interference to the device to be tested may be a raspberry group, that is, the raspberry group is used as the interference device to provide interference required by different interference scenarios, so as to test the network condition of the device to be tested under the different interference scenarios.

The raspberry pie is a microcomputer based on ARM architecture, has a size of a credit card, has complete computer functions, can run operating systems such as Linux and the like, supports multiple programming languages, and can be applied to various application scenes such as the fields of media centers, intelligent home, internet of things, education and the like.

The hardware configuration of the raspberry group may include: ARM processor, graphics processor (Graphics Processing Unit, GPU), memory, universal serial bus (Universal Serial Bus, USB) interface, ethernet interface, high-definition multimedia interface (High-Definition Multimedia Interface, HDMI), audio Output interface, general purpose input/Output interface (General Purpose Input/Output, GPIO), etc. and support wireless communication interfaces such as WIFI and Bluetooth.

By combining the home WIFI network testing system shown in the fig. 1-4, the embodiment of the application provides a WIFI network testing method, which can effectively test the network conditions of equipment to be tested under different interference scenes and provides references for the subsequent targeted improvement of the product performance of the equipment.

It can be understood that the WIFI network testing method provided in the embodiment of the present application is not limited to be applied to a family WIFI network testing scenario, and the above-mentioned various analog control devices can be dynamically adjusted through remote control, so as to implement different testing scenarios.

The following detailed description will be made on the WIFI network testing method provided in the present application through the following several specific embodiments. It is to be understood that the following embodiments may be combined with each other and that some embodiments may not be repeated for the same or similar concepts or processes.

Fig. 5 is a flow chart of a WIFI network testing method according to an embodiment of the present application, which is applied to a test management platform in a WIFI network testing system. For example, as can be seen in fig. 5, the WIFI network testing method may include:

s501, receiving input test scene information, and determining target WIFI routing equipment corresponding to the test scene information according to the test scene information, wherein the target WIFI routing equipment comprises connecting WIFI routing equipment and/or interference WIFI routing equipment, and the connecting WIFI routing equipment is connected with equipment to be tested.

When the network condition of the equipment to be tested is tested under the interference scene, a tester can input corresponding test scene information based on the test requirement, so that the test management platform determines the target WIFI routing equipment corresponding to the test scene information based on the input test scene information, and the interference scene is provided for the equipment to be tested.

In this embodiment of the present application, the test scene information may be input by voice, the test scene information may be input by text, the test scene information may be input by graphics context, or the like, and may be specifically set according to actual needs.

For example, in the embodiment of the present application, the target WIFI routing device includes a connection WIFI routing device and/or an interference WIFI routing device.

When the target WIFI routing device includes a connection WIFI routing device, it may be understood that interference is provided for the device to be tested only by connecting the target device on the WIFI routing device; when the target WIFI routing device includes an interfering WIFI routing device, it may be understood that only the target device connected to the interfering WIFI routing device provides interference for the device to be tested; when the target WIFI routing equipment comprises the connecting WIFI routing equipment and the interfering WIFI routing equipment, the target equipment on the connecting WIFI routing equipment and the target equipment connected to the interfering WIFI routing equipment can be understood to provide interference for the equipment to be tested together, and the equipment to be tested can be specifically set according to actual needs.

In this embodiment of the present application, when determining, according to the test scenario information, the target WIFI routing device corresponding to the test scenario information, where the test scenario information includes a test scenario type, it may be understood that the test scenario provides interference for the device to be tested only by connecting the target device on the WIFI routing device, that is, the test scenario is a scenario in which the target device connected to the WIFI routing device generates interference, and in this case, the target WIFI routing device is connected to the WIFI routing device; under the condition that the test scene types are different home network test scenes, the test scene type can be understood as a scene that only the target equipment connected to the interference WIFI routing equipment provides interference for the equipment to be tested, namely the test scene is interference generated by the target equipment connected to other interference WIFI routing equipment, and under the condition, the target WIFI routing equipment comprises the interference WIFI routing equipment; under the condition that the test scene types are the same home network and different home network test scenes, the test scene can be understood as a scene that the test scene is generated by connecting the target device on the WIFI routing device and the target device connected on the interference WIFI routing device together, namely the test scene is the scene that the target device connected on the WIFI routing device and the target device connected on other interference WIFI routing devices are connected together, and under the condition that the target WIFI routing device comprises the connecting WIFI routing device and the interference WIFI routing device, the test scene can be determined based on the test scene types so as to test the network condition of the device to be tested under different interference scenes.

In this embodiment of the present application, when the target WIFI routing device includes the interfering WIFI routing device, the test management platform may send a connection control instruction to the programmable power distribution unit, where the connection control instruction is used to instruct the interfering WIFI routing device to establish network connection with the corresponding server, so that interference may be provided for the device to be tested by the target device connected to the interfering WIFI routing device.

After determining the target WIFI routing device corresponding to the test scenario information, the following S502 may be executed:

s502, according to the test scene information, a control instruction is sent to target equipment corresponding to the target WIFI routing equipment, wherein the control instruction is used for controlling the target equipment to establish network connection with the target WIFI routing equipment.

The target device may be understood as a device connected to the target WIFI routing device and configured to provide interference for a device to be tested.

For example, in the embodiment of the present application, the target device may be a raspberry group, specifically, the WIFI chip of the raspberry group may be used to simulate interference, and when interference is provided by the raspberry group, the Secure Shell (SSH) interface provided by the raspberry group may be used to implement adjustable and controllable number of the target devices that provide interference, so that the number of target devices that provide interference is adjusted by controlling the number of connections of the raspberry group.

For example, in the embodiment of the present application, when a control instruction is sent to a target device corresponding to a target WIFI routing device according to test scenario information, the test scenario information includes the number of devices, and correspondingly, the test platform may determine, according to the number of devices, the number of devices of the target devices from a plurality of devices corresponding to the target WIFI routing device; and sending control instructions to each target device so that each target device provides interference in the test scene under the condition of connection.

For example, when determining the number of target devices from a plurality of devices corresponding to the target WIFI routing devices, the target devices may be sequentially selected according to the device numbers, or the target devices may be randomly selected, or the like, and may specifically be set according to actual needs, where the method for selecting the target devices is not limited further.

S503, under the condition that the target device and the target WIFI routing device establish network connection, testing the network condition of the device to be tested.

The method for establishing network connection between the target device and the target WIFI routing device may refer to the existing related technology, and herein, the embodiments of the present application will not be described in detail.

By way of example, the network conditions may include presence and/or availability, etc., and may be specifically set according to actual needs.

It can be seen that, in the embodiment of the present application, when testing the network condition of the device to be tested, the target WIFI routing device corresponding to the test scenario information may be determined according to the test scenario information, where the target WIFI routing device includes a connection WIFI routing device and/or an interference WIFI routing device, and the connection WIFI routing device is connected with the device to be tested; according to the test scene information, a control instruction is sent to target equipment corresponding to the target WIFI routing equipment, and the control instruction is used for controlling the target equipment to establish network connection with the target WIFI routing equipment; the method and the device simulate the interference scene according to the requirement of the test scene information, and test the network condition of the device to be tested under the interference scene, so that the network condition of the device under different interference scenes can be effectively tested, and a reference is provided for the subsequent targeted improvement of the product performance of the device.

By way of example, the interference scenario may include, but is not limited to, the following typical scenario:

the household WIFI network has weak signals, low wireless link occupation, strong same-frequency interference and strong adjacent-frequency interference; or the household WIFI network has strong signal, high wireless link occupation, strong same-frequency interference and strong adjacent-frequency interference; or the household WIFI network has weak signals, high wireless link occupation, strong same-frequency interference and strong adjacent-frequency interference; or, the household WIFI network has strong signal, low wireless link occupation, strong same-frequency interference and strong adjacent-frequency interference.

Based on the embodiment shown in fig. 5, when providing interference to a device to be tested through a target device connected to a target WIFI routing device, in this embodiment of the present application, the test scenario information may include not only the number of devices of the target device that are used to provide interference, but also network parameters corresponding to the target device, that is, the network parameters of the target device may be set, so that the target device provides interference to the device to be tested in a network state indicated by the network parameters.

For example, when the test scene information further includes a network parameter corresponding to the target device, the test management platform may control the target device to be in a network state indicated by the network parameter according to the network parameter corresponding to the target device; and under the condition that the target equipment and the target WIFI routing equipment are connected in a network mode indicated by network parameters, the network condition of the equipment to be tested is tested, so that the network condition of the equipment under different interference scenes can be effectively tested, and references are provided for the subsequent targeted improvement of the product performance of the equipment.

For example, in the embodiment of the present application, the network parameters may include a wireless bandwidth occupancy rate and/or a signal attenuation value, and of course, other relevant parameters may also be included, and in the following description, the network parameters including the wireless bandwidth occupancy rate and/or the signal attenuation value will be described by taking as an example, but are not meant to be limited thereto.

For example, when the network parameters include wireless bandwidth occupancy rates, the test management platform may determine, according to the wireless bandwidth occupancy rates, the target wireless bandwidth occupancy rates corresponding to the target devices when the target devices are controlled to be in a network state indicated by the network parameters according to the network parameters corresponding to the target devices; and sending a bandwidth occupation instruction to a server providing network service for the target WIFI routing equipment, wherein the bandwidth occupation instruction is used for controlling the target equipment to be in a network state based on the corresponding target wireless bandwidth occupation rate.

In the network state, the wireless bandwidth occupancy rate corresponding to each target device is the corresponding target wireless bandwidth occupancy rate, so that the network condition of the device to be tested can be tested under the condition that the wireless bandwidth occupancy rate of each target device is the corresponding target wireless bandwidth occupancy rate, and a reference is provided for the subsequent targeted improvement of the product performance of the device.

For example, when the test management platform determines the target wireless bandwidth occupancy rates corresponding to the target devices according to the wireless bandwidth occupancy rates, the test management platform may determine the target wireless bandwidth occupancy rates corresponding to the target devices according to an equipartition manner; the target wireless bandwidth occupancy rates corresponding to the target devices can be determined in a random mode, and the target wireless bandwidth occupancy rates can be set according to actual needs.

For example, the wireless bandwidth occupancy rate is 20, the number of target devices is 5, and according to the equipartition mode, the target wireless bandwidth occupancy rates corresponding to the 5 target devices are all 4; according to a random determination manner, for example, the target wireless bandwidth occupancy rates corresponding to the target device 1 are all 8, and the target wireless bandwidth occupancy rates corresponding to the target device 2, the target device 3, the target device 4 and the target device 5 are each 3, which can be specifically set according to actual needs, and herein, the embodiment of the present application is not specifically limited.

For example, when the network parameter includes a signal attenuation value, the test management platform may send a signal attenuation instruction to a signal attenuator connected to the target WIFI routing device according to the signal attenuation value when controlling, according to the network parameter corresponding to the target device, that the target device is in a network state indicated by the network parameter; the signal attenuation instruction is used for indicating that the target equipment connected with the signal attenuator is in a network state based on the signal attenuation value.

In the network state, the signal attenuation value of the target equipment connected with the signal attenuator is the signal attenuation value included by the network parameter, so that the network condition of the equipment to be tested can be tested under the interference scene that the signal attenuation value of the target equipment connected with the signal attenuator is the indicated signal attenuation value, and a reference is provided for the subsequent targeted improvement of the product performance of the equipment.

For example, when the target device is raspberry pie, the raspberry pie integrated Iperf software can be utilized to realize the adjustment and control of wireless bandwidth, and the occupation of wireless bandwidth can be specifically adjusted through the streaming parameters of the Iperf; the raspberry group universal serial bus (Universal Serial Bus, USB) interface can be utilized to connect the program-controlled attenuator to realize the adjustable and controllable signal intensity, so as to adjust the intensity of the WIFI signal by controlling the value of the program-controlled attenuator.

In combination with the above description, the network parameters of the target device are configured according to the test scene information, so that the target device is in a network state indicated by the network parameters, and thus the test management console can test the network condition of the device to be tested under the condition that the target device is in the network state indicated by the network parameters and the target device is in the network state indicated by the network parameters, and can effectively test the network condition of the device under different interference scenes, thereby providing a reference for the subsequent targeted improvement of the product performance of the device.

In order to facilitate understanding of the WIFI network testing method provided by the embodiments of the present application, a target WIFI routing device includes a WIFI routing device, a target device connected to the WIFI routing device is a first device, and a corresponding network parameter is a first network parameter, which is taken as an example, and the WIFI network testing method provided by the embodiments of the present application will be described in detail.

Fig. 6 is a flow chart of another WIFI network testing method according to an embodiment of the present application, which is applied to a test management platform in a WIFI network testing system. For example, as can be seen in fig. 6, the WIFI network testing method may include:

s601, receiving input test scene information, wherein the test scene information comprises a test scene type, the number M of first devices and first network parameters.

Wherein M is a positive integer.

For example, in the embodiment of the present application, the test scenario types may be the same home network test scenario, different home network test scenarios, or the same home network test scenario and different home network test scenarios, which may be specifically set according to actual needs.

Taking the test scene type as the same home network test scene as an example, it can be understood that the first device on the WIFI routing device is only connected to provide interference for the device to be tested, that is, the test scene is a scene that the first device connected to the WIFI routing device generates interference, and in this case, the target WIFI routing device is connected to the WIFI routing device.

For example, in the embodiment of the present application, the first network parameter may include the first wireless bandwidth occupancy rate and/or the first signal attenuation value, and of course, other relevant parameters may also be included, and in the following description, the first network parameter includes the first wireless bandwidth occupancy rate and/or the first signal attenuation value will be described by way of example, but not be construed as representing that the embodiment of the present application is limited thereto.

S602, a connecting WIFI routing device, M first devices and first network parameters corresponding to test scene information are determined.

For example, when determining M first devices from a plurality of devices corresponding to the WIFI routing device, the M first devices may be sequentially selected according to the device number, or the M first devices may be randomly selected, or the like, and may specifically be set according to actual needs, where the method for selecting the M first devices is not limited further.

Taking the example that the first network parameters comprise the first wireless bandwidth occupancy rate and the first signal attenuation value, when determining the first target wireless bandwidth occupancy rate corresponding to each of the first devices, determining the first target wireless bandwidth occupancy rate corresponding to each of the first devices according to an equipartition mode; the first target wireless bandwidth occupancy rates corresponding to the first devices can be determined in a random manner, and can be set according to actual needs, so that the first target wireless bandwidth occupancy rates corresponding to the first devices can be determined.

When determining the first signal attenuation value corresponding to the first device, the difference from the above determination of the first target wireless bandwidth occupancy rate corresponding to each first device is that only the signal attenuation value of the first device connected to the signal attenuator needs to be set to the first signal attenuation value, and the signal attenuation values of other first devices remain unchanged.

S603, a first control instruction is sent to the M first devices, and the first control instruction is used for controlling the M first devices to establish network connection with the WIFI routing device.

S604, controlling M first devices to be in a first network state indicated by the first network parameters according to the first network parameters.

In a first network state, the wireless bandwidth occupancy rates corresponding to the M first devices are all the corresponding first target wireless bandwidth occupancy rates, the signal attenuation value of the first device connected with the signal attenuator is the first signal attenuation value included by the network parameter, so that interference can be provided for the device to be tested through the M first devices in the network state indicated by the first network parameter, the network condition of the device to be tested is tested in an interference scene, and a reference is provided for the subsequent targeted improvement of the product performance of the device.

S605, under the condition that M first devices are in a first network state and network connection is established between the M first devices and the WIFI routing device, testing the network condition of the device to be tested.

It can be seen that in the embodiment of the present application, when testing the network condition of the device to be tested, input test scenario information may be received first, where the test scenario information includes the number M of first devices that provide interference through the WIFI routing device and the first network parameter; and sending a first connection instruction to the M first devices to instruct the M first devices to establish network connection with the WIFI routing device, and controlling the M first devices to be in a first network state indicated by the first network parameters based on the first network parameters so as to simulate an interference scene according to the requirement of test scene information and test the network condition of the device to be tested under the interference scene, so that the network conditions of the device under different interference scenes can be effectively tested, and a reference is provided for the subsequent targeted improvement of the product performance of the device.

It can be understood that when testing the network conditions of the device to be tested under different interference scenarios, the device to be tested may be interfered by the second device connected to other WIFI routing devices in addition to the interference generated by the first device connected to the WIFI routing device. For example, in the embodiment of the present application, other WIFI routing devices may be denoted as interference WIFI routing devices, and when the interference WIFI routing device is the same-frequency interference WIFI routing device, the interference generated by the corresponding second device is the same-frequency interference; when the interference WIFI routing equipment is adjacent frequency interference WIFI routing equipment, the interference generated by the corresponding second equipment is adjacent frequency interference.

Under the same home network test scene and different home network test scenes, the test scene information also comprises the number N of second devices providing interference through the interference WIFI routing device and second network parameters, and the required interference can be understood to not only comprise the interference generated by the first devices connected to the WIFI routing device, but also comprise the interference generated by the second devices connected to the interference WIFI routing device when the network conditions of the devices to be tested are tested under the interference scene, and the network conditions of the devices to be tested are tested under the conditions of the interference generated by the first devices and the interference generated by the second devices, namely the test scene types are the test scenes of the same home network and different home networks.

The second network parameter may include a second wireless bandwidth occupancy rate and/or a second signal attenuation value, and may of course also include other relevant parameters, and in the following description, the second network parameter including the second wireless bandwidth occupancy rate and/or the second signal attenuation value will be described by way of example, but not by way of representing that the embodiments of the present application are limited thereto.

For example, referring to fig. 7, fig. 7 is a flow chart of another WIFI network testing method provided in an embodiment of the present application, which is applied to a test management platform in a WIFI network testing system, where the WIFI network testing method may include:

s701, a connection control instruction is sent to a programmable power supply distribution unit connected with the interference WIFI routing equipment, and the connection control instruction is used for controlling the interference WIFI routing equipment to establish network connection with a corresponding server.

In this embodiment of the present application, the interference WIFI routing device may be a co-channel interference WIFI routing device, may be an adjacent-channel interference WIFI routing device, or may include both the co-channel interference WIFI routing device and the adjacent-channel interference WIFI routing device, which may specifically be set according to actual needs.

In this embodiment of the present application, the number of the interference WIFI routing devices may be one or multiple, and may specifically be set according to actual needs, where the specific number of the interference WIFI routing devices is not further limited.

When the test scenario information further includes the number N of second devices providing interference through the interfering WIFI routing device and the second network parameter, it may be understood that when the network condition of the device to be tested is tested in the interfering scenario, the required interference includes not only the interference generated by the first device connected to the interfering WIFI routing device, but also the interference generated by the second device connected to the interfering WIFI routing device, and in this case, the test management platform may send a connection control instruction to the programmable power distribution unit connected to the interfering WIFI routing device; correspondingly, the connection control instruction controls the interference WIFI routing device to establish network connection with the corresponding server based on the connection control instruction so as to provide interference through the second device connected to the interference WIFI routing device.

It should be noted that, in the embodiment of the present application, the method for establishing network connection between the WIFI router device and the corresponding server may refer to the existing related technology, and the embodiment of the present application will not be described in detail herein for how the WIFI router device establishes network connection with the corresponding server.

S702, under the condition that the interference WIFI routing device and the server are connected in a network mode, a second connection instruction is sent to N second devices, and the second connection instruction is used for indicating the N second devices to be connected in the network mode with the interference WIFI routing device.

Taking the interference WIFI routing device as an example of the co-channel interference WIFI routing device, for example, in combination with fig. 1, if the co-channel interference simulation control device includes multiple candidate devices, N devices may be determined from the multiple candidate devices as second devices, so as to provide co-channel interference required by an interference scenario.

For example, when N devices are determined as the second devices from the plurality of candidate devices, the N devices may be sequentially selected as the second devices according to the numbers of the candidate devices, or the N devices may be determined as the second devices from the plurality of candidate devices at random, or the like, and may specifically be set according to actual needs, where the method for selecting the N second devices is not limited further.

It should be noted that, in the embodiment of the present application, after receiving the second connection instruction, the method for establishing network connection with the co-channel interference WIFI routing device may refer to the existing related technology, and here, the embodiment of the present application will not be described in detail.

For example, in the embodiment of the present application, the second device may be a raspberry group, specifically may utilize a WIFI chip of the raspberry group to simulate interference, and when interference is provided by the raspberry group, the number of the second device that provides interference may be adjusted and controlled by using a Secure Shell (SSH) interface provided by the raspberry group, so as to adjust the number of the second devices that provide interference by controlling the number of connections of the raspberry group.

It can be appreciated that when providing the interference required by the interference scenario through the N second devices, in addition to controlling the connection of the N second devices to the co-channel interference WIFI routing device, the relevant network parameters of the second devices need to be set further based on the requirements of the interference scenario, that is, the following S703 is executed:

s703, controlling N second devices to be in a second network state indicated by the second network parameters based on the second network parameters.

In this embodiment of the present application, when the second network parameter includes a second wireless bandwidth occupancy rate, the test management platform may determine, based on the second network parameter, a second target wireless bandwidth occupancy rate corresponding to each of the N second devices, where the second network state indicated by the second network parameter is where the N second devices are controlled to be in the second network state; sending a second bandwidth occupation instruction to a second server for providing network service for the interference WIFI routing equipment; correspondingly, the second server controls N second devices to be in a second network state based on the second target wireless bandwidth occupancy rate corresponding to each second device based on the second bandwidth occupancy command, and the wireless bandwidth occupancy rate corresponding to each second device is the corresponding second target wireless bandwidth occupancy rate in the second network state. Therefore, the network condition of the equipment to be tested can be tested under the interference scene that the wireless bandwidth occupancy rate of each second equipment is the second target wireless bandwidth occupancy rate, and a reference is provided for the subsequent targeted improvement of the product performance of the equipment.

The test management platform determines, based on the input second wireless bandwidth occupancy rate, the second target wireless bandwidth occupancy rates corresponding to the N second devices respectively, and may determine the second target wireless bandwidth occupancy rates corresponding to the N second devices respectively according to an equipartition manner; the second target wireless bandwidth occupancy rate corresponding to each of the N second devices may also be determined in a random manner, and specifically may be set according to actual needs.

For example, the second wireless bandwidth occupancy rate is 30, the value of m is 6, and according to the equipartition mode, the second target wireless bandwidth occupancy rates corresponding to the 6 second devices are all 5; according to a random determination manner, for example, the second target wireless bandwidth occupancy rates corresponding to the second device 1 are all 10, and the second target wireless bandwidth occupancy rates corresponding to the second device 2, the second device 3, the second device 4, the second device 5 and the second device 6 are each 4, which may be specifically set according to actual needs, where the embodiments of the present application are not specifically limited.

For example, in the embodiment of the present application, when the second network parameter includes a second signal attenuation value, the test management platform may send, based on the second network parameter, a second signal attenuation instruction to a second signal attenuator connected to the interfering WIFI routing device when controlling N second devices to be in a second network state indicated by the second network parameter based on the second network parameter; the second signal attenuation instruction is used for indicating that a second device connected with the second signal attenuator is in a second network state based on a second signal attenuation value in the N second devices; correspondingly, the second signal attenuator controls the second equipment connected with the second signal attenuator to carry out signal attenuation based on the second signal attenuation instruction. In a second network state, the signal attenuation value of the second device connected to the second signal attenuator is the second signal attenuation value. In this way, the network condition of the device to be tested can be tested under the interference scene that the signal attenuation value of the second device connected with the second signal attenuator is the second signal attenuation value, and a reference is provided for the subsequent targeted improvement of the product performance of the device.

For example, when the second device is raspberry pie, wireless bandwidth can be adjusted and controlled by using raspberry pie integrated Iperf software, and specifically, occupancy of wireless bandwidth can be adjusted by using streaming parameters of the Iperf; the raspberry group universal serial bus (Universal Serial Bus, USB) interface can be utilized to connect the program-controlled attenuator to realize the adjustable and controllable signal intensity, so that the intensity of the interference WIFI signal can be adjusted by controlling the value of the program-controlled attenuator.

After controlling N second devices to be in the corresponding second network states based on the second network parameters, the test management platform may execute the following S704:

s704, testing the network condition of the device to be tested under the condition that M first devices are in a first network state and N second devices are in second network parameters.

It can be seen that, in the embodiment of the present application, when testing the network condition of the device to be tested, the M first devices connected to the WIFI routing device may be controlled to be in the first network state based on the test scenario information, and the N second devices connected to the WIFI routing device may be controlled to be in the second network state, so as to simulate the interference scenario according to the requirement of the test scenario information, where the interference scenario includes not only the interference generated by the first devices connected to the WIFI routing device, but also the interference generated by the second devices connected to the WIFI routing device, so that the network condition of the device under different interference scenarios may be effectively tested, and a reference is provided for the subsequent targeted improvement of the product performance of the device.

In order to facilitate understanding of the WIFI network testing method provided in the foregoing embodiments of the present application, a detailed description will be given below of the WIFI network testing method provided in the embodiments of the present application through a specific embodiment.

The interference scenario of the device to be tested is assumed to include: the method comprises the steps of simulating interference generated by equipment connected to WIFI routing equipment in a control device through a wireless link, co-channel interference generated by equipment connected to the WIFI routing equipment in the control device through co-channel interference simulation, and adjacent channel interference generated by equipment connected to the WIFI routing equipment in the control device through adjacent channel interference simulation.

For example, assuming that the number of devices 1 connected to the WIFI routing device is 5, the corresponding wireless bandwidth occupancy is a1, and the signal attenuation value is b1; the number of the devices 2 connected to the same-frequency WIFI routing device is 3, the corresponding wireless bandwidth occupancy rate is a2, and the signal attenuation value is b2; the number of devices 3 connected to the neighboring WIFI routing device is 4, the corresponding wireless bandwidth occupancy rate is a3, and the signal attenuation value is b3, and when the network condition of the device to be tested is tested in such an interference scenario, for example, as shown in fig. 8, fig. 8 is a flow chart of another WIFI network testing method provided in the embodiment of the present application, and the method may include:

The test management platform can send a connection instruction to 5 devices 1 in the wireless link simulation control device, and the corresponding 5 devices 1 establish network connection with the connected WIFI routing device based on the connection instruction; the test management platform controls 5 devices 1 to set respective wireless bandwidth occupancy rates based on the wireless bandwidth occupancy rate as a1, and the sum of the respective wireless bandwidth occupancy rates of the 5 devices 1 is set as the wireless bandwidth occupancy rate as a1; and based on the signal attenuation value being b1, sending a signal attenuation instruction to a signal attenuator connected with the WIFI routing device, wherein the signal attenuator controls the device 1 connected with the signal attenuator to set the signal attenuation value to b1.

The test management platform sends a connection instruction to 3 devices 2 in the same-frequency interference simulation control device, and the 3 devices 2 correspondingly establish network connection with the same-frequency interference WIFI routing device based on the connection instruction; the test management platform controls 3 devices 2 to set respective wireless bandwidth occupancy rates based on the wireless bandwidth occupancy rate as a2, and the 3 devices 2 set the sum of the respective wireless bandwidth occupancy rates as the wireless bandwidth occupancy rate as a2; and based on the signal attenuation value b2, sending a signal attenuation instruction to a signal attenuator connected with the same-frequency interference WIFI routing device, and correspondingly controlling the device 2 connected with the signal attenuator to set the signal attenuation value b2 by the signal attenuator.

The test management platform sends a connection instruction to 4 devices 3 in the adjacent frequency interference simulation control device, and the 4 devices 3 correspondingly establish network connection with the adjacent frequency interference WIFI routing device based on the connection instruction; the test management platform controls 4 devices 3 to set respective wireless bandwidth occupancy rates based on the wireless bandwidth occupancy rate being a3, and the 4 devices 3 set the sum of the respective wireless bandwidth occupancy rates to be the wireless bandwidth occupancy rate being a3; and based on the signal attenuation value b3, a signal attenuation instruction is sent to a signal attenuator connected with the adjacent channel interference WIFI routing equipment, and the signal attenuator correspondingly controls equipment 2 connected with the signal attenuator to set the signal attenuation value b3 so as to simulate an interference scene, so that the network condition of the equipment under different interference scenes can be effectively tested, and a reference is provided for the subsequent targeted improvement of the product performance of the equipment.

The WIFI network testing device provided in the present application is described below, and the WIFI network testing device described below and the WIFI network testing method described above may be referred to correspondingly.

Fig. 9 is a schematic structural diagram of a WIFI network testing apparatus provided in the embodiment of the present application, which is applied to a test management platform, for example, please refer to fig. 9, the WIFI network testing apparatus 90 may include:

A receiving unit 901, configured to receive input test scenario information.

The processing unit 902 is configured to determine, according to the test scenario information, a target WIFI routing device corresponding to the test scenario information, where the target WIFI routing device includes a connection WIFI routing device and/or an interference WIFI routing device, and the connection WIFI routing device is connected with a device to be tested.

The first sending unit 903 is configured to send a control instruction to a target device corresponding to the target WIFI routing device according to the test scenario information, where the control instruction is used to control the target device to establish network connection with the target WIFI routing device.

And the testing unit 904 is configured to test a network condition of the device to be tested when the target device establishes a network connection with the target WIFI routing device.

Illustratively, in the embodiment of the present application, the test scenario information includes a test scenario type, and the processing unit 902 is configured to determine, according to the test scenario information, a target WIFI routing device corresponding to the test scenario information, including:

under the condition that the test scene type is the same home network test scene, the target WIFI routing equipment comprises the connected WIFI routing equipment;

Under the condition that the test scene types are different home network test scenes, the target WIFI routing equipment comprises the interference WIFI routing equipment;

and under the condition that the test scene types are the same home network test scene and different home network test scenes, the target WIFI routing equipment comprises the connecting WIFI routing equipment and the interference WIFI routing equipment.

Illustratively, in the embodiment of the present application, the test scenario information further includes a network parameter corresponding to the target device, and the apparatus 90 further includes a control unit;

the control unit is used for controlling the target equipment to be in a network state indicated by the network parameter according to the network parameter corresponding to the target equipment;

correspondingly, the testing unit 904 is configured to test a network condition of the device to be tested when the target device establishes a network connection with the target WIFI routing device, where the testing unit includes:

and under the condition that the target equipment and the target WIFI routing equipment are connected in a network mode indicated by the network parameters, testing the network condition of the equipment to be tested.

In an embodiment of the present application, the network parameter includes a wireless bandwidth occupancy rate, and the control unit is configured to control, according to a network parameter corresponding to the target device, the target device to be in a network state indicated by the network parameter, including:

determining the target wireless bandwidth occupancy rate corresponding to each target device according to the wireless bandwidth occupancy rate;

and sending a bandwidth occupation instruction to a server for providing network service for the target WIFI routing equipment, wherein the bandwidth occupation instruction is used for controlling the target equipment to be in the network state based on the corresponding target wireless bandwidth occupation rate.

In an embodiment of the present application, the network parameter includes a signal attenuation value, and the control unit is configured to control, according to a network parameter corresponding to the target device, the target device to be in a network state indicated by the network parameter, including:

transmitting a signal attenuation instruction to a signal attenuator connected with the target WIFI routing equipment according to the signal attenuation value;

the signal attenuation instruction is used for indicating a target device connected with the signal attenuator to be in the network state based on the signal attenuation value.

For example, in the embodiment of the present application, the test scenario information includes the number of devices, and the first sending unit 903 is configured to send, according to the test scenario information, a control instruction to a target device corresponding to the target WIFI routing device, where the sending includes:

determining the number of the devices from a plurality of devices corresponding to the target WIFI routing device according to the number of the devices; and sending the control instruction to each target device.

Illustratively, in the embodiment of the present application, the target WIFI routing device includes the interfering WIFI routing device, and the WIFI network testing apparatus 90 further includes a second sending unit;

the second sending unit is used for sending a connection control instruction to the programmable power supply distribution unit, and the connection control instruction is used for indicating the interference WIFI routing equipment to establish network connection with a corresponding server.

The WIFI network testing device 90 provided in this embodiment of the present application may execute the technical scheme of the WIFI network testing method in any of the foregoing embodiments, and the implementation principle and beneficial effects of the WIFI network testing method are similar to those of the WIFI network testing method, and may refer to the implementation principle and beneficial effects of the WIFI network testing method, which are not repeated herein.

The embodiment of the application also provides a WIFI network test system, which can comprise a test management platform, target WIFI routing equipment and target equipment corresponding to the target WIFI routing equipment.

The test management platform is used for receiving input test scene information, determining target WIFI routing equipment corresponding to the test scene information according to the test scene information, wherein the target WIFI routing equipment comprises connecting WIFI routing equipment and/or interference WIFI routing equipment, and the connecting WIFI routing equipment is connected with equipment to be tested;

the test management platform is used for sending a control instruction to target equipment corresponding to the target WIFI routing equipment according to the test scene information;

the target device is used for establishing network connection with the target WIFI routing device based on the control instruction;

the test management platform is used for testing the network condition of the device to be tested under the condition that the network connection is established between the target device and the target WIFI routing device.

The WIFI network test system provided in this embodiment of the present application may execute the technical scheme of the WIFI network test method in any one of the foregoing embodiments, and the implementation principle and beneficial effects of the WIFI network test method are similar to those of the WIFI network test method, and may refer to the implementation principle and beneficial effects of the WIFI network test method, which are not repeated herein.

Fig. 10 is a schematic physical structure of an electronic device according to an embodiment of the present application, as shown in fig. 10, the electronic device may include: a processor 1010, a communication interface (Communications Interface) 1020, a memory 1030, and a communication bus 1040, wherein the processor 1010, the communication interface 1020, and the memory 1030 communicate with each other via the communication bus 1040. Processor 1010 may invoke logic instructions in memory 1030 to perform a WIFI network testing method comprising: receiving input test scene information, and determining target WIFI routing equipment corresponding to the test scene information according to the test scene information, wherein the target WIFI routing equipment comprises connecting WIFI routing equipment and/or interference WIFI routing equipment, and the connecting WIFI routing equipment is connected with equipment to be tested; according to the test scene information, a control instruction is sent to target equipment corresponding to the target WIFI routing equipment, and the control instruction is used for controlling the target equipment to establish network connection with the target WIFI routing equipment; and under the condition that the target equipment and the target WIFI routing equipment are connected in a network, testing the network condition of the equipment to be tested.

Further, the logic instructions in the memory 1030 described above may be implemented in the form of software functional units and stored in a computer readable storage medium when sold or used as a stand alone product. Based on such understanding, the technical solution of the present application may be embodied essentially or in a part contributing to the prior art or in a part of the technical solution, in the form of a software product stored in a storage medium, including several instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to perform all or part of the steps of the methods described in the embodiments of the present application. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-Only Memory (ROM), a random access Memory (RAM, random Access Memory), a magnetic disk, or an optical disk, or other various media capable of storing program codes.

In another aspect, the present application further provides a computer program product, where the computer program product includes a computer program, where the computer program can be stored on a non-transitory computer readable storage medium, and when the computer program is executed by a processor, the computer can execute a WIFI network testing method provided by the methods above, and the method includes: receiving input test scene information, and determining target WIFI routing equipment corresponding to the test scene information according to the test scene information, wherein the target WIFI routing equipment comprises connecting WIFI routing equipment and/or interference WIFI routing equipment, and the connecting WIFI routing equipment is connected with equipment to be tested; according to the test scene information, a control instruction is sent to target equipment corresponding to the target WIFI routing equipment, and the control instruction is used for controlling the target equipment to establish network connection with the target WIFI routing equipment; and under the condition that the target equipment and the target WIFI routing equipment are connected in a network, testing the network condition of the equipment to be tested.

In yet another aspect, the present application further provides a non-transitory computer readable storage medium having stored thereon a computer program, which when executed by a processor is implemented to perform the WIFI network testing method provided by the methods above, the method comprising: receiving input test scene information, and determining target WIFI routing equipment corresponding to the test scene information according to the test scene information, wherein the target WIFI routing equipment comprises connecting WIFI routing equipment and/or interference WIFI routing equipment, and the connecting WIFI routing equipment is connected with equipment to be tested; according to the test scene information, a control instruction is sent to target equipment corresponding to the target WIFI routing equipment, and the control instruction is used for controlling the target equipment to establish network connection with the target WIFI routing equipment; and under the condition that the target equipment and the target WIFI routing equipment are connected in a network, testing the network condition of the equipment to be tested.

The apparatus embodiments described above are merely illustrative, wherein the elements illustrated as separate elements may or may not be physically separate, and the elements shown as elements may or may not be physical elements, may be located in one place, or may be distributed over a plurality of network elements. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of this embodiment. Those of ordinary skill in the art will understand and implement the present invention without undue burden.

From the above description of the embodiments, it will be apparent to those skilled in the art that the embodiments may be implemented by means of software plus necessary general hardware platforms, or of course may be implemented by means of hardware. Based on this understanding, the foregoing technical solution may be embodied essentially or in a part contributing to the prior art in the form of a software product, which may be stored in a computer readable storage medium, such as ROM/RAM, a magnetic disk, an optical disk, etc., including several instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to execute the method described in the respective embodiments or some parts of the embodiments.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present application, and are not limiting thereof; although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the corresponding technical solutions.

Claims (11)

1. The WIFI network testing method is characterized by being applied to a testing management platform and comprising the following steps of:

receiving input test scene information, and determining target WIFI routing equipment corresponding to the test scene information according to the test scene information, wherein the target WIFI routing equipment comprises connecting WIFI routing equipment and/or interference WIFI routing equipment, and the connecting WIFI routing equipment is connected with equipment to be tested;

according to the test scene information, a control instruction is sent to target equipment corresponding to the target WIFI routing equipment, and the control instruction is used for controlling the target equipment to establish network connection with the target WIFI routing equipment;

and under the condition that the target equipment and the target WIFI routing equipment are connected in a network, testing the network condition of the equipment to be tested.

2. The method according to claim 1, wherein the test scenario information includes a test scenario type, and the determining, according to the test scenario information, a target WIFI routing device corresponding to the test scenario information includes:

under the condition that the test scene type is the same home network test scene, the target WIFI routing equipment comprises the connected WIFI routing equipment;

Under the condition that the test scene types are different home network test scenes, the target WIFI routing equipment comprises the interference WIFI routing equipment;

and under the condition that the test scene types are the same home network test scene and different home network test scenes, the target WIFI routing equipment comprises the connecting WIFI routing equipment and the interference WIFI routing equipment.

3. The method according to claim 1 or 2, wherein the test scenario information further comprises network parameters corresponding to the target device, the method further comprising:

according to the network parameters corresponding to the target equipment, controlling the target equipment to be in a network state indicated by the network parameters;

correspondingly, under the condition that the target device and the target WIFI routing device establish network connection, testing the network condition of the device to be tested comprises:

and under the condition that the target equipment and the target WIFI routing equipment are connected in a network mode indicated by the network parameters, testing the network condition of the equipment to be tested.

4. The method according to claim 3, wherein the network parameter includes a wireless bandwidth occupancy rate, and the controlling the target device to be in a network state indicated by the network parameter according to the network parameter corresponding to the target device includes:

Determining the target wireless bandwidth occupancy rate corresponding to each target device according to the wireless bandwidth occupancy rate;

and sending a bandwidth occupation instruction to a server for providing network service for the target WIFI routing equipment, wherein the bandwidth occupation instruction is used for controlling the target equipment to be in the network state based on the corresponding target wireless bandwidth occupation rate.

5. A method according to claim 3, wherein the network parameter comprises a signal attenuation value, and the controlling the target device to be in the network state indicated by the network parameter according to the network parameter corresponding to the target device comprises:

transmitting a signal attenuation instruction to a signal attenuator connected with the target WIFI routing equipment according to the signal attenuation value;

the signal attenuation instruction is used for indicating a target device connected with the signal attenuator to be in the network state based on the signal attenuation value.

6. The method according to claim 1 or 2, wherein the test scenario information includes a device number, and the sending, according to the test scenario information, a control instruction to a target device corresponding to the target WIFI routing device includes:

Determining the number of the devices from a plurality of devices corresponding to the target WIFI routing device according to the number of the devices;

and sending the control instruction to each target device.

7. The method according to claim 1 or 2, wherein the interfering WIFI routing device is included in the target WIFI routing device, the method further comprising:

and sending a connection control instruction to the programmable power supply distribution unit, wherein the connection control instruction is used for indicating the interference WIFI routing equipment to establish network connection with a corresponding server.

8. The utility model provides a WIFI network testing arrangement which characterized in that is applied to test management platform, includes:

the receiving unit is used for receiving the input test scene information;

the processing unit is used for determining target WIFI routing equipment corresponding to the test scene information according to the test scene information, wherein the target WIFI routing equipment comprises connecting WIFI routing equipment and/or interference WIFI routing equipment, and the connecting WIFI routing equipment is connected with equipment to be tested;

the first sending unit is used for sending a control instruction to target equipment corresponding to the target WIFI routing equipment according to the test scene information, and the control instruction is used for controlling the target equipment to establish network connection with the target WIFI routing equipment;

And the testing unit is used for testing the network condition of the device to be tested under the condition that the network connection is established between the target device and the target WIFI routing device.

9. A test management platform comprising a memory, a processor and a computer program stored on the memory and executable on the processor, wherein the processor implements the WIFI network test method according to any one of claims 1 to 7 when executing the program.

10. The WIFI network test system is characterized by comprising a test management platform, target WIFI routing equipment and target equipment corresponding to the target WIFI routing equipment;

the test management platform is used for receiving input test scene information, determining target WIFI routing equipment corresponding to the test scene information according to the test scene information, wherein the target WIFI routing equipment comprises connecting WIFI routing equipment and/or interference WIFI routing equipment, and the connecting WIFI routing equipment is connected with equipment to be tested;

the test management platform is used for sending a control instruction to target equipment corresponding to the target WIFI routing equipment according to the test scene information;

The target device is used for establishing network connection with the target WIFI routing device based on the control instruction;

the test management platform is used for testing the network condition of the device to be tested under the condition that the network connection is established between the target device and the target WIFI routing device.

11. A computer readable storage medium, on which a computer program is stored, characterized in that the computer program, when executed by a processor, implements the WIFI network testing method according to any of claims 1 to 7.