CN113766546A

CN113766546A - Intelligent home solution test method and system for MESH networking

Info

Publication number: CN113766546A
Application number: CN202111210820.XA
Authority: CN
Inventors: 王康达; 袁志洪; 黄石勇
Original assignee: Shenzhen Tenda Technology Co Ltd
Current assignee: Shenzhen Tenda Technology Co Ltd
Priority date: 2021-10-18
Filing date: 2021-10-18
Publication date: 2021-12-07
Anticipated expiration: 2041-10-18
Also published as: CN113766546B

Abstract

The invention provides a method and a system for testing an intelligent home solution of an MESH networking, and belongs to the technical field of MESH equipment testing. The invention comprises the following steps: building a test environment: the method comprises the steps that a plurality of intelligent household devices and intelligent terminals are arranged and are all accessed to the MESH network, the total number of the devices of the MESH network reaches a set standard, the intelligent household equipment 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 mode, and the wireless PC2 is wirelessly accessed to the MESH network; the wireless PC and the intelligent terminal are operated continuously, so that the MESH network load is increased; sequentially testing the performance of the MESH network according to the test items; and after all the test items are tested, recording and storing the test results. The invention has the beneficial effects that: the test environment is systematized, the test time is reduced, and the test work is convenient to develop.

Description

Intelligent home solution test method and system for MESH networking

Technical Field

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

Background

Nowadays, intelligent household equipment is gradually integrated into the living environment of people, and the generation of high-speed wireless products enables household intelligence to become a trend. Under the promotion of the trend, a solution of intelligent home + MESH networking is generated at the same time, and a system test method under the scenario of the solution is very important.

There is currently no systematic test method: in the current test of the intelligent home solution of the MESH networking, a tester is mainly used for temporarily building an intelligent home environment, and the MESH networking is built for application and experience test.

The above test method has the following disadvantages:

1. the intelligent home test environment is set up again each time, and the test time is long;

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

3. the system test points are not available, and 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 for testing an intelligent home solution of MESH networking, which comprises the following steps:

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

s2: building a test environment: the intelligent home network system comprises a plurality of intelligent home devices, an intelligent terminal for managing the intelligent home devices, a wireless PC1 and a wireless PC2, wherein the intelligent home devices and the intelligent terminal are all accessed to the MESH network, the total number of the devices in the MESH network reaches a set standard, the wireless PC1 is connected to a wired interface of one of the MESH devices in the MESH network in a wired mode, and the wireless PC2 is wirelessly accessed to the MESH network;

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

s4: sequentially testing the performance of the MESH network according to the test items;

s5: after all the test items are tested, recording and storing the test results,

the test items comprise 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 an MESH network, moves among MESH network nodes, and evaluates the roaming function of the MESH network according to the picture display and 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 terminal for maintaining the intelligent home equipment under the MESH network is tested;

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

and when the test item is a network maintainability test, the MESH equipment is respectively upgraded, the intelligent terminal issues restart operation to all the intelligent home equipment, and the maintainability of the MESH network is evaluated 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 rice cooker, an intelligent sweeping robot, intelligent household equipment containing video services, an intelligent sound box and an intelligent security camera.

The invention is further improved, 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 being repeatedly associated and disassociated to a wireless network, the intelligent terminals are provided with intelligent household equipment management tools, one of the intelligent terminals supports a roaming function and is provided with a WIFI detection tool.

The present invention is further improved, in step S3, the operation method for increasing the MESH network load includes:

the wireless PC1 is connected to the wired interface of a certain MESH device in the MESH network by a wire, and transmits UDP messages to the wire original speed in the MESH network by using a network analysis system;

the wireless PC2 is wirelessly connected to the ESSID of the MESH network, 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 intelligent terminals watch the live broadcast service, and the MESH networking network pressure is increased through the various modes, so that the MESH network runs a larger flow mode for a long time, and the MESH networking network load is increased.

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

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

(2) the method comprises the steps that an intelligent terminal provided with a WIFI detection tool is connected with an MESH network, a roaming test function of the WIFI detection tool is started, a second wireless PC is set, a network packet capturing tool is started to capture wireless messages, the intelligent terminal moves among MESH devices in sequence, test results of the WIFI detection tool are checked, if node roaming time and packet loss number are within a set range, the wireless roaming message captured by the network packet capturing tool has no error in an interaction process, 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 accessed to the MESH network, so that the intelligent home devices sequentially move among the MESH devices to work, during which, an intelligent terminal tool of an intelligent terminal corresponding to the intelligent home device is used for issuing instructions every 10 seconds, if the instruction feedback time is not more than 3s and the instruction issuing success rate is 100%, the test is passed.

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

(1) the second wireless PC accesses the MESH network, 100 Ping packets are sent to each intelligent household equipment by using a batch Ping packet tool, the intelligent terminal accesses the Internet through data flow, and sends commands to the intelligent equipment at intervals of a certain time through an intelligent equipment management tool, if the Ping packets do not lose packets, the delay is less than a first set value, the feedback time of the intelligent household equipment is not more than a second set value, and the command sending success rate is 100 percent, the test is passed,

when the intelligent home equipment comprises the intelligent home equipment with the video service, if the video service of the intelligent home equipment is not blocked, the progress bar is dragged to fast advance by 30% without blocking or the buffering is fast, 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 a second set value, the success rate of instruction issuing is 100%, and the picture of the whole-process camera is smooth and clear, the test is passed.

The invention further improves, in step S4, when the test item is a wireless reliability test, the specific test method is as follows:

(1) the MESH equipment respectively carries out restarting operation, if after restarting is completed, all the intelligent home equipment are reconnected to the Internet, the intelligent terminal accesses the Internet through data flow, and 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 success rate of instruction issuing is 100%, the test is passed, and then the next step is executed;

(2) the intelligent terminal accesses the internet through data traffic, a restart operation is issued to all the intelligent home equipment through the intelligent equipment management tool, the intelligent home equipment is reconnected to the MESH network after the restart is completed, and if the reconnection rate of the intelligent home equipment reaches 100%, the test is passed.

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

(1) the MESH equipment respectively carries out upgrading operation, if the intelligent household equipment is completely reconnected to the Internet after upgrading is finished, the intelligent terminal accesses the Internet through data flow, and issues instructions to the intelligent equipment for multiple times at intervals of certain time through an intelligent management tool, the feedback time of each instruction is not more than a second set value, and the success rate of instruction issuing is 100%, then the test is passed;

(2) the intelligent terminal accesses the internet through data traffic, the upgrading operation is issued to all the intelligent home equipment through the intelligent home equipment management tool, the intelligent home equipment is reconnected to the MESH network after being upgraded, and if the reconnection rate of the wireless intelligent home equipment subjected to 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 networking, which comprises more than 2 MESH devices, a plurality of intelligent home devices and an intelligent terminal for managing the intelligent home devices, wherein the intelligent home devices and the intelligent terminal can be completely accessed into the MESH network, so that the total number of the devices in the MESH network reaches a set standard, and the test 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 wirelessly accessed into the MESH network.

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

Drawings

Fig. 1 is a schematic diagram of MESH networking according to an embodiment of the present invention.

Detailed Description

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

As shown in fig. 1, the solution testing method in the smart home scenario of the MESH networking provided by the present 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 uses tools and equipment as follows: two wireless PCs (install omniPeek instrument (network package grabbing instrument)), the ke lai network analytic system, the pin infoView instrument of batches, install the simulation customer end script instrument that can duplicate the association disassociation to wireless network, a plurality of (being equipped with intelligent house equipment management instrument), 3 pieces of MESH network deployment equipment (one is as the MPP, one is as MAP1, last one is MAP2), applicable scene: and (4) intelligent home scene.

The smart phone of this example adopts 20, and intelligent home equipment has set up about 80, includes that intelligent switch is a plurality of, smart jack is a plurality of, intelligent (window) curtain is a plurality of, intelligent electric fan is a plurality of, intelligent electricity rice cooker, intelligent robot, the smart cat eidolon is a plurality of (other intelligent audio amplifier, intelligent product do), intelligent security camera is a plurality of etc. constitute intelligent home environment.

In the environment of the intelligent home solution, the number of devices connected to each node may be different, and the test method is available as long as the total number of devices reaches the standard, so that in the invention, there is no rigid requirement on how many terminals each MESH device must be connected to, preferably, the present example has 100 terminals, and each MESH node can be connected to about 33 terminals, so that the number of the connected terminals of each node is close; the number of the connection terminals of more than 3 MESH nodes can also be close to that of each connection terminal of each node according to the total number of the terminals, namely, the load of the nodes is balanced as much as possible.

The MESH equipment is networked, an ESSID is set, all the intelligent household equipment is connected to the ESSID, the wireless PC is connected to the ESSID, a download tool such as a rapid radar and the like is used for downloading a large-flow data packet, a Clay network analysis system is connected to the MESH network in a wired mode, a certain node in the MESH network sends a UDP packet to the network, a simulation client script which can be repeatedly associated and disassociated to an SSID of the MESH network is used for connecting to the ESSID, and in short, the load of the MESH network is increased through the method.

After the following test, the intelligent home test environment formed by the intelligent home devices can be reserved, and the intelligent home devices can be automatically connected to the MESH network only by setting the ESSID of the DUT (device to be tested) networking 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 an embodiment of the present invention, the test procedure of this example is as follows:

1. building a test environment according to the network topology shown in fig. 1, wherein 3 MESH devices are networked and named as MPP, MAP1 and MAP2, respectively, and setting MESH networking ESSID;

2. in the scene, about 80 intelligent household devices and about 20 mobile phone terminals are connected to the MESH networking wireless network, so that the total number of the 3 MESH networking devices is about 100;

3. one of the wireless PCs (hereinafter abbreviated as PC1) is connected to a wired interface of a certain DUT in the MESH network by a wire, and the PC1 transmits UDP messages to the wire in the MESH network at the original speed by using the clary network analysis system;

4. the wireless PC2 is wirelessly connected to the ESSID of the MESH network, a script tool is opened, and the simulation client is repeatedly associated and disassociated to the MESH networking wireless network;

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

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

First, roaming function test

1. During the WeChat video call service between the mobile phone terminal (supporting fast roaming) accessing the MESH network and the public network user, the mobile phone terminal moves from the MPP to the MAP1 to the MAP2, and the standard: the network quality is good in the whole moving process, and the picture is smooth;

2. during the tench conference service between the mobile phone terminal (supporting fast roaming) accessing the MESH network and the public network user, the mobile phone terminal moves between the MPP to the MAP1 to the MAP2, according to the standard: 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 the MESH network, starts the roaming test function of the WiFi magic box, starts an OmniPeek tool by another wireless PC (PC 2) to capture wireless messages, moves between the MPP and the MAP1 to the MAP2, and passes the standard: looking up a WiFi magic box test result, wherein the roaming time between nodes is 50-700 ms (less than 50ms is optimal, fast roaming is performed), the fast roaming terminal is supported to roam without packet loss, the fast roaming terminal is not supported to have 1-3 packet losses, the wireless roaming message captured by OmniPeek has no error in the interaction process, and the total time of each interaction process is 50-700 ms;

4. the intelligent sweeping robot accesses the MESH network, so that the intelligent sweeping robot can work in a moving mode from the MPP to the MAP1 to the MAP2, and during the moving mode, the management app of the intelligent sweeping robot is used for issuing instructions every 10 seconds, and the following criteria are met: the instruction feedback time is not more than 3s, and the instruction issuing success rate is 100%.

Second, wireless usability test

1. Wireless PC2 inserts the MESH network, use PinginfoView batch Ping package instrument to intelligent switch, smart jack, intelligent (window) curtain, intelligent electricity air-dries, intelligent electricity rice cooker, intelligence robot of sweeping the floor, the time cat eidolon (time cat eidolon video player, play video service all the time in the whole test) Ping package 100, mobile phone terminal passes through the data flow and surfs the net, send the instruction to intelligent home equipment through intelligent home equipment management app, wherein every intelligent home equipment sends once every 10s, totally 5 times, through the standard: the ping packets have 100 packets without packet loss, the delay is less than 100ms, the app issues an instruction, the 5-time feedback time is not more than 3s, the instruction issuing success rate is 100%, the tianmao eidolon video service has no jamming, the progress bar is dragged to fast forward by 30% or buffer rapidly (the video playing is recovered within 1-3 seconds);

2. the intelligent security camera is connected to the MESH network through wireless, the mobile phone terminal surfs the internet through data traffic, and sends an instruction to the camera every 10s through app for 5 times, and the instruction passes through the standard: the feedback time of 5 times of instruction issuing by the app is not more than 3s, the instruction issuing success rate is 100%, and the whole camera picture is smooth and clear;

third, wireless reliability test

The MESH equipment respectively carries out restart operation, and the restart operation is carried out according to the following standard: after the intelligent home equipment is restarted, the intelligent home equipment is completely reconnected to the Internet, the mobile phone terminal accesses the Internet through data flow, and issues instructions to the intelligent home equipment through app, the interval is 10s every time, 5 times are total, the instruction feedback time is not more than 3s every time, and the instruction issuing success rate is 100%;

2. the mobile phone terminal surfs the internet through data traffic, issues restarting operation to all intelligent home devices through intelligent home device management app, and after the intelligent home devices are restarted, the intelligent home devices are reconnected to the MESH networking network, and the standard is passed: in the experimental scene, the reconnection rate of 80 wireless intelligent household devices is 100%;

fourth, network maintainability test

Respectively upgrading MESH equipment, wherein the upgrading operation is carried out according to the following standard: after upgrading is completed, all the intelligent household equipment is reconnected to the online, the mobile phone terminal accesses the Internet through data flow, and issues instructions to the intelligent household equipment through app, the interval is 10s every time, 5 times are total, the instruction feedback time is not more than 3s every time, and the instruction issuing success rate is 100%;

2. the mobile phone terminal surfs the internet through data traffic, sends upgrading operation to all intelligent home devices through intelligent home device management app, and reconnects to the MESH networking network after the intelligent home devices are upgraded, and the mobile phone terminal passes through the standard: the reconnection rate of wireless intelligent household equipment subjected to upgrading operation in the experimental scene is 100%.

The invention discloses a testing method for an MESH networking intelligent home solution testing scene, which comprises a roaming test, a network reliability test and a maintenance availability test in the scene, wherein the testing environment is systematized, so that the testing time is reduced, and the testing efficiency is improved; the test work is convenient to develop. By systematizing the test points, the test personnel can conveniently execute and deliver the test results, so that the test results have objectivity and consistency, the work requirement on the test personnel is low, and the test threshold is reduced.

The above-described embodiments are intended to be illustrative, and not restrictive, of the invention, and all changes that come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

Claims

1. A method for testing an intelligent home solution of MESH networking is characterized by comprising the following steps:

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

2. The method for testing the intelligent home solution of the 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 floor sweeping robot, intelligent household equipment with video service, an intelligent sound box and an intelligent security camera.

3. The method for testing the intelligent home solution of the MESH networking according to claim 1, wherein: wireless PC1 and PC2 all are equipped with network and grab a packet instrument, network analysis system, in batches Ping instrument and can repeat the simulation customer end script instrument that the association disassociated to wireless network, intelligent terminal is equipped with intelligent house equipment management tool, and one of them intelligent terminal supports the roaming function, is equipped with WIFI detection tool.

4. The method for testing the intelligent home solution of the MESH networking according to claim 3, wherein: in step S3, the operation method for increasing the MESH network load is as follows:

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

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

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

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

9. The test system for implementing the intelligent home solution test method for the MESH networking according to any one of claims 1 to 8, is characterized in that: the intelligent home device comprises more than 2 MESH devices, a plurality of intelligent home devices and an intelligent terminal for managing the intelligent home devices, wherein the intelligent home devices and the intelligent terminal can be completely accessed to the MESH network to enable the total number of the devices in the MESH network to reach a set standard, the intelligent home device further comprises a wireless PC1 and a wireless PC2, the wireless PC1 is in wired connection with a wired interface of one of the MESH devices in the MESH network, and the wireless PC2 is in wireless access to the MESH network.