CN113766546B - Method and system for testing solution of smart home in MESH networking - Google Patents

Abstract

The invention provides a method and a system for testing an intelligent home solution of MESH networking, and belongs to the technical field of MESH equipment testing. The invention comprises the following steps: building a testing environment: setting a plurality of intelligent home devices and intelligent terminals, all accessing the MESH network to enable the total number of the tape machines of the MESH network to reach a set standard, and further comprising a wireless PC1 and a wireless PC2, wherein the wireless PC1 is connected to a wired interface of one of the MESH devices in the MESH network in a wired manner, and the wireless PC2 is accessed to the MESH network in a wireless manner; the wireless PC and the intelligent terminal are operated continuously, so that the MESH network load is increased; according to the test items, testing the performance of the MESH network in sequence; and after all the test items are tested, recording and storing test results. The beneficial effects of the invention are as follows: the test environment is systemized, the test time is reduced, and the test work is convenient to develop.

Description

Method and system for testing solution of smart home in MESH networking

Technical Field

The invention relates to a MESH equipment testing technology, in particular to an intelligent home solution testing method and system for MESH networking.

Background

Nowadays, intelligent household equipment is gradually integrated into the living environment of people, and the generation of high-capacity wireless products enables household intellectualization to become a trend. Under the promotion of the trend, a solution of intelligent home and MESH networking is generated, and a systematic testing method under the condition of the solution is very important.

At present, no system test method exists: the intelligent home solution test of the current MESH networking mainly relies on testers to temporarily build an intelligent home environment, and an MESH network is built for application and experience test.

The above test mode has the following defects:

1. the intelligent home test environment is built again each time, so that the test time is long;

2. the system has no test scene and test method, and the test result has no objectivity;

3. and the test points of the system are not available, so that the work handover of testers during iteration is not facilitated.

Disclosure of Invention

In order to solve the problems in the prior art, the invention provides a method and a system for testing an intelligent home solution of MESH networking.

The invention relates to a method 1 for testing an intelligent home solution of MESH networking, which comprises the following steps:

s1: selecting more than 2 MESH devices, constructing an MESH network, wherein one MESH device is an MPP node, and the other MESH devices are MAP nodes;

s2: building a testing environment: setting a plurality of intelligent home devices, managing intelligent terminals of the intelligent home devices, and fully accessing the MESH network to enable the total number of the tape machines of the MESH network to reach a set standard, and further comprising a wireless PC1 and a wireless PC2, wherein the wireless PC1 is connected to a wired interface of one of the MESH devices in the MESH network in a wired manner, and the wireless PC2 is accessed to the MESH network in a wireless manner;

s3: the wireless PC and the intelligent terminal are operated continuously, so that the MESH network load is increased;

s4: according to the test items, testing the performance of the MESH network in sequence;

s5: after all the test items are tested, the test results are recorded and stored,

the test items include a roaming function test, a wireless availability test, a wireless reliability test and a network maintainability test,

when the test item is a roaming function test, the intelligent terminal is connected with a public network user through the MESH network, moves between nodes of the MESH network, and evaluates the roaming function of the MESH network according to the picture display and the roaming parameters;

when the test item is a wireless availability test, the intelligent terminal issues maintenance operation to the intelligent home equipment, and the availability of the intelligent home equipment maintained by the intelligent terminal under the MESH network is tested;

when the test item is a wireless reliability test, the MESH equipment performs restarting operation respectively, the intelligent terminal issues restarting operation to all intelligent home equipment, and the wireless reliability of the MESH network is estimated according to the reconnection rate;

when the test item is a network maintainability test, the MESH equipment performs upgrading operation respectively, the intelligent terminal issues restarting operation to all intelligent home equipment, and maintainability of the MESH network is estimated according to the reconnection rate.

The intelligent household equipment comprises one or more of an intelligent switch, an intelligent socket, an intelligent curtain, an intelligent electric fan, an intelligent electric cooker, an intelligent sweeping robot, intelligent household equipment containing video service, an intelligent sound box and an intelligent security camera.

According to the invention, the wireless PC1 and the PC2 are respectively provided with a network packet capturing tool, a network analysis system, a batch Ping tool and a simulation client script tool capable of repeatedly associating and disassociating to a wireless network, the intelligent terminals are provided with intelligent home equipment management tools, one intelligent terminal supports a roaming function, and a WIFI detection tool is arranged.

In step S3, the operation method for increasing the MESH network load is as follows:

the wireless PC1 is connected to a wired interface of a certain MESH device in the MESH network in a wired way, and a network analysis system is used for transmitting UDP messages to the MESH network in a wired way at an original speed;

the wireless PC2 is connected to the ESSID of the MESH network in a wireless mode, a script tool of the simulation client is opened, and the simulation client is repeatedly associated and disassociated to the MESH networking wireless network all the time;

all intelligent terminals watch live broadcast services, and the pressure of the MESH networking network is increased in the various modes, so that the MESH network runs for a long time in a large flow mode, and the load of the MESH networking network is increased.

In step S4, when the test item is a roaming function test, the specific test method is as follows:

(1) The intelligent terminal is accessed to the MESH network and the public network user to carry out network communication service, the intelligent terminal is enabled to sequentially move among the MESH devices during the period, if the network quality is good in the whole moving process, the picture is smooth, the test is passed, and then the next step is executed;

(2) The intelligent terminal provided with the WIFI detection tool is connected with the MESH network, a roaming test function of the WIFI detection tool is started, a second wireless PC is arranged, the network packet grabbing tool is started to grab wireless messages, the intelligent terminal sequentially moves among the MESH devices to check test results of the WIFI detection tool, if roaming time and packet loss number among nodes are within a set range, the wireless roaming message interaction process grabbed by the network packet grabbing tool is error-free, the total time of each interaction process is within the set time, the test is passed, and then the next step is executed;

(3) One of the intelligent home devices is connected to the MESH network, so that the intelligent home devices can sequentially move among the MESH devices to work, the intelligent terminal tool of the intelligent terminal corresponding to the intelligent home device is used for issuing instructions every 10 seconds, and if the instruction feedback time is not more than 3s, the instruction issuing success rate is 100%, and the test is passed.

In step S4, when the test item is a wireless availability test, the specific test method is as follows:

(1) The second wireless PC is connected to the MESH network, 100 Ping packets are sent to each intelligent household device by using a batch Ping packet tool, the intelligent terminal accesses the Internet through data flow, sends instructions to the intelligent devices for a plurality of times at intervals through an intelligent device management tool, if the Ping packets have no packet loss, the delay is smaller than a first set value, the feedback time of the intelligent household devices is not longer than a second set value, the instruction sending success rate is 100 percent, the test is passed,

when the intelligent household equipment comprises intelligent household equipment with video service, if the intelligent household equipment has no jamming of the video service, the dragging progress bar fast forwards 30% of the video service, or the video service is buffered rapidly, the test is passed;

when the intelligent household equipment is an intelligent security camera, if the feedback time of the intelligent household equipment is not more than the second set value, the instruction issuing success rate is 100%, and the whole-course camera is smooth and clear in picture, so that the test is passed.

In step S4, when the test item is a wireless reliability test, the specific test method is as follows:

(1) The MESH equipment is restarted respectively, if the restart is completed, all the intelligent home equipment is reconnected and online, the intelligent terminal sends instructions to the intelligent equipment for a plurality of times at intervals by a data flow, the feedback time of each instruction is not more than a second set value, the success rate of the instruction sending is 100%, the test is passed, and then the next step is executed;

(2) The intelligent terminal is connected with the Internet through data flow, the intelligent equipment management tool transmits restarting operation to all intelligent household equipment, the intelligent household equipment is reconnected to the MESH network after restarting, and if the reconnection rate of the intelligent household equipment reaches 100%, the test is passed.

In step S4, when the test item is a network maintainability test, the specific test method is as follows:

(1) The MESH equipment performs upgrading operation respectively, if the intelligent home equipment is on line in a reconnection mode after the upgrading is finished, the intelligent terminal accesses the internet through data flow, issues instructions to the intelligent equipment for a plurality of times at intervals through an intelligent management tool, the feedback time of each instruction is not more than a second set value, the instruction issuing success rate is 100%, and the test is passed;

(2) The intelligent terminal is connected with the internet through data flow, the intelligent home equipment management tool is used for issuing upgrading operation to all intelligent home equipment, the intelligent home equipment is reconnected to the MESH network after upgrading, and if the reconnection rate of the wireless intelligent home equipment with the upgrading operation reaches 100%, the test is passed.

The invention also provides a test system for realizing the test method of the intelligent home solution of the MESH network, which comprises more than 2 MESH devices, a plurality of intelligent home devices and intelligent terminals for managing the intelligent home devices, wherein the intelligent home devices and the intelligent terminals can be completely connected into the MESH network to enable the total number of the band machines of the MESH network to reach a set standard, and the test system also comprises a wireless PC1 and a wireless PC2, wherein the wireless PC1 is connected to a wired interface of one of the MESH devices in the MESH network in a wired manner, and the wireless PC2 is connected into the MESH network in a wireless manner.

Compared with the prior art, the invention has the beneficial effects that: by systemizing the test environment, the test time is reduced, the test efficiency is improved, and the test work is conveniently carried out; by systemizing the test points, the test personnel can conveniently execute and deliver work, so that the test result has objectivity.

Drawings

FIG. 1 is a diagram illustrating MESH networking according to an embodiment of the present invention.

Detailed Description

The invention will be described in further detail with reference to the drawings and examples.

As shown in fig. 1, the solution testing method in the smart home scenario of the MESH networking provided by the invention can be used for testing the wireless network availability, reliability, roaming function and MESH network maintenance reliability of the MESH networking in the smart home solution scenario. The testing method comprises the following steps of: two wireless PCs (provided with OmniPeek tools), a Kelly network analysis system, a PingInfoView batch Ping tool, a simulation client script tool capable of repeatedly associating and disassociating to a wireless network, a plurality of smart phones (provided with smart home device management tools, one of which supports roaming and is provided with WiFi magic box tools (WIFI detection tools)), and 3 MESH networking devices (one of which is used as MPP, the other is used as MAP1, and the last is MAP 2), and the method is applicable to the scene: intelligent home scenarios.

The intelligent mobile phone adopts 20 intelligent home devices, and the intelligent home devices are provided with about 80 intelligent home environments comprising a plurality of intelligent switches, a plurality of intelligent sockets, a plurality of intelligent curtains, a plurality of intelligent fans, an intelligent electric cooker, an intelligent floor sweeping robot, a plurality of heaven fairings (other intelligent sound boxes, intelligent products and the like), a plurality of intelligent security cameras and the like.

The number of the equipment connected with each node is possibly different in the intelligent home solution environment, and the testing method is available as long as the total number of the belt machines is ensured to reach the standard, so that the invention does not have hard requirements on how many terminals each MESH equipment needs to be connected with, preferably, the example has 100 terminals, and each MESH node can be connected with about 33 terminals, so that the number of the connected terminals of each node is close; the number of the more than 3 MESH node connection terminals can also be close to each node connection terminal number according to the total number of the terminals, namely, the node load is balanced as much as possible.

The MESH equipment is networked, ESSIDs are set, all intelligent home equipment is connected to the ESSIDs, wireless PCs are connected to the ESSIDs, large-flow data packets are downloaded by using downloading tools such as thunder, the network analysis system is connected to a network by wire, one node of the network is connected to the network by using the network analysis system by using the Kelai, UDP packets are sent to the network, the network is connected to the ESSIDs by using an analog client script which can be repeatedly associated and disassociated to the SSID of the MESH network, and in a word, the load of the MESH network is increased by the method.

After the intelligent home test environment formed by the intelligent home equipment is tested, the intelligent home equipment is automatically connected to the MESH network only by setting the ESSID of the networking of the DUT (equipment to be tested) to be the same, so that the intelligent home solution scene of the MESH networking can be quickly built, and the test efficiency is improved.

Specifically, as one embodiment of the present invention, the test procedure of this example is as follows:

1. setting up a test environment according to the network topology shown in FIG. 1, networking 3 MESH devices, namely MPP, MAP1 and MAP2, respectively, and setting ESSID of the MESH networking;

2. in the scene, about 80 intelligent home devices are used, about 20 mobile phone terminals are used for accessing MESH networking wireless networks, so that the total band quantity of 3 MESH networking devices is about 100;

3. one wireless PC (hereinafter referred to as PC 1) is connected to a wired interface of a DUT in the MESH network in a wired way, and the PC1 uses a Kelai network analysis system to transmit UDP messages to the MESH network in a wired way at an original speed;

4. the wireless PC2 is connected to the ESSID of the MESH network in a wireless mode, a script tool is opened, and the simulation client end repeatedly associates and disassociates to the MESH networking wireless network all the time;

5.20 mobile phone terminals all watch live broadcast business, and the pressure of the MESH networking network is increased in the modes, so that the MESH network runs for a long time in a large flow mode, and the load of the MESH networking network is increased;

6. and testing each test item in sequence, and evaluating the performance of the MESH equipment according to the test result.

1. Roaming function test

1. The mobile phone terminal (supporting fast roaming) moves between MPP to MAP1 to MAP2 during the micro-communication video call service between the MESH network and the public network user, and the standard is passed: the network quality is good in the whole moving process, and the picture is smooth;

2. during the period that the mobile phone terminal (supporting fast roaming) accesses the MESH network and the public network user to carry out the Telecommunications conference service, the mobile phone terminal moves between the MPP and the MAP1 to the MAP2, and the standard is passed: the network quality is good in the whole moving process, and the picture is smooth;

3. the mobile phone terminal is provided with a WiFi magic box, is connected with a MESH network, enables the roaming test function of the WiFi magic box, and starts an OmniPeek tool to capture wireless messages by another wireless PC (hereinafter referred to as PC 2), and moves between MPP and MAP1 and MAP2, and the mobile phone terminal passes through the standard: checking WiFi magic box test results, wherein the roaming time between nodes is 50-700 ms (the optimal time is less than 50ms, the fast roaming is realized), the fast roaming terminal roaming is supported to have no packet loss, 1-3 fast roaming terminals are not supported to have no packet loss, the wireless roaming message interaction process grabbed by OmniPeek is error-free, and the total time of each interaction process is 50-700 ms;

4. the intelligent sweeping robot is connected into the MESH network, so that the intelligent sweeping robot can work in a moving mode between the MPP and the MAP1 to the MAP2, and the intelligent sweeping robot is used for issuing instructions every 10 seconds during the period, and the instructions are marked by the following steps: the instruction feedback time is not more than 3s, and the instruction issuing success rate is 100%.

2. Wireless availability test

1. Wireless PC2 inserts the MESH network, uses the pingInfoView to pitch packet instrument in batches to intelligent switch, smart jack, intelligent (window) curtain, intelligent electricity air-dries, intelligent electricity rice cooker, intelligent robot of sweeping the floor, the sky cat eidolon (the video player of sky cat eidolon always plays video business in the test whole course) Ping packet 100, the mobile phone terminal is on the net through data flow, issue the instruction to intelligent household equipment through intelligent household equipment management app, wherein every intelligent household equipment issues once every 10 seconds, totally 5 times, through the standard: 100 ping packets have no packet loss, the delay is less than 100ms, the app issues instructions, the feedback time for 5 times is not more than 3s, the instruction issuing success rate is 100%, the video service of the cat eidolon has no jamming, the dragging progress bar fast forwards 30% without jamming or buffers rapidly (1-3 seconds for recovering video playing);

2. the intelligent security camera is connected to the MESH network through wireless, and the mobile phone terminal is on the internet through data flow, issues instructions to the camera every 10s through app, totally 5 times, passes through the standard: the app issues the instruction for 5 times, the feedback time is not more than 3s, the instruction issuing success rate is 100%, and the whole-course camera is smooth and clear in picture;

3. wireless reliability test

The MESH device respectively performs restarting operation, and the standard is passed: after restarting, all intelligent home equipment is reconnected and online, the mobile phone terminal sends instructions to the intelligent home equipment through the app, the intervals are 10s each time, the total time is 5 times, the instruction feedback time is not more than 3s each time, and the instruction sending success rate is 100%;

2. the mobile phone terminal is connected with the internet through data flow, the intelligent home equipment management app is used for issuing restarting operation to all intelligent home equipment, the intelligent home equipment is restarted and then is connected to the MESH networking network, and the standard is adopted: in the experimental scene, the reconnection rate of 80 wireless intelligent household devices is 100%;

4. network maintainability test

The MESH device performs upgrading operation respectively, and the standard is passed: after the upgrading is finished, all intelligent home equipment is reconnected and online, the mobile phone terminal uploads the data flow and issues instructions to the intelligent home equipment through the app, the intervals are 10s each time, the total time is 5 times, the instruction feedback time each time is not more than 3s, and the instruction issuing success rate is 100%;

2. the mobile phone terminal is connected with the internet through data flow, and transmits upgrading operation to all intelligent home equipment through the intelligent home equipment management app, and the intelligent home equipment is reconnected to the MESH networking network after upgrading is finished, and the mobile phone terminal is connected with the MESH networking network through the standard: in the experimental scene, the reconnection rate of the wireless intelligent home equipment with the upgrade operation is 100%.

The invention creatively develops a test method of a test scene of an intelligent home solution of the MESH networking, which comprises a roaming test, a network reliability test and a maintenance availability test under the scene, and the test environment is systemized, so that the test time is reduced, and the test efficiency is improved; the test work is convenient to develop. By systemizing the test points, the test points are convenient for the test personnel to execute and deliver, so that the test results have objectivity and consistency, the work requirements on the test personnel are lower, and the test threshold is reduced.

The above embodiments are preferred embodiments of the present invention, and are not intended to limit the scope of the present invention, which includes but is not limited to the embodiments, and equivalent modifications according to the present invention are within the scope of the present invention.

Claims (9)

1. The method for testing the solution of the smart home of the MESH networking is characterized by comprising the following steps of:

s1: selecting more than 2 MESH devices, constructing an MESH network, wherein one MESH device is an MPP node, and the other MESH devices are MAP nodes;

s2: building a testing environment: setting a plurality of intelligent home devices, managing intelligent terminals of the intelligent home devices, and fully accessing the MESH network to enable the total number of the tape machines of the MESH network to reach a set standard, and further comprising a wireless PC1 and a wireless PC2, wherein the wireless PC1 is connected to a wired interface of one of the MESH devices in the MESH network in a wired manner, and the wireless PC2 is accessed to the MESH network in a wireless manner;

s3: the wireless PC and the intelligent terminal are operated continuously, so that the MESH network load is increased;

s4: according to the test items, testing the performance of the MESH network in sequence;

s5: after all the test items are tested, the test results are recorded and stored,

the test items include roaming function tests, wireless availability tests, wireless reliability tests and/or network maintainability tests,

when the test item is a roaming function test, the intelligent terminal is connected with a public network user through the MESH network, moves between nodes of the MESH network, and evaluates the roaming function of the MESH network according to the picture display and the roaming parameters;

when the test item is a wireless availability test, the intelligent terminal issues maintenance operation to the intelligent home equipment, and the availability of the intelligent home equipment maintained by the intelligent terminal under the MESH network is tested;

when the test item is a wireless reliability test, the MESH equipment performs restarting operation respectively, the intelligent terminal issues restarting operation to all intelligent home equipment, and the wireless reliability of the MESH network is estimated according to the reconnection rate;

when the test item is a network maintainability test, the MESH equipment performs upgrading operation respectively, the intelligent terminal issues restarting operation to all intelligent home equipment, and maintainability of the MESH network is estimated according to the reconnection rate.

2. The method for testing a solution for smart home with MESH networking according to claim 1, wherein: the intelligent household equipment comprises one or more of an intelligent switch, an intelligent socket, an intelligent curtain, an intelligent electric fan, an intelligent electric cooker, an intelligent sweeping robot, intelligent household equipment containing video service, an intelligent sound box and an intelligent security camera.

3. The method for testing a solution for smart home with MESH networking according to claim 1, wherein: the wireless PC1 and the PC2 are respectively provided with a network packet capturing tool, a network analysis system, a batch Ping tool and a simulation client script tool capable of repeatedly associating and disassociating to a wireless network, the intelligent terminals are provided with intelligent home equipment management tools, one intelligent terminal supports a roaming function, and the intelligent terminals are provided with WIFI detection tools.

4. A method for testing a solution for smart home with MESH networking according to claim 3, wherein: in step S3, the operation method for increasing the MESH network load is as follows:

the wireless PC1 is connected to a wired interface of a certain MESH device in the MESH network in a wired way, and a network analysis system is used for transmitting UDP messages to the MESH network in a wired way at an original speed;

the wireless PC2 is connected to the ESSID of the MESH network in a wireless mode, a script tool of the simulation client is opened, and the simulation client is repeatedly associated and disassociated to the MESH networking wireless network all the time;

all intelligent terminals watch live broadcast services, and the pressure of the MESH networking network is increased in the various modes, so that the MESH network runs for a long time in a large flow mode, and the load of the MESH networking network is increased.

5. The method for testing a solution for smart home with MESH networking of claim 4, wherein: in step S4, when the test item is a roaming function test, a specific test method is as follows:

(1) The intelligent terminal is accessed to the MESH network and the public network user to carry out network communication service, the intelligent terminal is enabled to sequentially move among the MESH devices during the period, if the network quality is good in the whole moving process, the picture is smooth, the test is passed, and then the next step is executed;

(2) The intelligent terminal provided with the WIFI detection tool is connected with the MESH network, a roaming test function of the WIFI detection tool is started, a second wireless PC is arranged, the network packet grabbing tool is started to grab wireless messages, the intelligent terminal sequentially moves among the MESH devices to check test results of the WIFI detection tool, if roaming time and packet loss number among nodes are within a set range, the wireless roaming message interaction process grabbed by the network packet grabbing tool is error-free, the total time of each interaction process is within the set time, the test is passed, and then the next step is executed;

(3) One of the intelligent home devices is connected to the MESH network, so that the intelligent home devices can sequentially move among the MESH devices to work, the intelligent terminal tool of the intelligent terminal corresponding to the intelligent home device is used for issuing instructions every 10 seconds, and if the instruction feedback time is not more than 3s, the instruction issuing success rate is 100%, and the test is passed.

6. The method for testing a solution for smart home with MESH networking of claim 4, wherein: in step S4, when the test item is a wireless availability test, a specific test method is as follows:

(1) The second wireless PC is connected to the MESH network, 100 Ping packets are sent to each intelligent household device by using a batch Ping packet tool, the intelligent terminal accesses the Internet through data flow, sends instructions to the intelligent devices for a plurality of times at intervals through an intelligent device management tool, if the Ping packets have no packet loss, the delay is smaller than a first set value, the feedback time of the intelligent household devices is not longer than a second set value, the instruction sending success rate is 100 percent, the test is passed,

when the intelligent household equipment comprises intelligent household equipment with video service, if the intelligent household equipment has no jamming of the video service, the dragging progress bar fast forwards 30% of the video service, or the video service is buffered rapidly, the test is passed;

when the intelligent household equipment is an intelligent security camera, if the feedback time of the intelligent household equipment is not more than the second set value, the instruction issuing success rate is 100%, and the whole-course camera is smooth and clear in picture, so that the test is passed.

7. The method for testing a solution for smart home with MESH networking of claim 4, wherein: in step S4, when the test item is a wireless reliability test, a specific test method is as follows:

(1) The MESH equipment is restarted respectively, if the restart is completed, all the intelligent home equipment is reconnected and online, the intelligent terminal sends instructions to the intelligent equipment for a plurality of times at intervals by a data flow, the feedback time of each instruction is not more than a second set value, the success rate of the instruction sending is 100%, the test is passed, and then the next step is executed;

(2) The intelligent terminal is connected with the Internet through data flow, the intelligent equipment management tool transmits restarting operation to all intelligent household equipment, the intelligent household equipment is reconnected to the MESH network after restarting, and if the reconnection rate of the intelligent household equipment reaches 100%, the test is passed.

8. The method for testing a solution for smart home with MESH networking of claim 4, wherein: in step S4, when the test item is a network maintainability test, the specific test method is as follows:

(1) The MESH equipment performs upgrading operation respectively, if the intelligent home equipment is on line in a reconnection mode after the upgrading is finished, the intelligent terminal accesses the internet through data flow, issues instructions to the intelligent equipment for a plurality of times at intervals through an intelligent management tool, the feedback time of each instruction is not more than a second set value, the instruction issuing success rate is 100%, and the test is passed;

(2) The intelligent terminal is connected with the internet through data flow, the intelligent home equipment management tool is used for issuing upgrading operation to all intelligent home equipment, the intelligent home equipment is reconnected to the MESH network after upgrading, and if the reconnection rate of the wireless intelligent home equipment with the upgrading operation reaches 100%, the test is passed.

9. A test system for implementing the method for testing a solution of smart home for MESH networking according to any one of claims 1 to 8, characterized in that: the system comprises more than 2 MESH devices, a plurality of intelligent home devices and intelligent terminals for managing the intelligent home devices, wherein the intelligent home devices and the intelligent terminals can be fully connected into the MESH network, so that the total number of belt machines of the MESH network reaches a set standard, and the system further comprises a wireless PC1 and a wireless PC2, wherein the wireless PC1 is connected to a wired interface of one of the MESH devices in the MESH network in a wired manner, and the wireless PC2 is connected into the MESH network in a wireless manner.