CN113645645B - Mesh network roaming test method, device, equipment and storage medium - Google Patents

Abstract

The invention relates to the technical field of Mesh networks, and discloses a method, a device, equipment and a storage medium for testing Mesh network roaming, wherein the method comprises the following steps: determining a Mesh network to be tested according to the current network information of the master device and the slave device and the signal regulating device set; respectively performing roaming test on members of the Mesh network to be tested and the wireless terminal by adjusting each signal adjusting device in the signal adjusting device set to obtain a first test result and a second test result; generating a roaming performance test result of the Mesh network to be tested according to the first test result and the second test result; according to the invention, through adjusting each signal adjusting device to perform roaming test on the member of the Mesh network to be tested and the wireless terminal respectively, a corresponding roaming performance test result is obtained, and compared with the prior art, the accuracy of testing the roaming performance of the Mesh network can be effectively improved by performing the roaming test on the Mesh network by means of a real home environment.

Description

Mesh network roaming test method, device, equipment and storage medium

Technical Field

The present invention relates to the field of Mesh networks, and in particular, to a method, an apparatus, a device, and a storage medium for testing Mesh network roaming.

Background

In recent years, with the rapid development of mobile terminal technology and the wider application of wireless local area networks, the performance requirements of people on wireless networks are higher and higher, in order to meet the requirements of flexible use of multiple terminals, the wireless networks are required to have stronger penetrating power, wider covering power and more stable transmission capability, the Mesh networks are generated, and the Mesh networks are multi-hop, automatic backhaul and automatic networking wireless network structures and have the characteristics of strong maneuverability, strong survivability, flexible networking modes and the like.

The foregoing is provided merely for the purpose of facilitating understanding of the technical solutions of the present invention and is not intended to represent an admission that the foregoing is prior art.

Disclosure of Invention

The invention mainly aims to provide a test method, a device, equipment and a storage medium for Mesh network roaming, which aim to solve the technical problem that the accuracy of testing the roaming performance of a Mesh system cannot be effectively improved in the prior art.

In order to achieve the above object, the present invention provides a method for testing Mesh network roaming, which includes the following steps:

acquiring current network information of a master device and a slave device;

determining a Mesh network to be tested according to the current network information and the signal conditioning equipment set;

performing roaming test on members of the Mesh network to be tested by adjusting each signal adjusting device in the signal adjusting device set to obtain a first test result;

performing roaming test on the wireless terminal of the Mesh network to be tested by adjusting each signal adjusting device in the signal adjusting device set to obtain a second test result;

and generating a roaming performance test result of the Mesh network to be tested according to the first test result and the second test result.

Optionally, the roaming test is performed on the member of the Mesh network to be tested by adjusting each signal conditioning device in the signal conditioning device set to obtain a first test result, including:

Extracting a first signal conditioning device, a second signal conditioning device and a third signal conditioning device in the signal conditioning device set;

the current signal intensity between the master device and the slave device is respectively adjusted through the first signal adjusting device, the second signal adjusting device and the third signal adjusting device, so that current signal intensity change information is obtained;

and when the current signal strength change information is in a first preset strength change range, performing roaming test on members of the Mesh network to be tested to obtain a first test result.

Optionally, before the roaming test is performed on the wireless terminal of the Mesh network to be tested by adjusting each signal conditioning device in the signal conditioning device set to obtain the second test result, the method further includes:

acquiring a first accompanying and testing shielding device connected with a master device and a slave device;

the signal intensity of the wireless terminal, the master equipment and the slave equipment in the first accompanying shielding equipment is adjusted through first signal adjusting equipment, so that corresponding signal intensity change information is obtained;

and when the signal strength change information is in a second preset strength change range, performing roaming test on the wireless terminal of the Mesh network to be tested to obtain a second test result.

Optionally, the adjusting, by the first signal adjusting device, signal intensity information of the wireless terminal in the first accompanying shielding device and the master device and the slave device to obtain corresponding signal intensity change information includes:

controlling the connection information of the wireless terminal in the first accompanying shielding equipment through first signal adjusting equipment;

and when the controlled connection information is the connection information with the main equipment, the first signal adjusting equipment is used for adjusting the signal of the wireless terminal in the first accompanying and testing shielding equipment to obtain corresponding signal strength change information.

Optionally, after the controlling, by the first signal conditioning device, the connection information of the wireless terminal in the first accompanying shielding device further includes:

when the controlled connection information is the connection information with the first slave device, the first signal adjusting device is used for adjusting the signal intensity information between the wireless terminal in the first accompanying shielding device and the second slave device, so as to obtain corresponding signal intensity change information.

Optionally, after the controlling, by the first signal conditioning device, the connection information of the wireless terminal in the first accompanying shielding device further includes:

When the controlled connection information is the connection information of the first slave device, acquiring the current connection information of the wireless terminal in the second accompany shielding device;

when the current connection information is the connection information of the first slave device, acquiring load information of the Mesh network to be tested;

and adjusting the signal intensity between the wireless terminal and the first slave device in the first accompanying shielding device according to the load information and the first signal adjusting device to obtain corresponding signal intensity change information.

Optionally, after determining the Mesh network to be tested according to the current network information and the signal conditioning device set, the method further includes:

obtaining the current state of the slave device, wherein the slave device comprises a first slave device and a second slave device;

extracting a current state of the first slave device, and setting the first slave device to be in a power-off state when the current state is a connected state;

after the setting is successful, acquiring the connection state of the second slave device;

and testing the roaming repair function in the Mesh network to be tested according to the connection state to obtain a corresponding roaming performance test result.

In addition, in order to achieve the above objective, the present invention further provides a device for testing Mesh network roaming, where the device for testing Mesh network roaming includes:

The acquisition module is used for acquiring the current network information of the master equipment and the slave equipment;

the determining module is used for determining the Mesh network to be tested according to the current network information and the signal regulating device set;

the roaming test module is used for carrying out roaming test on the members of the Mesh network to be tested by adjusting each signal adjusting device in the signal adjusting device set to obtain a first test result;

the roaming test is further used for performing the roaming test on the wireless terminal of the Mesh network to be tested by adjusting each signal adjusting device in the signal adjusting device set to obtain a second test result;

the generation module is used for generating a roaming performance test result of the Mesh network to be tested according to the first test result and the second test result.

In addition, in order to achieve the above objective, the present invention further provides a test device for Mesh network roaming, where the test device for Mesh network roaming includes: the device comprises a memory, a processor and a Mesh network roaming test program which is stored in the memory and can run on the processor, wherein the Mesh network roaming test program is configured to realize the Mesh network roaming test method.

In addition, in order to achieve the above objective, the present invention further provides a storage medium, where a test program of Mesh network roaming is stored, and the test method of Mesh network roaming is implemented when the test program of Mesh network roaming is executed by a processor.

According to the Mesh network roaming test method, the current network information of the master device and the slave device is obtained; determining a Mesh network to be tested according to the current network information and the signal conditioning equipment set; performing roaming test on members of the Mesh network to be tested by adjusting each signal adjusting device in the signal adjusting device set to obtain a first test result; performing roaming test on the wireless terminal of the Mesh network to be tested by adjusting each signal adjusting device in the signal adjusting device set to obtain a second test result; generating a roaming performance test result of the Mesh network to be tested according to the first test result and the second test result; according to the invention, the members of the Mesh network to be tested and the wireless terminal are subjected to roaming test respectively by adjusting the signal adjusting devices, so that the corresponding roaming performance test result is obtained, and compared with the prior art, the accuracy of testing the roaming performance of the Mesh network can be effectively improved by carrying out the roaming test on the Mesh network by means of the real home environment.

Drawings

Fig. 1 is a schematic structural diagram of a test device for Mesh network roaming in a hardware running environment according to an embodiment of the present invention;

fig. 2 is a flow chart of a first embodiment of a method for testing Mesh network roaming according to the present invention;

fig. 3 is a flow chart of a second embodiment of the method for testing Mesh network roaming according to the present invention;

fig. 4 is a schematic diagram of a member roaming test flow according to an embodiment of the test method for Mesh network roaming of the present invention;

fig. 5 is a flow chart of a third embodiment of a method for testing Mesh network roaming according to the present invention;

fig. 6 is a schematic diagram of a wireless terminal roaming test flow according to an embodiment of the test method for Mesh network roaming of the present invention;

fig. 7 is a schematic functional block diagram of a first embodiment of a Mesh network roaming test device according to the present invention.

The achievement of the objects, functional features and advantages of the present invention will be further described with reference to the accompanying drawings, in conjunction with the embodiments.

Detailed Description

It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

Referring to fig. 1, fig. 1 is a schematic structural diagram of a test device for Mesh network roaming in a hardware running environment according to an embodiment of the present invention.

As shown in fig. 1, the test device for Mesh network roaming may include: a processor 1001, such as a central processing unit (Central Processing Unit, CPU), a communication bus 1002, a user interface 1003, a network interface 1004, a memory 1005. Wherein the communication bus 1002 is used to enable connected communication between these components. The user interface 1003 may include a Display, an input unit such as a Keyboard (Keyboard), and the optional user interface 1003 may further include a standard wired interface, a wireless interface. The network interface 1004 may optionally include a standard wired interface, a Wireless interface (e.g., a Wireless-Fidelity (Wi-Fi) interface). The Memory 1005 may be a high-speed random access Memory (Random Access Memory, RAM) Memory or a stable nonvolatile Memory (NVM), such as a disk Memory. The memory 1005 may also optionally be a storage device separate from the processor 1001 described above.

Those skilled in the art will appreciate that the structure shown in fig. 1 does not constitute a limitation of the test equipment for Mesh network roaming, and may include more or fewer components than shown, or may combine certain components, or may be arranged in different components.

As shown in fig. 1, a memory 1005, which is a storage medium, may include an operating system, a network communication module, a user interface module, and a test program for Mesh network roaming.

In the test device for Mesh network roaming shown in fig. 1, the network interface 1004 is mainly used for data communication with a network test server; the user interface 1003 is mainly used for data interaction with a user; the processor 1001 and the memory 1005 in the Mesh network roaming test device of the present invention may be disposed in the Mesh network roaming test device, where the Mesh network roaming test device invokes the Mesh network roaming test program stored in the memory 1005 through the processor 1001, and executes the Mesh network roaming test method provided by the embodiment of the present invention.

Based on the hardware structure, the embodiment of the test method for Mesh network roaming is provided.

Referring to fig. 2, fig. 2 is a flow chart of a first embodiment of a method for testing Mesh network roaming according to the present invention.

In a first embodiment, the method for testing Mesh network roaming includes the following steps:

step S10, current network information of the master device and the slave device is acquired.

It should be noted that, the execution body of the embodiment is a test device for Mesh network roaming, and may be other devices that can implement the same or similar functions, such as a network test server, which is not limited in this embodiment, and in this embodiment, a network test server is taken as an example for description.

It should be understood that the current network information may be network information of a master device and a slave device in the Mesh network, and the current network information may be divided based on signal strength, where the master device is unique in the Mesh system, the slave device has multiple slave devices in the Mesh network, the slave devices are divided into two parts, one of the slave devices is selected as a first slave device, and the other slave devices are second slave devices.

Further, after step S10, the method further includes: obtaining the current state of the slave device, wherein the slave device comprises a first slave device and a second slave device; extracting a current state of the first slave device, and setting the second slave device to be in a power-off state when the current state is a connected state; after the setting is successful, acquiring the connection state of the second slave device; and testing the roaming repair function in the Mesh network to be tested according to the connection state to obtain a corresponding roaming performance test result.

It can be understood that, the current state of the first slave device includes a current connection state and a current disconnection state, and since the slave device includes the first slave device and the second slave device, it is required to determine whether the current state of the first slave device is the current disconnection state, if not, the current state of the first slave device needs to be set to the current disconnection state, and if the setting is successful, it is required to determine whether the second slave device can be successfully connected to the master device or the first slave device, if the connection is successful, it indicates that the roaming repair function of the Mesh network is in a good state or above, and if the connection is not successful or the connection state is general, it indicates that the roaming repair function of the Mesh network is poor.

And step S20, determining the Mesh network to be tested according to the current network information and the signal conditioning equipment set.

It should be understood that the signal conditioning device set refers to a device set for conditioning signals in the Mesh network, and includes a signal conditioning device 1, a signal conditioning device 2, a signal conditioning device 3, and a signal conditioning device Z, and by adjusting the signal conditioning device 1, the signal conditioning device 2, the signal conditioning device 3, and the signal conditioning device Z, respectively, the network strength between a master device and a slave device in the Mesh to be tested changes, where the slave device includes a first slave device and a second slave device.

It should be understood that by adjusting each signal conditioning device in the signal conditioning device set separately, the signal strength information between the master device and the slave devices is changed, for example, the signal strength between the first slave device and the master device is in a stronger state, the signal strength between the second slave device and the master device is in a weaker state, and after the adjustment is completed, the Mesh network to be tested is obtained, where the state of the signal strength is set according to the actual situation, that is, in a weaker state less than 113, and in a stronger state greater than 113.

Step S30, performing roaming test on the members of the Mesh network to be tested by adjusting each signal adjusting device in the signal adjusting device set to obtain a first test result.

It should be understood that after the Mesh network to be tested is obtained, the current signal strength between the master device and the slave device is adjusted by each signal adjusting device, and when the adjusted current signal strength is a first preset strength variation range, the member of the Mesh network to be tested is subjected to roaming test to obtain a first test result, where the first preset strength variation range refers to a preset strength variation between the master device and the slave device, for example, the first preset strength variation information includes: the method comprises the steps that signal strength change information between a second slave device and a master device, namely strong, weak, strong or signal strength change information between a first slave device and the master device, namely strong, weak, strong and signal strength change information of the second device is weak, strong and weak, roaming test is conducted on members of a Mesh network to be tested according to the signal strength change information, when the signal strength change information is strong, weak and strong, the master device and the slave device in the Mesh network to be tested conduct roaming test of a return mode, and when the signal strength change information is strong, weak, strong and the signal strength change information of the second device is weak, strong and weak, the master device and the slave device in the Mesh network to be tested conduct roaming test of return lines.

And S40, performing roaming test on the wireless terminal of the Mesh network to be tested by adjusting each signal adjusting device in the signal adjusting device set to obtain a second test result.

It should be understood that after the network to be tested is obtained, the current signal intensity between the master device and the slave device is adjusted by each signal adjusting device, when the adjusted current signal intensity is in a second preset intensity variation range, the wireless terminal of the Mesh network to be tested is subjected to roaming test to obtain a second test result, and the second preset intensity variation range refers to preset signal intensity variation information between the accompanying shielding device and the master device and between the wireless terminal and the slave device, for example, the second preset intensity variation information includes: the method comprises the steps of carrying out test on the wireless terminal of the Mesh network to be tested according to the signal intensity change information between the wireless terminal of the accompanying shielding equipment and the master equipment and the signal intensity change information between the wireless terminal of the accompanying shielding equipment and the first slave equipment, namely strong, weak, strong, weak and strong, and carrying out test on the wireless terminal of the Mesh network to be tested according to the signal intensity change information and a second preset intensity change range, namely strong, weak, strong, weak and strong, and the signal intensity change information between the wireless terminal of the accompanying shielding equipment and the second slave equipment, namely strong, weak and strong, and carrying out test on the wireless terminal of the Mesh network to be tested according to the signal intensity change information and the second preset intensity change range, wherein the test comprises a transmission line, performance optimization and switching roaming test.

And S50, generating a roaming performance test result of the Mesh network to be tested according to the first test result and the second test result.

It can be understood that after the first test result and the second test result are obtained, the final roaming performance of the Mesh network to be tested is comprehensively calculated according to the weight value of the first test result and the weight value of the second test result, the first test result includes the test condition of the backhaul line and the backhaul mode, the second test result includes the transmission mode, the transmission line and the performance preference, and the overall influence degree of the Mesh network to be tested is calculated according to the first test result and the second test result, for example, the first test result is 90 minutes, the second test result is 80 minutes, the weight value of the first test result is 30%, the weight value of the second test result is 70%, the test result of the Mesh network to be tested is 83 minutes, and if more than 80 minutes are specified to be good in performance, the roaming test result of the Mesh network to be tested at this time is good.

The embodiment obtains the current network information of the master device and the slave device; determining a Mesh network to be tested according to the current network information and the signal conditioning equipment set; performing roaming test on members of the Mesh network to be tested by adjusting each signal adjusting device in the signal adjusting device set to obtain a first test result; performing roaming test on the wireless terminal of the Mesh network to be tested by adjusting each signal adjusting device in the signal adjusting device set to obtain a second test result; according to the method, the device and the system, the roaming performance test results of the Mesh network to be tested are generated according to the first test results and the second test results, and because the members of the Mesh network to be tested and the wireless terminals are subjected to roaming test respectively through adjusting the signal adjusting devices, the corresponding roaming performance test results are obtained.

In an embodiment, as shown in fig. 3, a second embodiment of the method for testing Mesh network roaming according to the present invention is provided based on the first embodiment, and the step S30 includes:

step S301 extracts a first signal conditioning device, a second signal conditioning device and a third signal conditioning device of the set of signal conditioning devices.

It should be understood that the first signal conditioning device refers to a signal conditioning device between the master device and the first slave device, the second signal conditioning device refers to a signal conditioning device between the master device and the second slave device, and the third signal conditioning device refers to a signal conditioning device between the first slave device and the second slave device.

It can be understood that referring to fig. 4, fig. 4 is a schematic diagram of a member roaming test flow of an embodiment of a test method for Mesh network roaming according to the present invention, and the specific flow is as follows: the master device is connected with the first slave device through the signal adjusting device 2, the master device is connected with the second slave device through the signal adjusting device 3, the first slave device is connected with the second slave device through the signal adjusting device Z, the signal adjusting device 2 is the first signal adjusting device, the signal adjusting device 3 is the second signal adjusting device, and the signal adjusting device Z is the third signal adjusting device.

Step S302, respectively adjusting the current signal intensity between the master device and the slave device by using the first signal adjusting device, the second signal adjusting device and the third signal adjusting device, so as to obtain the current signal intensity change information.

It can be understood that the signal intensity between the second slave device and the master device is adjusted by the first signal adjusting device and the second signal adjusting device, the signal intensity between the first slave device and the second slave device is adjusted by the third signal adjusting device, and after the adjustment is completed, the current signal intensity change information is obtained, and multiple adjustments exist in the adjustment process, for example, the signal intensity information between the second slave device and the master device is adjusted from a weaker state to a stronger state and from the stronger state to the weaker state.

Step S303, when the current signal strength change information is in a first preset strength change range, performing roaming test on members of the Mesh network to be tested to obtain a first test result.

It should be understood that after the current signal strength change information is obtained, whether the current signal strength change information is in a first preset strength change range needs to be judged, if the current signal strength change information is that the signal strength between the second slave device and the master device in the first preset strength change information is changed, namely, strong, weak and strong, a roaming test is performed on a backhaul mode between the master device and the slave device of the Mesh network to be tested, wherein the backhaul mode refers to 2.4G/5G, and if the signal strength change information meets that the signal strength between the first slave device and the master device in the first preset strength change information, namely, strong, weak, strong and weak, and that the signal strength between the first slave device and the second slave device is changed, namely, weak, strong and weak, the roaming test is performed on a backhaul line between the master device and the slave device of the Mesh network to be tested.

The embodiment extracts the first signal conditioning device, the second signal conditioning device and the third signal conditioning device in the signal conditioning device set; the current signal intensity between the master device and the slave device is respectively adjusted through the first signal adjusting device, the second signal adjusting device and the third signal adjusting device, so that current signal intensity change information is obtained; when the current signal strength change information meets a first preset strength change range, performing roaming test on members of the Mesh network to be tested to obtain a first test result; in the embodiment, the current signal intensity between the master device and the slave device is adjusted through the first signal adjusting device, the second signal adjusting device and the third signal adjusting device in the signal adjusting device set, and the member of the Mesh network to be tested is subjected to the roaming test according to the adjusted signal intensity change information and the first preset intensity change information to obtain the first test result, so that the accuracy of the first test result can be effectively improved.

In an embodiment, as shown in fig. 5, a third embodiment of the method for testing Mesh network roaming according to the present invention is provided based on the first embodiment, and before step S40, the method further includes:

Step S304, a first accompanying shielding device connected with the master device and the slave device is obtained.

It can be understood that the first accompanying and testing shielding device is a master device, a first slave device and a second slave device, and the first accompanying and testing shielding device is used in cooperation with the wireless terminal, tests the performance in the Mesh network to be tested, and is connected with the master device or the slave device independently and is other accompanying and testing shielding devices.

It should be understood that, referring to fig. 6, fig. 6 is a schematic diagram of a wireless terminal roaming test flow according to an embodiment of the test method for Mesh network roaming of the present invention, and the specific flow is as follows: the master device is connected with the first slave device through the signal adjusting device 2, the master device is connected with the second slave device through the signal adjusting device 3, the first slave device and the second slave device are connected through the signal adjusting device Z, the master device is connected with the accompanying shielding device 4, the first slave device is connected with the accompanying shielding device 5, the second slave device is connected with the accompanying shielding device Z, the master device, the first slave device and the second slave device are all connected with the accompanying shielding device 7 through the signal adjusting device 1, the wireless terminal M is combined with the accompanying shielding device 5, the wireless terminal X is combined with the accompanying shielding device 4, the wireless terminal N is combined with the accompanying shielding device Z, and the wireless terminal Y is combined with the accompanying shielding device 7.

Step S305, adjusting, by using a first signal adjusting device, signal intensities of the wireless terminal, the master device and the slave device in the first accompanying shielding device, so as to obtain corresponding signal intensity change information.

It can be understood that after the first accompanying and testing shielding device is obtained, the signal intensity of the wireless terminal in the first accompanying and testing shielding device, the master device and the slave device is adjusted through the first signal adjusting device, specifically, the signal between the wireless terminal in the first accompanying and testing shielding device and the first slave device, the second slave device or the master device is disconnected through the first signal adjusting device, so that the signal intensity between the master device or the slave device is changed, and corresponding signal intensity change information is obtained.

Further, step S305 includes: controlling the connection information of the wireless terminal in the first accompanying shielding equipment through first signal adjusting equipment; and when the controlled connection information is the connection information with the main equipment, the first signal adjusting equipment is used for adjusting the signal of the wireless terminal in the first accompanying and testing shielding equipment to obtain corresponding signal strength change information.

It can be understood that after the connection information of the wireless terminal in the first accompanying shielding device is obtained, the connection information is controlled by the first signal adjusting device, specifically, the wireless terminal is connected with the master device or the slave device, the connection information comprises the master device, the first slave device and the second slave device, when the disconnected connection information is the connection information of the wireless terminal and the master device, the signal intensity between the wireless terminal and the master device is adjusted to be very strong- & gt very weak by the first signal adjusting device, meanwhile, the signal intensity between the wireless terminal and the first slave device is adjusted to be very weak- & gt very strong, and after the adjustment is completed, the corresponding signal intensity change information is obtained.

Further, after the first signal conditioning device controls the connection information of the wireless terminal in the first accompanying shielding device, the method further includes: when the controlled connection information is the connection information with the first slave device, the first signal adjusting device is used for adjusting the signal intensity between the wireless terminal and the second slave device in the first accompanying and testing shielding device, so that corresponding signal intensity change information is obtained.

It should be understood that when the controlled connection information is connection information with the first slave device, it indicates that the wireless terminal is connected with the first slave device, and at this time, the signal strength information between the wireless terminal and the second slave device is adjusted to be weak-strong by the first signal adjusting device, and meanwhile, the signal strength information between the wireless terminal and the first device is adjusted to be strong-weak, and after the adjustment is completed, corresponding signal strength change information is obtained.

Further, after the first signal conditioning device controls the connection information of the wireless terminal in the first accompanying shielding device, the method further includes: when the controlled connection information is the connection information of the first slave device, acquiring the current connection information of the wireless terminal in the second accompany shielding device; when the current connection information is the connection information of the first slave device, acquiring load information of the Mesh network to be tested; and adjusting the signal intensity between the wireless terminal in the first accompanying shielding equipment and the first slave equipment according to the load information and the first signal adjusting equipment to obtain corresponding signal intensity change information.

It can be understood that the second accompanying shielding device refers to an accompanying shielding device connected with the first slave device, and a plurality of wireless terminals exist in the second accompanying shielding device, at this time, the wireless terminals in the second accompanying shielding device need to be connected with the first slave device, the signal intensity between the first accompanying shielding device and the first slave device is adjusted by the first signal adjusting device, namely from strong to weak, at this time, the signal intensity information of the second slave device is kept unchanged, meanwhile, the load information of the Mesh network is obtained, the load information refers to the quantity information of loads in the Mesh network to be tested, and the corresponding signal intensity change information is obtained by the load information and the adjusted signal embedding intensity.

And step S306, when the signal strength change information is in a second preset strength change range, performing roaming test on the wireless terminal of the Mesh network to be tested to obtain a second test result.

It should be understood that after the signal strength change information is obtained, whether the signal strength change information is the second preset strength change information needs to be judged, if the signal strength change information is the signal strength information between the master device and the slave device in the second preset strength change range, that is, strong, weak, strong, the roaming test is performed on the transmission mode of the wireless terminal of the Mesh network to be tested, if the signal strength change information satisfies the signal strength between the wireless terminal and the master device in the second preset strength change range, that is, strong, weak, the roaming test is performed on the transmission line of the wireless terminal of the Mesh network to be tested, and if the signal strength change information satisfies the signal strength between the wireless terminal and the second slave device in the second preset strength change range, that is, weak, the test is performed on the performance priority roaming switch of the wireless terminal of the Mesh network to be tested, so as to obtain the corresponding second test result.

The first accompany shielding equipment connected with the master equipment and the slave equipment is obtained; the signal intensity of the wireless terminal, the master equipment and the slave equipment in the first accompanying shielding equipment is adjusted through first signal adjusting equipment, so that corresponding signal intensity change information is obtained; when the signal strength change information meets a second preset strength change range, performing roaming test on the wireless terminal of the Mesh network to be tested to obtain a second test result; in the embodiment, the signal intensity of the wireless terminal, the master device and the slave device in the first accompanying and testing shielding device is regulated through the first signal regulating device, and the wireless terminal of the Mesh network is subjected to roaming test according to the regulated signal intensity change information and the second preset intensity change range to obtain a second test result, so that the accuracy of the second test result can be effectively improved.

In addition, the embodiment of the invention also provides a storage medium, wherein the storage medium stores a Mesh network roaming test program, and the Mesh network roaming test program realizes the steps of the Mesh network roaming test method when being executed by a processor.

Because the storage medium adopts all the technical schemes of all the embodiments, the storage medium has at least all the beneficial effects brought by the technical schemes of the embodiments, and the description is omitted here.

In addition, referring to fig. 7, the embodiment of the invention further provides a device for testing Mesh network roaming, where the device for testing Mesh network roaming includes:

an obtaining module 10, configured to obtain current network information of the master device and the slave device.

It should be understood that the current network information may be network information of a master device and a slave device in the Mesh network, and the current network information may be divided based on signal strength, where the master device is unique in the Mesh system, the slave device has multiple slave devices in the Mesh network, the slave devices are divided into two parts, one of the slave devices is selected as a first slave device, and the other slave devices are second slave devices.

Further, the obtaining module 10 is further configured to obtain a current status of the slave device, where the slave device includes a first slave device and a second slave device; extracting a current state of the first slave device, and setting the second slave device to be in a power-off state when the current state is a connected state; after the setting is successful, acquiring the connection state of the second slave device; and testing the roaming repair function in the Mesh network to be tested according to the connection state to obtain a corresponding roaming performance test result.

It can be understood that, the current state of the first slave device includes a current connection state and a current disconnection state, and since the slave device includes the first slave device and the second slave device, it is required to determine whether the current state of the first slave device is the current disconnection state, if not, the current state of the first slave device needs to be set to the current disconnection state, and if the setting is successful, it is required to determine whether the second slave device can be successfully connected to the master device or the first slave device, if the connection is successful, it indicates that the roaming repair function of the Mesh network is in a good state or above, and if the connection is not successful or the connection state is general, it indicates that the roaming repair function of the Mesh network is poor.

And the determining module 20 is configured to determine a Mesh network to be tested according to the current network information and the signal conditioning device set.

It should be understood that the signal conditioning device set refers to a device set for conditioning signals in the Mesh network, and includes a signal conditioning device 1, a signal conditioning device 2, a signal conditioning device 3, and a signal conditioning device Z, and by adjusting the signal conditioning device 1, the signal conditioning device 2, the signal conditioning device 3, and the signal conditioning device Z, respectively, the network strength between a master device and a slave device in the Mesh to be tested changes, where the slave device includes a first slave device and a second slave device.

It should be understood that by adjusting each signal conditioning device in the signal conditioning device set separately, the signal strength information between the master device and the slave devices is changed, for example, the signal strength between the first slave device and the master device is in a stronger state, the signal strength between the second slave device and the master device is in a weaker state, and after the adjustment is completed, the Mesh network to be tested is obtained, where the state of the signal strength is set according to the actual situation, that is, in a weaker state less than 113, and in a stronger state greater than 113.

The roaming test module 30 is configured to perform a roaming test on members of the Mesh network to be tested by adjusting each signal conditioning device in the signal conditioning device set, so as to obtain a first test result.

It should be understood that after the Mesh network to be tested is obtained, the current signal strength between the master device and the slave device is adjusted by each signal adjusting device, and when the adjusted current signal strength is a first preset strength variation range, the member of the Mesh network to be tested is subjected to roaming test to obtain a first test result, where the first preset strength variation range refers to a preset strength variation between the master device and the slave device, for example, the first preset strength variation information includes: the method comprises the steps that signal strength change information between a second slave device and a master device, namely strong, weak, strong or signal strength change information between a first slave device and the master device, namely strong, weak, strong and signal strength change information of the second device is weak, strong and weak, roaming test is conducted on members of a Mesh network to be tested according to the signal strength change information, when the signal strength change information is strong, weak and strong, the master device and the slave device in the Mesh network to be tested conduct roaming test of a return mode, and when the signal strength change information is strong, weak, strong and the signal strength change information of the second device is weak, strong and weak, the master device and the slave device in the Mesh network to be tested conduct roaming test of return lines.

The roaming test 30 is further configured to perform a roaming test on the wireless terminal of the Mesh network to be tested by adjusting each signal conditioning device in the signal conditioning device set, so as to obtain a second test result.

It should be understood that after the network to be tested is obtained, the current signal intensity between the master device and the slave device is adjusted by each signal adjusting device, when the adjusted current signal intensity is in a second preset intensity variation range, the wireless terminal of the Mesh network to be tested is subjected to roaming test to obtain a second test result, and the second preset intensity variation range refers to preset signal intensity variation information between the accompanying shielding device and the master device and between the wireless terminal and the slave device, for example, the second preset intensity variation information includes: the method comprises the steps of carrying out test on the wireless terminal of the Mesh network to be tested according to the signal intensity change information between the wireless terminal of the accompanying shielding equipment and the master equipment and the signal intensity change information between the wireless terminal of the accompanying shielding equipment and the first slave equipment, namely strong, weak, strong, weak and strong, and carrying out test on the wireless terminal of the Mesh network to be tested according to the signal intensity change information and a second preset intensity change range, namely strong, weak, strong, weak and strong, and the signal intensity change information between the wireless terminal of the accompanying shielding equipment and the second slave equipment, namely strong, weak and strong, and carrying out test on the wireless terminal of the Mesh network to be tested according to the signal intensity change information and the second preset intensity change range, wherein the test comprises a transmission line, performance optimization and switching roaming test.

The generation module is used for generating a roaming performance test result of the Mesh network to be tested according to the first test result and the second test result.

It can be understood that after the first test result and the second test result are obtained, the final roaming performance of the Mesh network to be tested is comprehensively calculated according to the weight value of the first test result and the weight value of the second test result, the first test result includes the test condition of the backhaul line and the backhaul mode, the second test result includes the transmission mode, the transmission line and the performance preference, and the overall influence degree of the Mesh network to be tested is calculated according to the first test result and the second test result, for example, the first test result is 90 minutes, the second test result is 80 minutes, the weight value of the first test result is 30%, the weight value of the second test result is 70%, the test result of the Mesh network to be tested is 83 minutes, and if more than 80 minutes are specified to be good in performance, the roaming test result of the Mesh network at this time is good.

The embodiment obtains the current network information of the master device and the slave device; determining a Mesh network to be tested according to the current network information and the signal conditioning equipment set; performing roaming test on members of the Mesh network to be tested by adjusting each signal adjusting device in the signal adjusting device set to obtain a first test result; performing roaming test on the wireless terminal of the Mesh network to be tested by adjusting each signal adjusting device in the signal adjusting device set to obtain a second test result; according to the method, the device and the system, the roaming performance test results of the Mesh network to be tested are generated according to the first test results and the second test results, and because the members of the Mesh network to be tested and the wireless terminals are subjected to roaming test respectively through adjusting the signal adjusting devices, the corresponding roaming performance test results are obtained.

It should be noted that the above-described working procedure is merely illustrative, and does not limit the scope of the present invention, and in practical application, a person skilled in the art may select part or all of them according to actual needs to achieve the purpose of the embodiment, which is not limited herein.

In addition, technical details not described in detail in the embodiment may refer to the method for testing Mesh network roaming provided in any embodiment of the present invention, which is not described herein.

In an embodiment, the obtaining module 10 is further configured to obtain a current status of the slave device, where the slave device includes a first slave device and a second slave device; extracting a current state of the first slave device, and setting the first slave device to be in a power-off state when the current state is a connected state; after the setting is successful, acquiring the connection state of the second slave device; and testing the roaming repair function in the Mesh network to be tested according to the connection state to obtain a corresponding roaming performance test result.

In an embodiment, the roaming test module 30 is further configured to extract a first signal conditioning device, a second signal conditioning device, and a third signal conditioning device in the set of signal conditioning devices; the current signal intensity between the master device and the slave device is respectively adjusted through the first signal adjusting device, the second signal adjusting device and the third signal adjusting device, so that current signal intensity change information is obtained; and when the current signal strength change information is in a first preset strength change range, performing roaming test on members of the Mesh network to be tested to obtain a first test result.

In an embodiment, the roaming test module 30 is further configured to obtain a first test accompanying shielding device connected to the master device and the slave device; the signal intensity of the wireless terminal, the master equipment and the slave equipment in the first accompanying shielding equipment is adjusted through first signal adjusting equipment, so that corresponding signal intensity change information is obtained; and when the signal strength change information is in a second preset strength change range, performing roaming test on the wireless terminal of the Mesh network to be tested to obtain a second test result.

In an embodiment, the roaming test module 30 is further configured to control, through a first signal adjustment device, connection information of the wireless terminal in the first accompanying test shielding device; and when the controlled connection information is the connection information with the main equipment, the first signal adjusting equipment is used for adjusting the signal of the wireless terminal in the first accompanying and testing shielding equipment to obtain corresponding signal strength change information.

In an embodiment, the roaming test module 30 is further configured to, when the controlled connection information is connection information with the first slave device, adjust, by using a first signal adjusting device, signal strength between the wireless terminal in the first accompanying and testing shielding device and the second slave device, so as to obtain corresponding signal strength change information.

In an embodiment, the roaming test module 30 is further configured to obtain current connection information of the wireless terminal in the second accompanying shielding device when the controlled connection information is connection information of the first slave device; when the current connection information is the connection information of the first slave device, acquiring load information of the Mesh network to be tested; and adjusting the signal intensity between the wireless terminal and the first slave device in the first accompanying shielding device according to the load information and the first signal adjusting device to obtain corresponding signal intensity change information.

Other embodiments of the Mesh network roaming testing device or the implementation method thereof can refer to the above method embodiments, and are not redundant here.

Furthermore, it should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or system that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or system. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or system that comprises the element.

The foregoing embodiment numbers of the present invention are merely for the purpose of description, and do not represent the advantages or disadvantages of the embodiments.

From the above description of the embodiments, it will be clear to those skilled in the art that the above-described embodiment method may be implemented by means of software plus a necessary general hardware platform, but of course may also be implemented by means of hardware, but in many cases the former is a preferred embodiment. Based on such understanding, the technical solution of the present invention may be embodied essentially or in a part contributing to the prior art in the form of a software product stored in a storage medium (e.g. Read Only Memory (ROM)/RAM, magnetic disk, optical disk) and including several instructions for causing a terminal device (which may be a mobile phone, a computer, a network test server, or a network device, etc.) to perform the method according to the embodiments of the present invention.

The foregoing description is only of the preferred embodiments of the present invention, and is not intended to limit the scope of the invention, but rather is intended to cover any equivalents of the structures or equivalent processes disclosed herein or in the alternative, which may be employed directly or indirectly in other related arts.

Claims (8)

1. The test method for the Mesh network roaming is characterized by comprising the following steps of:

acquiring current network information of a master device and a slave device, wherein the slave device comprises a first slave device and a second slave device;

determining a Mesh network to be tested according to the current network information and the signal conditioning equipment set;

performing roaming test on members of the Mesh network to be tested by adjusting each signal adjusting device in the signal adjusting device set to obtain a first test result, wherein the members comprise a master device and a slave device;

performing roaming test on the wireless terminal of the Mesh network to be tested by adjusting each signal adjusting device in the signal adjusting device set to obtain a second test result;

generating a roaming performance test result of the Mesh network to be tested according to the first test result and the second test result;

the roaming test is carried out on the members of the Mesh network to be tested by adjusting each signal adjusting device in the signal adjusting device set to obtain a first test result, which comprises the following steps:

extracting a first signal conditioning device, a second signal conditioning device and a third signal conditioning device in the signal conditioning device set;

The current signal intensity between the master device and the slave device is respectively adjusted through the first signal adjusting device, the second signal adjusting device and the third signal adjusting device, so that current signal intensity change information is obtained;

when the current signal strength change information is in a first preset strength change range, performing roaming test on members of the Mesh network to be tested to obtain a first test result;

the roaming test is carried out on the wireless terminal of the Mesh network to be tested by adjusting each signal adjusting device in the signal adjusting device set to obtain a second test result, which comprises the following steps:

acquiring a first accompanying and testing shielding device connected with a master device and a slave device;

the signal intensity of the wireless terminal, the master equipment and the slave equipment in the first accompanying shielding equipment is adjusted through first signal adjusting equipment, so that corresponding signal intensity change information is obtained;

and when the signal strength change information is in a second preset strength change range, performing roaming test on the wireless terminal of the Mesh network to be tested to obtain a second test result.

2. The method for testing Mesh network roaming according to claim 1, wherein the adjusting, by the first signal adjusting device, signal strength information of the wireless terminal in the first accompanying shielding device and the master device and the slave device to obtain corresponding signal strength change information includes:

Controlling the connection information of the wireless terminal in the first accompanying shielding equipment through first signal adjusting equipment;

and when the controlled connection information is the connection information with the main equipment, the first signal adjusting equipment is used for adjusting the signal of the wireless terminal in the first accompanying and testing shielding equipment to obtain corresponding signal strength change information.

3. The method for testing Mesh network roaming according to claim 2, wherein after the controlling, by the first signal conditioning device, connection information of the wireless terminal in the first accompanying shielding device, the method further comprises:

when the controlled connection information is the connection information with the first slave device, the first signal adjusting device is used for adjusting the signal intensity between the wireless terminal in the first accompanying shielding device and the second slave device, so that corresponding signal intensity change information is obtained.

4. The method for testing Mesh network roaming according to claim 2, wherein after the controlling, by the first signal conditioning device, connection information of the wireless terminal in the first accompanying shielding device, the method further comprises:

when the controlled connection information is the connection information of the first slave device, acquiring the current connection information of the wireless terminal in the second accompany shielding device;

When the current connection information is the connection information of the first slave device, acquiring load information of the Mesh network to be tested;

and adjusting the signal intensity between the wireless terminal and the first slave device in the first accompanying shielding device according to the load information and the first signal adjusting device to obtain corresponding signal intensity change information.

5. The method for testing Mesh network roaming according to any one of claims 1 to 4, wherein after determining the Mesh network to be tested according to the current network information and the signal conditioning device set, the method further comprises:

obtaining the current state of the slave device, wherein the slave device comprises a first slave device and a second slave device;

extracting a current state of the first slave device, and setting the first slave device to be in a power-off state when the current state is a connected state;

after the setting is successful, acquiring the connection state of the second slave device;

and testing the roaming repair function in the Mesh network to be tested according to the connection state to obtain a corresponding roaming performance test result.

6. The device for testing Mesh network roaming is characterized by comprising the following components:

The system comprises an acquisition module, a control module and a control module, wherein the acquisition module is used for acquiring current network information of a master device and a slave device, and the slave device comprises a first slave device and a second slave device;

the determining module is used for determining the Mesh network to be tested according to the current network information and the signal regulating device set;

the roaming test module is used for carrying out roaming test on members of the Mesh network to be tested by adjusting each signal adjusting device in the signal adjusting device set to obtain a first test result, wherein the members comprise a master device and a slave device;

the roaming test module is further configured to perform roaming test on the wireless terminal of the Mesh network to be tested by adjusting each signal conditioning device in the signal conditioning device set, so as to obtain a second test result;

the generation module is used for generating a roaming performance test result of the Mesh network to be tested according to the first test result and the second test result;

the roaming test module is further configured to extract a first signal conditioning device, a second signal conditioning device, and a third signal conditioning device in the signal conditioning device set; the current signal intensity between the master device and the slave device is respectively adjusted through the first signal adjusting device, the second signal adjusting device and the third signal adjusting device, so that current signal intensity change information is obtained; when the current signal strength change information is in a first preset strength change range, performing roaming test on members of the Mesh network to be tested to obtain a first test result;

The roaming test module is also used for acquiring a first accompany test shielding device connected with the master device and the slave device; the signal intensity of the wireless terminal, the master equipment and the slave equipment in the first accompanying shielding equipment is adjusted through first signal adjusting equipment, so that corresponding signal intensity change information is obtained; and when the signal strength change information is in a second preset strength change range, performing roaming test on the wireless terminal of the Mesh network to be tested to obtain a second test result.

7. The Mesh network roaming test device is characterized by comprising: memory, processor and stored on the memory and the test program of Mesh network roaming that can run on the processor, the test program of Mesh network roaming is configured with a test method for realizing Mesh network roaming according to any one of claims 1 to 5.

8. A storage medium, wherein a test program of Mesh network roaming is stored on the storage medium, and when the test program of Mesh network roaming is executed by a processor, the test method of Mesh network roaming according to any one of claims 1 to 5 is implemented.