CN116156501B - Wireless grid network networking method, device and system - Google Patents

Abstract

The application discloses a wireless grid network networking method, device and system, wherein a cloud server receives a network access request sent by a client, sends the network access instruction to a main route, and is verified by the main route; after the main route passes verification and is accessed to the wireless grid network, the main route sends verification result information to the cloud server, and the cloud server stores identification information of the main route, identification information of the sub-route and networking state. According to the scheme, the cost of wps keys is reduced from hardware, networking is realized by a cloud, network intellectualization is realized, networking is realized by using a private protocol, and the problems that in the prior art, the mesh wireless networking access mode achieves the aim of successful networking due to interaction of main routing and sub routing realized by depending on wps functions, so that the operation is complicated are solved.

Description

Wireless grid network networking method, device and system

Technical Field

The present invention relates to the field of grid network networking technologies, and in particular, to a wireless grid network networking method, device and system.

Background

The current mesh wireless networking access mode relies on wps function to realize interaction of main route and sub route (relay) to achieve the aim of successful networking, and the common practice of kicking off the sub route (relay) from the existing mesh networking is to restore the equipment to leave the factory or power off the equipment, so that the operation is complicated and complex, and the user experience is affected.

Disclosure of Invention

The invention aims to overcome the defects of complicated operation caused by the successful networking purpose achieved by the interaction of a main route and a sub route (relay) realized by a mesh wireless networking access mode depending on wps function in the prior art, thereby providing a wireless grid network networking method, device and system.

In order to solve the technical problems, the disclosed embodiments of the present invention at least provide a wireless mesh network networking method, device and system.

In a first aspect, an embodiment of the present disclosure provides a wireless mesh network networking method, where the wireless mesh network includes a cloud server, a main route, a sub-route, and a client, and the method is implemented by the cloud server, and the method includes:

receiving a first sub-routing network access request sent by a client, wherein the first sub-routing network access request comprises key information of a first target sub-routing waiting to be accessed into a wireless mesh network, and the key information of the first target sub-routing comprises identification information and authentication information;

sending a network access instruction to a main route, wherein the network access instruction comprises key information of the first target sub-route so that the main route verifies the key information of the first target sub-route;

Receiving verification result information fed back by a main route, wherein the verification result information comprises identification information of the main route and identification information of a first target sub-route, the verification result information is transmitted after the main route verifies the key information of the first target sub-route, and the first target sub-route is accessed to a wireless grid network;

and storing the identification information of the main route and the identification information of the first target sub-route, and displaying and recording the networking state between the main route and the first target sub-route in a networking state display module.

Optionally, the method further comprises: receiving a sub-route off-network request sent by a client, wherein the sub-route off-network request comprises key information of a second target sub-route waiting to exit the wireless mesh network, and the key information of the second target sub-route comprises identification information; and sending a sub-route network-exit instruction to the main route, wherein the sub-route network-exit instruction comprises key information of the second target sub-route so that the main route sends sub-route network-exit information to the second target sub-route, and the second target sub-route disconnects with the main route after receiving the sub-route network-exit information.

Optionally, before the receiving the first sub-routing network access request sent by the client, the method further includes: receiving a sub-route query request sent by a client, wherein the sub-route query request comprises identification information of the first target sub-route; inquiring whether the first target sub-route exists in the current wireless mesh network according to the identification information of the first target sub-route; if yes, the networking state information of the first target sub-route and a network access prompt or a network exit prompt are sent to the client; if not, sending a network access prompt to the client; the first sub-routing network access request is sent by the client after the network access prompt.

In a second aspect, the disclosed embodiment of the present invention further provides a wireless mesh network networking method, where the wireless mesh network includes a cloud server, a main route, a sub-route, and a client, and the method is implemented by the main route, and the method includes:

receiving a network access instruction issued by a cloud server, wherein the network access instruction comprises key information of a first target sub-route;

verifying the key information of the first target sub-route;

if the verification is passed, a network access notification is sent to the first target sub-route, so that the first target sub-route accesses a wireless mesh network according to the network access notification;

After the first target sub-route is accessed to the wireless mesh network, verification result information is sent to a cloud server, wherein the verification result information comprises identification information of a main route and identification information of the first target sub-route, so that the cloud server can store the identification information of the main route and the identification information of the first target sub-route.

Optionally, the method further comprises: detecting a network state in real time, when a wireless network is disconnected and a cloud server cannot be normally connected, wireless network signals are normal, but when the cloud server cannot be normally connected, wireless grid network networking is performed in a wired mode, after the cloud server is restored to be connected, wireless grid network networking information completed in a wired mode is reported to the cloud server, and the wireless grid network networking information comprises identification information and networking state information of a sub-route of network access or network withdrawal operation.

In a third aspect, an embodiment of the present disclosure further provides a wireless mesh network networking device, where the wireless mesh network includes a cloud server, a main route, a sub-route, and a client, where the device is configured to be used by the cloud server, and the device includes:

The network access request receiving module is used for receiving a first sub-route network access request sent by a client, wherein the first sub-route network access request comprises key information of a first target sub-route waiting to be accessed into a wireless mesh network, and the key information of the first target sub-route comprises identification information and authentication information;

the network access instruction sending module is used for sending a network access instruction to a main route, wherein the network access instruction comprises key information of the first target sub-route so that the main route can verify the key information of the first target sub-route;

the verification result receiving module is used for receiving verification result information fed back by the main route, wherein the verification result information comprises identification information of the main route and identification information of the first target sub-route, the verification result information is transmitted after the main route passes through the verification of key information of the first target sub-route, and the first target sub-route is accessed to the wireless grid network;

and the networking information storage module is used for storing the identification information of the main route and the identification information of the first target sub-route, and displaying and recording the networking state between the main route and the first target sub-route in the networking state display module.

In a fourth aspect, an embodiment of the present disclosure further provides a wireless mesh network networking device, where the wireless mesh network includes a cloud server, a main route, a sub-route, and a client, where the device is used for the main route, and the device includes:

the network access instruction receiving module is used for receiving a network access instruction issued by the cloud server, wherein the network access instruction comprises key information of a first target sub-route;

a sub-route information verification module, configured to verify the key information of the first target sub-route;

the network access notification module is used for sending a network access notification to the first target sub-route if the verification is passed, so that the first target sub-route accesses a wireless mesh network according to the network access notification;

the verification result sending module is used for sending verification result information to the cloud server after the first target sub-route is accessed to the wireless mesh network, wherein the verification result information comprises identification information of the main route and identification information of the first target sub-route, so that the cloud server can store the identification information of the main route and the identification information of the first target sub-route.

In a fifth aspect, the disclosed embodiment of the invention further provides a wireless mesh network system, including:

The client sends a first sub-routing network access request to the cloud server;

the cloud server receives the first sub-route network access request sent by the client, wherein the first sub-route network access request comprises key information of a first target sub-route waiting to be accessed into the wireless grid network, and the key information of the first target sub-route comprises identification information and authentication information; sending a network access instruction to a main route, wherein the network access instruction comprises key information of the first target sub-route so that the main route verifies the key information of the first target sub-route; receiving verification result information fed back by a main route, wherein the verification result information comprises identification information of the main route and identification information of a first target sub-route, the verification result information is transmitted after the main route verifies the key information of the first target sub-route, and the first target sub-route is accessed to a wireless grid network; storing the identification information of the main route and the identification information of the first target sub-route, and displaying and recording the networking state between the main route and the first target sub-route in a networking state display module;

the method comprises the steps of a main route, receiving a network access instruction issued by a cloud server, wherein the network access instruction comprises key information of a first target sub-route; verifying the key information of the first target sub-route; if the verification is passed, a network access notification is sent to the first target sub-route, so that the first target sub-route accesses a wireless mesh network according to the network access notification; after the first target sub-route is accessed to the wireless mesh network, verification result information is sent to a cloud server, wherein the verification result information comprises identification information of a main route and identification information of the first target sub-route, so that the cloud server can store the identification information of the main route and the identification information of the first target sub-route.

In a sixth aspect, the disclosed embodiments of the invention also provide a computer apparatus comprising: a processor, a memory and a bus, the memory storing machine-readable instructions executable by the processor, the processor and the memory in communication via the bus when the computer device is running, the machine-readable instructions when executed by the processor performing the steps of the first aspect, or any of the possible implementations of the first aspect.

In a seventh aspect, the disclosed embodiments also provide a computer readable storage medium having stored thereon a computer program which, when executed by a processor, performs the steps of the first aspect, or any of the possible implementation manners of the first aspect.

The technical scheme provided by the embodiment of the invention has the following beneficial effects:

the cloud server receives a first sub-route network access request sent by a client, sends a network access instruction to a main route, and the main route verifies key information of a first target sub-route; the key information verification of the main route on the first target sub-route passes, after the first target sub-route is accessed to the wireless grid network, verification result information is sent to the cloud server, the cloud server receives the verification result information fed back by the main route, the identification information of the main route and the identification information of the first target sub-route are stored, and networking states between the main route and the first target sub-route are displayed and recorded in the networking state display module. According to the scheme, the cost of wps keys is reduced from hardware, networking is realized by the cloud, the network is intelligent, and networking is realized by using a private protocol.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings that are needed in the description of the embodiments or the prior art will be briefly described, and it is obvious that the drawings in the description below are some embodiments of the present invention, and other drawings can be obtained according to the drawings without inventive effort for a person skilled in the art.

Fig. 1 is a flowchart of a wireless mesh network networking method according to an embodiment of the present disclosure;

fig. 2 is a flowchart illustrating another wireless mesh network networking method provided by the disclosed embodiments of the invention;

fig. 3 is a flowchart illustrating yet another wireless mesh network networking method provided by an embodiment of the present disclosure;

fig. 4 is a flowchart illustrating yet another wireless mesh network networking method provided by an embodiment of the present disclosure;

fig. 5 is a schematic structural diagram of a wireless mesh network networking device according to an embodiment of the present disclosure;

fig. 6 is a schematic structural diagram of another wireless mesh network networking device according to an embodiment of the present disclosure;

Fig. 7 is a functional block diagram of a wireless mesh network system according to an embodiment of the present disclosure;

FIG. 8 is a schematic diagram of a computer device according to an embodiment of the present disclosure;

fig. 9 is a schematic flow chart of primary route and secondary route information verification in the disclosed embodiment of the invention.

Detailed Description

Reference will now be made in detail to exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, the same numbers in different drawings refer to the same or similar elements, unless otherwise indicated. The implementations described in the following exemplary examples do not represent all implementations consistent with the invention. Rather, they are merely examples of apparatus and methods consistent with aspects of the invention as detailed in the accompanying summary.

Example 1

As shown in fig. 1, in a flowchart of a wireless mesh network networking method provided by an embodiment of the present invention, a wireless mesh network includes a cloud server, a main route, a sub-route, and a client, and the method is implemented by the cloud server, and includes:

s11: and receiving a first sub-routing network access request sent by the client, wherein the first sub-routing network access request comprises key information of a first target sub-routing waiting to access the wireless mesh network, and the key information of the first target sub-routing comprises identification information and authentication information.

S12: and sending a network access instruction to the main route, wherein the network access instruction comprises key information of the first target sub-route so that the main route can verify the key information of the first target sub-route.

S13: and receiving verification result information fed back by the main route, wherein the verification result information comprises identification information of the main route and identification information of the first target sub-route, the verification result information is transmitted after the main route verifies the key information of the first target sub-route, and the first target sub-route is accessed to the wireless mesh network.

S14: and storing the identification information of the main route and the identification information of the first target sub-route, and displaying and recording the networking state between the main route and the first target sub-route in the networking state display module.

It can be understood that, in the technical solution provided in this embodiment, the cloud server receives the first sub-route network access request sent by the client, sends a network access instruction to the main route, and the main route verifies the key information of the first target sub-route; the key information verification of the main route on the first target sub-route passes, after the first target sub-route is accessed to the wireless grid network, verification result information is sent to the cloud server, the cloud server receives the verification result information fed back by the main route, the identification information of the main route and the identification information of the first target sub-route are stored, and networking states between the main route and the first target sub-route are displayed and recorded in the networking state display module. According to the scheme, the cost of wps keys is reduced from hardware, networking is realized by the cloud, the network is intelligent, and networking is realized by using a private protocol.

Example 2

As shown in fig. 2, as an improvement of embodiment 1, the present invention discloses a flowchart of another wireless mesh network networking method provided in an embodiment, where a wireless mesh network includes a cloud server, a main route, a sub-route, and a client, and the method is implemented by the cloud server, and includes:

s201: and receiving a sub-route query request sent by the client, wherein the sub-route query request comprises the identification information of the first target sub-route.

S202: and inquiring whether the first target sub-route exists in the current wireless mesh network according to the identification information of the first target sub-route.

S203: if so, the networking state information of the first target sub-route and the network access prompt or the network exit prompt are sent to the client.

S204: if the first sub-route network access request does not exist, a network access prompt is sent to the client, and the first sub-route network access request is sent by the client after the network access prompt.

S205: and receiving a first sub-routing network access request sent by the client, wherein the first sub-routing network access request comprises key information of a first target sub-routing waiting to access the wireless mesh network, and the key information of the first target sub-routing comprises identification information and authentication information.

S206: and sending a network access instruction to the main route, wherein the network access instruction comprises key information of the first target sub-route so that the main route can verify the key information of the first target sub-route.

S207: and receiving verification result information fed back by the main route, wherein the verification result information comprises identification information of the main route and identification information of the first target sub-route, the verification result information is transmitted after the main route verifies the key information of the first target sub-route, and the first target sub-route is accessed to the wireless mesh network.

S208: and storing the identification information of the main route and the identification information of the first target sub-route, and displaying and recording the networking state between the main route and the first target sub-route in the networking state display module.

S209: and receiving a sub-route off-network request sent by the client, wherein the sub-route off-network request comprises key information of a second target sub-route waiting to exit the wireless mesh network, and the key information of the second target sub-route comprises identification information.

S210: and sending a sub-route network-exit instruction to the main route, wherein the sub-route network-exit instruction comprises key information of a second target sub-route, so that the main route sends sub-route network-exit information to the second target sub-route, and the second target sub-route disconnects with the main route after receiving the sub-route network-exit information.

It can be understood that, in the technical solution provided in this embodiment, the cloud server receives the first sub-route network access request sent by the client, sends a network access instruction to the main route, and the main route verifies the key information of the first target sub-route; the key information verification of the main route on the first target sub-route passes, after the first target sub-route is accessed to the wireless grid network, verification result information is sent to the cloud server, the cloud server receives the verification result information fed back by the main route, the identification information of the main route and the identification information of the first target sub-route are stored, and networking states between the main route and the first target sub-route are displayed and recorded in the networking state display module. According to the scheme, the cost of wps keys is reduced from hardware, networking is realized by the cloud, the network is intelligent, and networking is realized by using a private protocol.

Example 3

As shown in fig. 3, the present invention provides a flowchart of another wireless mesh network networking method, where a wireless mesh network includes a cloud server, a main route, a sub-route, and a client, and the method is implemented by the main route, and includes:

s31: and receiving a network access instruction issued by the cloud server, wherein the network access instruction comprises key information of the first target sub-route.

S32: and verifying the key information of the first target sub-route.

S33: and if the verification is passed, sending a network access notification to the first target sub-route so that the first target sub-route accesses the wireless mesh network according to the network access notification.

S34: after the first target sub-route is accessed to the wireless mesh network, verification result information is sent to the cloud server, wherein the verification result information comprises identification information of the main route and identification information of the first target sub-route, so that the cloud server can store the identification information of the main route and the identification information of the first target sub-route.

It can be understood that, in the technical solution provided in this embodiment, the cloud server receives the first sub-route network access request sent by the client, sends a network access instruction to the main route, and the main route verifies the key information of the first target sub-route; the key information verification of the main route on the first target sub-route passes, after the first target sub-route is accessed to the wireless grid network, verification result information is sent to the cloud server, the cloud server receives the verification result information fed back by the main route, the identification information of the main route and the identification information of the first target sub-route are stored, and networking states between the main route and the first target sub-route are displayed and recorded in the networking state display module. According to the scheme, the cost of wps keys is reduced from hardware, networking is realized by the cloud, the network is intelligent, and networking is realized by using a private protocol.

Example 4

As an improvement of embodiment 3, as shown in fig. 4, another flowchart of a wireless mesh network networking method provided in an embodiment of the present invention is provided, where a wireless mesh network includes a cloud server, a main route, a sub-route, and a client, and the method is implemented by the main route, and the method includes:

s41: and receiving a network access instruction issued by the cloud server, wherein the network access instruction comprises key information of the first target sub-route.

S42: and verifying the key information of the first target sub-route.

S43: and if the verification is passed, sending a network access notification to the first target sub-route so that the first target sub-route accesses the wireless mesh network according to the network access notification.

S44: after the first target sub-route is accessed to the wireless mesh network, verification result information is sent to the cloud server, wherein the verification result information comprises identification information of the main route and identification information of the first target sub-route, so that the cloud server can store the identification information of the main route and the identification information of the first target sub-route.

S45: detecting a network state in real time, carrying out wireless grid network networking in a wired mode when a wireless network signal is normal but a cloud server cannot be normally connected, and reporting wireless grid network networking information completed in a wired mode to the cloud server after the cloud server is restored to be connected, wherein the wireless grid network networking information comprises identification information and networking state information of a sub-route in which network access or network withdrawal operation occurs.

Specifically, when the cloud server cannot be normally connected and the network can be normally used, the main route maintains the existing networking network. Also in this case there is a new device to join the network, which can be reached by wired means. In this case too, the equipment needs to kick off the network, and the equipment can be powered off to achieve the purpose of not accessing the network. And when the connection cloud server is recovered to be normal, reporting the network state information of the new wireless grid network group to the cloud server.

It can be understood that, in the technical solution provided in this embodiment, the cloud server receives the first sub-route network access request sent by the client, sends a network access instruction to the main route, and the main route verifies the key information of the first target sub-route; the key information verification of the main route on the first target sub-route passes, after the first target sub-route is accessed to the wireless grid network, verification result information is sent to the cloud server, the cloud server receives the verification result information fed back by the main route, the identification information of the main route and the identification information of the first target sub-route are stored, and networking states between the main route and the first target sub-route are displayed and recorded in the networking state display module. According to the scheme, the cost of wps keys is reduced from hardware, networking is realized by the cloud, the network is intelligent, and networking is realized by using a private protocol.

Example 5

As shown in fig. 5, a functional block diagram of a wireless mesh network networking device provided by an embodiment of the present invention, where a wireless mesh network includes a cloud server, a main route, a sub-route, and a client, a method is implemented by the cloud server, and the device includes:

the network access request receiving module 51 is configured to receive a first sub-route network access request sent by a client, where the first sub-route network access request includes key information of a first target sub-route waiting to access the wireless mesh network, and the key information of the first target sub-route includes identification information and authentication information.

The network access instruction sending module 52 is configured to send a network access instruction to the primary route, where the network access instruction includes key information of the first target sub-route, so that the primary route verifies the key information of the first target sub-route.

The verification result receiving module 53 is configured to receive verification result information fed back by the primary route, where the verification result information includes identification information of the primary route and identification information of the first target sub-route, the verification result information is that key information of the primary route on the first target sub-route passes through verification, and the first target sub-route is sent after being accessed into the wireless mesh network.

The networking information storage module 54 is configured to store the identification information of the main route and the identification information of the first target sub-route, and display and record the networking state between the main route and the first target sub-route in the networking state display module.

In some alternative embodiments, the apparatus further comprises:

the sub-route off-network request receiving module 55 is configured to receive a sub-route off-network request sent by a client, where the sub-route off-network request includes key information of a second target sub-route waiting to exit the wireless mesh network, and the key information of the second target sub-route includes identification information.

The network exit instruction sending module 56 is configured to send a sub-route network exit instruction to the main route, where the sub-route network exit instruction includes key information of the second target sub-route, so that the main route sends sub-route network exit information to the second target sub-route, and the second target sub-route disconnects from the main route after receiving the sub-route network exit information.

Further, in some alternative embodiments, the apparatus further comprises:

the route query request receiving module 57 is configured to receive a sub-route query request sent by the client, where the sub-route query request includes identification information of a first target sub-route.

A route query request module 58, configured to query whether a first target sub-route exists in the current wireless mesh network according to the identification information of the first target sub-route; if yes, the networking state information of the first target sub-route and the network access prompt or the network exit prompt are sent to the client; if not, sending a network access prompt to the client.

It can be understood that, in the technical solution provided in this embodiment, the cloud server receives the first sub-route network access request sent by the client, sends a network access instruction to the main route, and the main route verifies the key information of the first target sub-route; the key information verification of the main route on the first target sub-route passes, after the first target sub-route is accessed to the wireless grid network, verification result information is sent to the cloud server, the cloud server receives the verification result information fed back by the main route, the identification information of the main route and the identification information of the first target sub-route are stored, and networking states between the main route and the first target sub-route are displayed and recorded in the networking state display module. According to the scheme, the cost of wps keys is reduced from hardware, networking is realized by the cloud, the network is intelligent, and networking is realized by using a private protocol.

Example 6

As shown in fig. 6, another functional block diagram of a wireless mesh network networking device provided by an embodiment of the present invention, where a wireless mesh network includes a cloud server, a main route, a sub-route, and a client, the method is implemented by the main route, and the device includes:

the network access instruction receiving module 61 is configured to receive a network access instruction issued by the cloud server, where the network access instruction includes key information of the first target sub-route.

The sub-route information verification module 62 is configured to verify the key information of the first target sub-route.

The network access notification module 63 is configured to send a network access notification to the first target sub-route if the verification is passed, so that the first target sub-route accesses the wireless mesh network according to the network access notification.

The verification result sending module 64 is configured to send verification result information to the cloud server after the first target sub-route accesses the wireless mesh network, where the verification result information includes identification information of the main route and identification information of the first target sub-route, so that the cloud server stores the identification information of the main route and the identification information of the first target sub-route.

In some alternative embodiments, the apparatus further comprises:

The network state detection module 65 is configured to detect a network state in real time, perform wireless mesh network networking in a wired manner when a wireless network signal is normal but cannot be normally connected to the cloud server, and report wireless mesh network networking information completed in a wired manner to the cloud server after the cloud server resumes connection, where the wireless mesh network networking information includes identification information and networking state information of a sub-route where an operation of network access or network disconnection occurs.

It can be understood that, in the technical solution provided in this embodiment, the cloud server receives the first sub-route network access request sent by the client, sends a network access instruction to the main route, and the main route verifies the key information of the first target sub-route; the key information verification of the main route on the first target sub-route passes, after the first target sub-route is accessed to the wireless grid network, verification result information is sent to the cloud server, the cloud server receives the verification result information fed back by the main route, the identification information of the main route and the identification information of the first target sub-route are stored, and networking states between the main route and the first target sub-route are displayed and recorded in the networking state display module. According to the scheme, the cost of wps keys is reduced from hardware, networking is realized by the cloud, the network is intelligent, and networking is realized by using a private protocol.

Example 7

As shown in fig. 7, another functional block diagram of a wireless mesh network networking system according to an embodiment of the present disclosure includes:

the client 71 sends a first sub-routing network access request to the cloud server.

The cloud server 72 receives a first sub-route network access request sent by the client, where the first sub-route network access request includes key information of a first target sub-route waiting to access the wireless mesh network, and the key information of the first target sub-route includes identification information and authentication information; sending a network access instruction to the main route, wherein the network access instruction comprises key information of the first target sub-route so that the main route can verify the key information of the first target sub-route; receiving verification result information fed back by a main route, wherein the verification result information comprises identification information of the main route and identification information of a first target sub-route, the verification result information is transmitted after the main route passes through the verification of key information of the first target sub-route, and the first target sub-route is accessed to a wireless mesh network; and storing the identification information of the main route and the identification information of the first target sub-route, and displaying and recording the networking state between the main route and the first target sub-route in the networking state display module.

The main route 73 receives a network access instruction issued by the cloud server, wherein the network access instruction comprises key information of a first target sub-route; verifying the key information of the first target sub-route; if the verification is passed, a network access notification is sent to the first target sub-route, so that the first target sub-route accesses the wireless mesh network according to the network access notification; after the first target sub-route is accessed to the wireless mesh network, verification result information is sent to the cloud server, wherein the verification result information comprises identification information of the main route and identification information of the first target sub-route, so that the cloud server can store the identification information of the main route and the identification information of the first target sub-route.

In some alternative embodiments, the client 71 is further configured to receive a sub-route offline request sent by the client, where the sub-route offline request includes key information of a second target sub-route waiting to exit the wireless mesh network, and the key information of the second target sub-route includes identification information; and sending a sub-route network-exit instruction to the main route, wherein the sub-route network-exit instruction comprises key information of a second target sub-route, so that the main route sends sub-route network-exit information to the second target sub-route, and the second target sub-route disconnects with the main route after receiving the sub-route network-exit information.

In some alternative embodiments, the client 71 is further configured to receive a sub-route query request sent by the client, where the sub-route query request includes identification information of the first target sub-route; inquiring whether a first target sub-route exists in the current wireless mesh network according to the identification information of the first target sub-route; if yes, the networking state information of the first target sub-route and the network access prompt or the network exit prompt are sent to the client; if not, sending a network access prompt to the client; the first sub-routing network access request is sent by the client after the network access prompt.

In some alternative embodiments, the main route 73 is further configured to detect a network state in real time, perform wireless mesh network networking through a wired manner when the wireless network signal is normal but the cloud server cannot be connected normally, and report wireless mesh network networking information completed through the wired manner to the cloud server after the cloud server resumes connection, where the wireless mesh network networking information includes identification information and networking state information of a sub-route where an operation of network access or network disconnection occurs.

It can be understood that, in the technical solution provided in this embodiment, the cloud server receives the first sub-route network access request sent by the client, sends a network access instruction to the main route, and the main route verifies the key information of the first target sub-route; the key information verification of the main route on the first target sub-route passes, after the first target sub-route is accessed to the wireless grid network, verification result information is sent to the cloud server, the cloud server receives the verification result information fed back by the main route, the identification information of the main route and the identification information of the first target sub-route are stored, and networking states between the main route and the first target sub-route are displayed and recorded in the networking state display module. According to the scheme, the cost of wps keys is reduced from hardware, networking is realized by the cloud, the network is intelligent, and networking is realized by using a private protocol.

Example 8

Based on the same technical concept, the embodiment of the application further provides a computer device, which comprises a memory 1 and a processor 2, as shown in fig. 8, wherein the memory 1 stores a computer program, and the processor 2 implements any one of the above wireless mesh network networking methods when executing the computer program.

The memory 1 includes at least one type of readable storage medium including flash memory, a hard disk, a multimedia card, a card type memory (e.g., SD or DX memory, etc.), a magnetic memory, a magnetic disk, an optical disk, etc. The memory 1 may in some embodiments be an internal storage unit of a wireless mesh network networking system, such as a hard disk. The memory 1 may in other embodiments also be an external storage device of a wireless mesh network networking system, such as a plug-in hard disk, a Smart Media Card (SMC), a Secure Digital (SD) Card, a Flash Card (Flash Card), etc. Further, the memory 1 may also include both an internal storage unit and an external storage device of the wireless mesh network networking system. The memory 1 may be used not only for storing application software installed in a wireless mesh network networking system and various types of data, such as codes of wireless mesh network networking programs, but also for temporarily storing data that has been output or is to be output.

The processor 2 may in some embodiments be a central processing unit (Central Processing Unit, CPU), controller, microcontroller, microprocessor or other data processing chip for running program code or processing data stored in the memory 1, e.g. executing a wireless mesh network networking program or the like.

It can be understood that, in the technical solution provided in this embodiment, the cloud server receives the first sub-route network access request sent by the client, sends a network access instruction to the main route, and the main route verifies the key information of the first target sub-route; the key information verification of the main route on the first target sub-route passes, after the first target sub-route is accessed to the wireless grid network, verification result information is sent to the cloud server, the cloud server receives the verification result information fed back by the main route, the identification information of the main route and the identification information of the first target sub-route are stored, and networking states between the main route and the first target sub-route are displayed and recorded in the networking state display module. According to the scheme, the cost of wps keys is reduced from hardware, networking is realized by the cloud, the network is intelligent, and networking is realized by using a private protocol.

The foregoing principles and implementation details of the scheme are described in detail below for the convenience of the reader.

The embodiment of the invention is compatible with a cloud implementation mesh access networking mode on the basis of the existing mesh networking access mode. A mesh access mode detection module is arranged on the main route and each sub route (relay). The access mode module detects that the access is a wired mode, the access can enable a common mesh networking mode, and otherwise, the cloud is adopted to achieve the mesh access networking mode. The cloud end realizes the mesh access networking method, and the networking success of the main route and the sub route (relay) is realized by issuing configuration sub route information to the main route from the cloud end.

The sub-route (relay) is kicked out from the existing mesh networking, and the sub-route (relay) can be realized only by issuing corresponding configuration information from the cloud to the main route without manually operating the sub-route (relay). The kicked sub-route (relay) is added into the networking again, and the existing sub-route (relay) information is only required to be issued to the main route again from the cloud.

The networking of the main route and the sub route (relay) is successful by using the cloud, and the method comprises the following specific steps:

and 1, realizing mesh networking through a cloud.

1-1, the sub-route (relay) is placed in the power coverage range of the main route or the sub-route (relay) wifi, and the main route can be normally connected to the cloud.

1-2, detecting mesh networking authentication information issued by the cloud by the main route, and checking the legality of the mesh networking authentication information.

And 1-3, the main route encapsulates the mesh networking authentication information into a data packet to send, so as to realize networking authentication of the sub-route (relay) and the next-level sub-route (relay) of the sub-route (relay).

1-4, detecting a mesh networking mode by a sub-router (relay), receiving networking authentication information of a cloud, adopting the cloud networking authentication mode after the calibration information is correct, and replying relevant networking authentication information.

1-5, the cloud performs key information () registration and storage on the main route and the sub route (relay), and displays the group network state between the main route and the sub route (relay) and between the sub route (relay).

And 2, the main route cannot be normally connected to the cloud end, and the main route uses a wired mesh networking access mode. When the normal connection to the cloud is restored, the main route reports the networking state information to the cloud.

And 4. As shown in fig. 9, the main route receives unique key information about the sub-route (relay) sent by the cloud, sends the information package private protocol authentication data packet to the space, the sub-route receives the data packet in the space for analysis and verification, after the verification is successful, the sub-route (relay) packages own key information into the private protocol authentication data packet and sends the private protocol authentication data packet to the space, and the main route receives the sub-route (relay) to send the packet for analysis and verification, and after the verification is successful, the main route replies Ok. The primary route allows the backhaul of the sub-route (relay) to connect.

The main route performs networking authentication on the next level of sub-route of the sub-route. The main route forwards the information of the sub-route (relay) to the sub-route (relay) of the networking for broadcasting, and the sub-route (relay) executes the networking authentication flow similar to the main route. Meanwhile, the main route also executes the local networking authentication operation flow. There may be cases where a secondary sub-route of a sub-route may connect with both the primary route and the sub-route. The secondary sub-route then compares the received signal strength to select whether to connect the primary device or the primary sub-route.

Step 6, the cloud end can check whether the sub-route (relay) input by the user is correct, if not, the prompt message is returned correctly.

The cloud access networking operation is realized, and in order to ensure the safety and stability of the Backhaul data after the authentication networking and networking are successful, GRE is used for packaging all data in two layers.

The main route and the sub route support the cloud to realize the mesh access networking function, and realize networking description.

Placing the sub-route somewhere that the main route wifi can cover is powered on. The main route is powered on and can be normally connected with a network, a mobile phone app is used for logging in the cloud, unique key information of the sub-route (relay) is correctly filled in a cloud mesh device page, and 'determination' is clicked. And the cloud transmits the information to a main route, and the main route re-authenticates the networking information and transmits the information through a wifi channel. The sub-route (relay) after power-up receives the authentication networking information about the main route, and then performs step 4 to complete networking. And the network is successfully built, the backhaul is created to forward data with the main route, and other devices are connected to the sub-route (relay) to realize the internet surfing function. After networking is successful, all equipment state information in the networking network is reported to the cloud for management through the main route.

When the sub-route (relay) is used, the mobile phone app is used for finding the sub-route (relay) at the cloud to select to exit from the networking, after clicking the 'determination', the main route receives the cloud information and sends the 'exit from the networking' information to the appointed sub-route (relay), and the sub-route (relay) receives the 'exit from the networking' information and breaks the connection with the main route to become the non-networking equipment. After the sub-route (relay) successfully exits the networking, the main route reports the new networking network state to the cloud.

When the kicked sub-route (relay) needs to be added into the networking again, the stored sub-route (relay) item is found out at the cloud by using the mobile phone app, and the networking is selected. And the main route receives the sub-route information issued by the cloud and re-walks the authentication to the network flow.

If the sub-route (relay) is powered on again or leaves the factory, and the cloud end has stored the networking information of the sub-route (relay). And when the sub-route (relay) is started normally, active joining into the networking is realized.

The disclosed embodiments also provide a computer readable storage medium having a computer program stored thereon, which when executed by a processor performs the steps of the wireless mesh network networking method described in the above method embodiments. Wherein the storage medium may be a volatile or nonvolatile computer readable storage medium.

The computer program product of the wireless mesh network networking method provided by the embodiment of the present invention includes a computer readable storage medium storing program code, where the program code includes instructions for executing the steps of the wireless mesh network networking method described in the foregoing method embodiment, and specifically, reference may be made to the foregoing method embodiment, which is not repeated herein.

The disclosed embodiments also provide a computer program which, when executed by a processor, implements any of the methods of the previous embodiments. The computer program product may be realized in particular by means of hardware, software or a combination thereof. In an alternative embodiment, the computer program product is embodied as a computer storage medium, and in another alternative embodiment, the computer program product is embodied as a software product, such as a software development kit (Software Development Kit, SDK), or the like.

It is to be understood that the same or similar parts in the above embodiments may be referred to each other, and that in some embodiments, the same or similar parts in other embodiments may be referred to.

It should be noted that in the description of the present invention, the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. Furthermore, in the description of the present invention, unless otherwise indicated, the meaning of "plurality" means at least two.

Any process or method descriptions in flow charts or otherwise described herein may be understood as representing modules, segments, or portions of code which include one or more executable instructions for implementing specific logical functions or steps of the process, and further implementations are included within the scope of the preferred embodiment of the present invention in which functions may be executed out of order from that shown or discussed, including substantially concurrently or in reverse order, depending on the functionality involved, as would be understood by those reasonably skilled in the art of the present invention.

It is to be understood that portions of the present invention may be implemented in hardware, software, firmware, or a combination thereof. In the above-described embodiments, the various steps or methods may be implemented in software or firmware stored in a memory and executed by a suitable instruction execution system. If implemented in hardware, as in another embodiment, may be implemented using any one or combination of the following techniques, as known in the art: discrete logic circuits having logic gates for implementing logic functions on data signals, application specific integrated circuits having suitable combinational logic gates, programmable Gate Arrays (PGAs), field Programmable Gate Arrays (FPGAs), and the like.

Those of ordinary skill in the art will appreciate that all or a portion of the steps carried out in the method of the above-described embodiments may be implemented by a program to instruct related hardware, where the program may be stored in a computer readable storage medium, and where the program, when executed, includes one or a combination of the steps of the method embodiments.

In addition, each functional unit in the embodiments of the present invention may be integrated in one processing module, or each unit may exist alone physically, or two or more units may be integrated in one module. The integrated modules may be implemented in hardware or in software functional modules. The integrated modules may also be stored in a computer readable storage medium if implemented in the form of software functional modules and sold or used as a stand-alone product.

The above-mentioned storage medium may be a read-only memory, a magnetic disk or an optical disk, or the like.

In the description of the present specification, a description referring to terms "one embodiment," "some embodiments," "examples," "specific examples," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the present invention have been shown and described above, it will be understood that the above embodiments are illustrative and not to be construed as limiting the invention, and that variations, modifications, alternatives and variations may be made to the above embodiments by one of ordinary skill in the art within the scope of the invention.

Claims (10)

1. A wireless mesh network networking method, wherein the wireless mesh network comprises a cloud server, a main route, a sub-route and a client, the method is implemented by the cloud server, and the method comprises:

receiving a first sub-routing network access request sent by a client, wherein the first sub-routing network access request comprises key information of a first target sub-routing waiting to be accessed into a wireless mesh network, and the key information of the first target sub-routing comprises identification information and authentication information;

sending a network access instruction to a main route, wherein the network access instruction comprises key information of the first target sub-route so that the main route verifies the key information of the first target sub-route;

receiving verification result information fed back by a main route, wherein the verification result information comprises identification information of the main route and identification information of a first target sub-route, the verification result information is transmitted after the main route verifies the key information of the first target sub-route, and the first target sub-route is accessed to a wireless grid network;

And storing the identification information of the main route and the identification information of the first target sub-route, and displaying and recording the networking state between the main route and the first target sub-route in a networking state display module.

2. The wireless mesh network networking method of claim 1, further comprising:

receiving a sub-route off-network request sent by a client, wherein the sub-route off-network request comprises key information of a second target sub-route waiting to exit the wireless mesh network, and the key information of the second target sub-route comprises identification information;

and sending a sub-route network-exit instruction to the main route, wherein the sub-route network-exit instruction comprises key information of the second target sub-route so that the main route sends sub-route network-exit information to the second target sub-route, and the second target sub-route disconnects with the main route after receiving the sub-route network-exit information.

3. The wireless mesh network networking method of claim 2, wherein prior to the receiving the first sub-routing network access request sent by the client, the method further comprises:

receiving a sub-route query request sent by a client, wherein the sub-route query request comprises identification information of the first target sub-route;

Inquiring whether the first target sub-route exists in the current wireless mesh network according to the identification information of the first target sub-route;

if yes, the networking state information of the first target sub-route and a network access prompt or a network exit prompt are sent to the client;

if not, sending a network access prompt to the client;

the first sub-routing network access request is sent by the client after the network access prompt.

4. A wireless mesh network networking method, wherein the wireless mesh network comprises a cloud server, a main route, a sub-route and a client, the method is implemented by the main route, and the method comprises:

receiving a network access instruction issued by a cloud server, wherein the network access instruction comprises key information of a first target sub-route;

verifying the key information of the first target sub-route;

if the verification is passed, a network access notification is sent to the first target sub-route, so that the first target sub-route accesses a wireless mesh network according to the network access notification;

after the first target sub-route is accessed to the wireless mesh network, verification result information is sent to a cloud server, wherein the verification result information comprises identification information of a main route and identification information of the first target sub-route, so that the cloud server can store the identification information of the main route and the identification information of the first target sub-route.

5. The wireless mesh network networking method of claim 4, further comprising:

detecting a network state in real time, when a wireless network is disconnected and a cloud server cannot be normally connected, wireless network signals are normal, but when the cloud server cannot be normally connected, wireless grid network networking is performed in a wired mode, after the cloud server is restored to be connected, wireless grid network networking information completed in a wired mode is reported to the cloud server, and the wireless grid network networking information comprises identification information and networking state information of a sub-route of network access or network withdrawal operation.

6. A wireless mesh network networking device, wherein the wireless mesh network comprises a cloud server, a main route, a sub-route, and a client, the device being for the cloud server, the device comprising:

the network access request receiving module is used for receiving a first sub-route network access request sent by a client, wherein the first sub-route network access request comprises key information of a first target sub-route waiting to be accessed into a wireless mesh network, and the key information of the first target sub-route comprises identification information and authentication information;

The network access instruction sending module is used for sending a network access instruction to a main route, wherein the network access instruction comprises key information of the first target sub-route so that the main route can verify the key information of the first target sub-route;

the verification result receiving module is used for receiving verification result information fed back by the main route, wherein the verification result information comprises identification information of the main route and identification information of the first target sub-route, the verification result information is transmitted after the main route passes through the verification of key information of the first target sub-route, and the first target sub-route is accessed to the wireless grid network;

and the networking information storage module is used for storing the identification information of the main route and the identification information of the first target sub-route, and displaying and recording the networking state between the main route and the first target sub-route in the networking state display module.

7. A wireless mesh network networking device, wherein the wireless mesh network comprises a cloud server, a main route, a sub-route, and a client, the device being for the main route, the device comprising:

the network access instruction receiving module is used for receiving a network access instruction issued by the cloud server, wherein the network access instruction comprises key information of a first target sub-route;

A sub-route information verification module, configured to verify the key information of the first target sub-route;

the network access notification module is used for sending a network access notification to the first target sub-route if the verification is passed, so that the first target sub-route accesses a wireless mesh network according to the network access notification;

the verification result sending module is used for sending verification result information to the cloud server after the first target sub-route is accessed to the wireless mesh network, wherein the verification result information comprises identification information of the main route and identification information of the first target sub-route, so that the cloud server can store the identification information of the main route and the identification information of the first target sub-route.

8. A wireless mesh network system, comprising:

the client sends a first sub-routing network access request to the cloud server;

the cloud server receives the first sub-route network access request sent by the client, wherein the first sub-route network access request comprises key information of a first target sub-route waiting to be accessed into the wireless grid network, and the key information of the first target sub-route comprises identification information and authentication information; sending a network access instruction to a main route, wherein the network access instruction comprises key information of the first target sub-route so that the main route verifies the key information of the first target sub-route; receiving verification result information fed back by a main route, wherein the verification result information comprises identification information of the main route and identification information of a first target sub-route, the verification result information is transmitted after the main route verifies the key information of the first target sub-route, and the first target sub-route is accessed to a wireless grid network; storing the identification information of the main route and the identification information of the first target sub-route, and displaying and recording the networking state between the main route and the first target sub-route in a networking state display module;

The method comprises the steps of a main route, receiving a network access instruction issued by a cloud server, wherein the network access instruction comprises key information of a first target sub-route; verifying the key information of the first target sub-route; if the verification is passed, a network access notification is sent to the first target sub-route, so that the first target sub-route accesses a wireless mesh network according to the network access notification; after the first target sub-route is accessed to the wireless mesh network, verification result information is sent to a cloud server, wherein the verification result information comprises identification information of a main route and identification information of the first target sub-route, so that the cloud server can store the identification information of the main route and the identification information of the first target sub-route.

9. A computer device, comprising: a processor, a memory and a bus, the memory storing machine-readable instructions executable by the processor, the processor and the memory in communication via the bus when the computer device is running, the machine-readable instructions when executed by the processor performing the wireless mesh network networking method of any one of claims 1 to 5.

10. A computer readable storage medium, characterized in that the computer readable storage medium has stored thereon a computer program which, when executed by a processor, performs the wireless mesh network networking method according to any of claims 1 to 5.

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