CN111757355B

CN111757355B - Equipment networking system and networking method thereof

Info

Publication number: CN111757355B
Application number: CN202010582806.1A
Authority: CN
Inventors: 袁龙刚; 米涛; 王思
Original assignee: Sichuan Hongmei Intelligent Technology Co Ltd
Current assignee: Sichuan Hongmei Intelligent Technology Co Ltd
Priority date: 2020-06-23
Filing date: 2020-06-23
Publication date: 2022-08-02
Anticipated expiration: 2040-06-23
Also published as: CN111757355A

Abstract

The invention provides a device networking system and a networking method thereof, wherein the device networking system comprises the following steps: the boundary node starts a new node access window when receiving the equipment networking instruction, and sends the equipment networking instruction to the gateway node; the gateway node starts a new node access window when receiving a device networking instruction; the newly added node receives a network distribution instruction of the newly added node, determines a node to be connected according to a new node access window, and sends a network access request to the node to be connected; the boundary node sends a network access request to the intelligent terminal when serving as a node to be connected, and sends the distribution network information of the current network to the newly added node when receiving feedback information which indicates that the newly added node is allowed to access the network and is sent by the intelligent terminal; when the gateway node is used as a node to be connected, the gateway node sends a network access request to the intelligent terminal, and when the gateway node receives feedback information, the gateway node sends the distribution network information of the current network to a newly-added node; the newly added node is connected with the current network according to the distribution network information, and the scheme can simplify the distribution network flow of the wireless equipment.

Description

Equipment networking system and networking method thereof

Technical Field

The invention relates to the technical field of wireless communication, in particular to a device networking system and a networking method thereof.

Background

In the application of wireless networks, smart homes are rapidly developed and gradually enter thousands of households, and the types of wireless devices are continuously increased, wherein the connection between the wireless devices and the networks is a necessary condition and is the basis for realizing various intelligent requirements.

The existing wireless device connection router has two main ways:

the first mode is as follows: the mobile phone transmits the name and the password of the router after connecting with the hotspot (or Bluetooth) of the wireless device, so that the wireless device is connected with the router.

The second way is: the mobile phone encodes the data and then sends a specific WiFi frame, and after the wireless equipment to be distributed with the network is captured, the name and the password of the router are obtained through a specific decoding algorithm, so that the WiFi equipment is connected with the router.

Application No. 201910308799.3 discloses a method and device for WiFi automatic network distribution, which mainly improves efficiency of WiFi network distribution by reducing the amount of distribution network data and complexity of distribution network algorithm, but still requires users to distribute networks one by one in operability.

As can be seen from the above description, in the prior art, when a network is distributed to a plurality of wireless devices, multiple operations are required, so that the network distribution process of the wireless devices is complicated.

Disclosure of Invention

The embodiment of the invention provides an equipment networking system and a networking method thereof, which can simplify the network distribution process of wireless equipment.

The invention provides a device networking system, comprising: the system comprises an intelligent terminal, a boundary node, at least one gateway node and at least one newly-added node;

the intelligent terminal, the boundary node and the at least one gateway node are positioned in the same network;

the boundary node is used for starting a new node access window when receiving a device networking command and sending the device networking command to the at least one gateway node;

the gateway node is used for starting the new node access window when receiving the equipment networking instruction from the boundary node;

the newly joining node is used for determining a node to be connected from the boundary node and the at least one gateway node according to the new node access window when a new joining node distribution network instruction is received, establishing connection with the node to be connected and sending a network access request to the node to be connected;

the boundary node is further configured to send the network access request to the intelligent terminal when the boundary node serves as the node to be connected and receives the network access request, and send the network distribution information of the connected current network to the new node when receiving feedback information indicating that the new node is allowed to access the network, the feedback information being sent by the intelligent terminal;

the gateway node is further configured to send the network access request to the intelligent terminal when the gateway node serves as the node to be connected and receives the network access request, and send the network distribution information of the connected current network to the newly-added node when the gateway node receives the feedback information sent by the intelligent terminal;

the newly added node is also used for connecting the current network according to the distribution network information when the distribution network information is received, determining whether the newly added node has a data forwarding function, if so, the newly added node is used as a gateway node, otherwise, the newly added node is used as a low-power-consumption node;

and the intelligent terminal is used for receiving and displaying the network access request, and sending the feedback information to the equipment sending the network access request when receiving the feedback information.

Preferably, the first and second electrodes are formed of a metal,

the newly added node is further used for controlling an indicator lamp arranged on a body of the newly added node to be switched from a first display state to a second display state after receiving a network distribution instruction of the newly added node, wherein the first display state indicates that the first intelligent terminal is in a non-network-connected state; and after the current network is connected, controlling the indicator light to be switched from the second display state to a third display state, wherein the third display state indicates that the newly added node is in a network access state.

Preferably, the first and second electrodes are formed of a metal,

the newly-added node is used for starting a first Soft AP of the newly-added node after receiving a distribution network instruction of the newly-added node, determining the signal strength of a wireless signal corresponding to each network node when at least one network node is scanned with the wireless signal released according to a new node access window, determining a node to be connected with the strongest signal strength from the at least one network node, and sending a network access request to the node to be connected through the first Soft AP, wherein the network node comprises at least one of the boundary node and the at least one gateway node.

Preferably, the first and second electrodes are formed of a metal,

and the newly joining node is further configured to determine a replacement node from the at least one network node when the communication of the node to be connected is abnormal, and use the replacement node as the node to be connected, where the replacement node is a node with the strongest wireless signal strength in the at least one current network node.

Preferably, the first and second electrodes are formed of a metal,

the boundary node is further configured to start timing after a new node access window is started, determine whether a first timing duration is equal to a preset first timeout threshold, and close the new node access window when the first timing duration is equal to the first timeout threshold;

the gateway node is further configured to start timing after the new node access window is started, determine whether a second timing duration is equal to a preset second timeout threshold, and close the new node access window when the second timing duration is equal to the second timeout threshold;

and the newly added node is also used for starting timing after receiving a distribution network instruction of the newly added node, determining whether a third timing length is equal to a preset third timeout threshold value, and disconnecting the newly added node from the node to be connected when the third timing length is equal to the third timeout threshold value.

Preferably, the first and second electrodes are formed of a metal,

the intelligent terminal is further used for sending the distribution network information of the current network connected with the intelligent terminal to the boundary node through a second Soft AP of the boundary node when a boundary node networking instruction is received;

the boundary node is used for starting a second Soft AP of the boundary node when a boundary node distribution network instruction is received, storing the distribution network information when the distribution network information is received through the second Soft AP, and connecting the current network according to the distribution network information.

Preferably, the first and second electrodes are formed of a metal,

and the gateway node is also used for taking the network management node as a new joining node when receiving a network distribution instruction of the gateway node, and taking the gateway node as a gateway device in the current network when the gateway node has a data forwarding function after being connected with the current network according to the network distribution information.

Preferably, the first and second electrodes are formed of a metal,

and the gateway node is also used for taking the gateway node as the boundary node when the boundary node has abnormal communication and the wireless signal of the gateway node is the node with the strongest signal in the network signals of each gateway node.

In a second aspect, the present invention further provides a networking method based on the device networking system in any one of the first aspects, including:

starting a new node access window when receiving an equipment networking instruction through a boundary node, and sending the equipment networking instruction to the at least one gateway node;

starting the new node access window when the gateway node receives the equipment networking instruction from the boundary node;

when a new joining node receives a new joining node distribution network instruction, determining a node to be connected from the boundary node and the at least one gateway node according to the new node access window, establishing connection with the node to be connected, and sending a network access request to the node to be connected;

when the boundary node serves as the node to be connected and receives the network access request, the network access request is sent to the intelligent terminal; when serving as the node to be connected and receiving the network access request, the gateway node sends the network access request to the intelligent terminal;

receiving and displaying the network access request through an intelligent terminal, and sending the feedback information to equipment sending the network access request when receiving the feedback information;

sending the distribution network information of the current network to the newly joining node when the boundary node receives the feedback information which is sent by the intelligent terminal and indicates that the newly joining node is allowed to enter the network; when receiving the feedback information sent by the intelligent terminal, the gateway node sends the connected distribution network information of the current network to the newly joining node;

and when the newly added node receives the distribution network information, the newly added node is connected with the current network according to the distribution network information to determine whether the newly added node has a data forwarding function, if so, the newly added node is used as a gateway node, and if not, the newly added node is used as a low-power-consumption node.

Preferably, the first and second electrodes are formed of a metal,

after the network distribution instruction of the new joining node is received by the new joining node, the method further comprises the following steps:

the method comprises the steps that an indicator lamp arranged on a body of a newly added node is controlled to be switched from a first display state to a second display state through the newly added node, wherein the first display state indicates that the first intelligent terminal is in a non-network-connected state;

after the connection to the current network according to the distribution network information, further comprising:

and controlling the indicator lamp to be switched from the second display state to a third display state through the newly added node, wherein the third display state indicates that the newly added node is in the network access state.

Preferably, the first and second electrodes are formed of a metal,

when a new joining node receives a new joining node distribution network instruction, before determining a node to be connected from the boundary node and the at least one gateway node according to the new node access window, the method further includes:

starting a first Soft AP of the node through the newly added node;

determining a node to be connected from the boundary node and the at least one gateway node according to the new node access window, including:

when wireless signals released by at least one network node according to a new node access window are scanned, determining the signal intensity of the wireless signals corresponding to each network node;

determining a node to be connected with the strongest signal strength from the at least one network node;

and sending a network access request to the node to be connected through the first Soft AP, wherein the network node comprises at least one of the boundary node and the at least one gateway node.

Preferably, the first and second electrodes are formed of a metal,

the networking method further comprises the following steps:

and when the communication of the node to be connected is abnormal, determining a replacement node from the at least one network node through the newly added node, and taking the replacement node as the node to be connected, wherein the replacement node is the node with the strongest wireless signal strength in the at least one current network node.

Preferably, the first and second electrodes are formed of a metal,

after the new node access window is started when the device networking instruction is received by the border node, the method further includes:

determining whether a first timing duration is equal to a preset first overtime threshold or not by starting timing through the boundary node, and closing the new node access window when the first timing duration is equal to the first overtime threshold;

after the starting the new node access window by the gateway node upon receiving the device networking instruction from the border node, further comprising:

the gateway node starts timing, whether a second timing duration is equal to a preset second overtime threshold or not is determined, and when the second timing duration is equal to the second overtime threshold, the new node access window is closed;

after the new joining node receives the new joining node distribution network instruction, the method further comprises the following steps:

and determining whether a third time-out length is equal to a preset third time-out threshold value or not through the newly added node, and disconnecting the node to be connected when the third time-out length is equal to the third time-out threshold value.

Preferably, the first and second electrodes are formed of a metal,

the networking method further comprises the following steps:

starting a second softAP of the boundary node when the boundary node receives a distribution instruction of the boundary node;

when receiving a boundary node networking instruction, the intelligent terminal sends the distribution network information of the current network connected with the intelligent terminal to the boundary node through the second Soft AP of the boundary node;

and storing the distribution network information when the boundary node receives the distribution network information, and connecting the current network according to the distribution network information.

Preferably, the first and second electrodes are formed of a metal,

the networking method further comprises the following steps:

after the receiving, by the gateway node, the device networking instruction from the border node, further comprising:

taking the network management node as a new adding node;

and after the current network is connected according to the distribution network information, when the gateway node has a data forwarding function, the gateway node is used as gateway equipment in the current network.

Preferably, the first and second electrodes are formed of a metal,

the networking method further comprises the following steps:

and when the communication of the boundary nodes is abnormal and the wireless signals of the boundary nodes are the nodes with the strongest signals in the network signals of the gateway nodes, the gateway nodes serve as the boundary nodes.

The invention provides a device networking system and a networking method thereof.A smart terminal, a boundary node and a gateway node are positioned in the same network, so that when a new joining node needing to be connected is available, the boundary node can issue a networking instruction to the gateway node so as to enable the boundary node and the gateway node to start a new node access window to enter a mode capable of being discovered by the new joining node, the new joining node determines a node to be connected according to the new node access windows of the gateway node and the boundary node, and then establishes connection; if the network to be connected is a boundary node, the boundary node requests the intelligent terminal whether to allow a newly added node to access the network, and if the intelligent terminal sends feedback information allowing the network access, the boundary node can send the distribution network information of the current network to the newly added node; similarly, if the gateway node is a node to be connected, because the gateway node is located in the same network as the intelligent terminal, the gateway node can request the intelligent terminal whether to allow the newly added node to access the network, if the intelligent terminal sends feedback information allowing the network access, the gateway node can send the distribution network information to the newly added node, so that the newly added node can access the network by using the distribution network information, the boundary node, the gateway node and the newly added node form a wireless Mesh network, a user does not need to operate the newly added node for distribution for multiple times, and the distribution network flow of the wireless device can be simplified.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a device networking system according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a device networking system according to another embodiment of the present invention;

fig. 3 is a flowchart of a networking method according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer and more complete, the technical solutions in the embodiments of the present invention will be described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention, and based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the scope of the present invention.

As shown in fig. 1, an embodiment of the present invention provides an apparatus networking system, including: the intelligent terminal comprises an intelligent terminal 101, a boundary node 102, at least one gateway node 103 and at least one newly-added node 104;

the intelligent terminal 101, the border node 102 and the at least one gateway node 103 are located in the same network;

the border node 102 is configured to start a new node access window when receiving an equipment networking instruction, and send the equipment networking instruction to the at least one gateway node;

the gateway node 103 is configured to start the new node access window when receiving the device networking instruction from the border node;

the new joining node 104 is configured to, when receiving a new joining node distribution network instruction, determine a node to be connected from the border node 102 and the at least one gateway node 103 according to the new node access window, establish connection with the node to be connected, and send a network access request to the node to be connected;

the border node 102 is further configured to send the network access request to the intelligent terminal when the border node serves as the node to be connected and receives the network access request, and send the network distribution information of the connected current network to the new joining node 104 when receiving feedback information indicating that the new joining node is allowed to access the network, the feedback information being sent by the intelligent terminal;

the gateway node 103 is further configured to send the network access request to the intelligent terminal when the gateway node serves as the node to be connected and receives the network access request, and send the network distribution information of the connected current network to the newly joining node 104 when the gateway node receives the feedback information sent by the intelligent terminal;

the newly-added node 104 is further configured to connect to the current network according to the distribution network information when receiving the distribution network information, determine whether the newly-added node has a data forwarding function, if so, serve as a gateway node, otherwise, serve as a low-power-consumption node;

and the intelligent terminal 101 is configured to receive and display the network access request, and send the feedback information to the device that sent the network access request when receiving the feedback information.

In the embodiment of the invention, the intelligent terminal, the boundary node and the gateway node are positioned in the same network, so that when a new joining node needing to be accessed to the network exists, the boundary node can issue a networking instruction to the gateway node so that the boundary node and the gateway node both start a new node access window to enter a mode which can be found by the new joining node, the new joining node determines a node to be connected to establish connection according to the gateway node and the new node access window of the boundary node, and then establishes connection; if the network to be connected is a boundary node, the boundary node requests the intelligent terminal whether to allow a newly added node to access the network, and if the intelligent terminal sends feedback information allowing the network access, the boundary node can send the distribution network information of the current network to the newly added node; similarly, if the gateway node is a node to be connected, because the gateway node is located in the same network as the intelligent terminal, the gateway node can request the intelligent terminal whether to allow the newly added node to access the network, if the intelligent terminal sends feedback information allowing the network access, the gateway node can send the distribution network information to the newly added node, so that the newly added node can access the network by using the distribution network information, the boundary node, the gateway node and the newly added node form a wireless Mesh network, a user does not need to operate the newly added node for distribution for multiple times, and the distribution network flow of the wireless device can be simplified.

In order to ensure that the intelligent terminal, the boundary node, the gateway node and the newly added node can communicate with each other pairwise, all devices need to follow the same specified protocol.

In order to facilitate a user to clarify a state of a device, in an embodiment of the present invention, the newly added node is further configured to control an indicator lamp arranged on a body of the newly added node to switch from a first display state to a second display state after receiving a network distribution instruction of the newly added node, where the first display state indicates that the first intelligent terminal is in a non-network-connected state; and after the current network is connected, controlling the indicator light to be switched from the second display state to a third display state, wherein the third display state indicates that the newly added node is in a network access state.

In the embodiment of the present invention, when the newly added node is in the non-network access state, the indicator lamp disposed on the body of the newly added node is in the first display state, for example, the indicator lamp is in "slow flashing". If the newly added node is in the network to be accessed state, after receiving the network distribution instruction of the newly added node, the indicator light is in a second display state, for example, a flash state. If the newly added node has accessed the network, the indicator light is in a third display state, for example, "normally on", and the indicator light is in a different state, so that the user can conveniently confirm whether the newly added node has accessed the network successfully.

In an embodiment of the present invention, the newly added node is configured to start a first Soft AP of the newly added node after receiving a network distribution instruction of the newly added node, determine, when a wireless signal released by at least one network node according to a new node access window is scanned, a signal strength of the wireless signal corresponding to each network node, determine a node to be connected with the strongest signal strength from the at least one network node, and send a network access request to the node to be connected through the first Soft AP, where the network node includes at least one of the border node and the at least one gateway node.

In the embodiment of the invention, when a network is distributed for a newly added node, a user can generate a new node distribution network command by triggering a distribution network key on a body of the newly added node, so that the newly added node starts up a first Soft AP and enters a distribution network mode, the newly added node can scan a wireless signal within a range through the first Soft AP, and then a node to be connected with the strongest wireless signal strength is determined to improve the data transmission speed among devices, and then the node to be connected is connected with the node to be connected through the first Soft AP, so that the node to be connected reports a network access request of the newly added node to an intelligent terminal.

In an embodiment of the present invention, the newly joining node is further configured to determine a replacement node from the at least one network node when the communication of the node to be connected is abnormal, and use the replacement node as the node to be connected, where the replacement node is a node with the strongest wireless signal strength in the at least one current network node.

In the embodiment of the present invention, after the newly added node establishes a connection with the node to be connected, if the communication of the node to be connected is abnormal, for example, after the newly added node sends a network access request to the node to be connected, the node to be connected does not perform any feedback within a preset feedback time period of 20s, at this time, it may be determined that the communication of the node to be connected is abnormal, and the newly added node may re-search, from the network nodes, for the replacement node with the strongest wireless signal strength as the node to be connected, so as to ensure that the newly added node can access the network.

In an embodiment of the present invention, the border node is further configured to start timing after starting a new node access window, determine whether a first timing duration is equal to a preset timeout threshold, and close the new node access window when the first timing duration is equal to the timeout threshold;

the gateway node is further configured to start timing after the new node access window is started, determine whether a second timing duration is equal to a preset timeout threshold, and close the new node access window when the second timing duration is equal to the timeout threshold;

and the newly added node is also used for starting timing after receiving a distribution network instruction of the newly added node, determining whether a third timing length is equal to a preset overtime threshold value, and disconnecting the newly added node from the node to be connected when the third timing length is equal to the overtime threshold value.

In the embodiment of the present invention, the border node, the gateway node, and the newly added node are all provided with corresponding timeout thresholds, for example, the first timeout threshold of the border node is 2min, the second timeout threshold of the gateway node is 2.5min, and the timeout threshold of the newly added node is 1 min. The values of the first timeout threshold, the second timeout threshold and the third timeout threshold may be the same or different. Therefore, the device can be prevented from being in a network access state for a long time and being searched by other users to cause the error connection of the device.

In an embodiment of the present invention, the intelligent terminal is further configured to, when receiving a border node networking instruction, send the distribution network information of the current network connected to the intelligent terminal to the border node through a second Soft AP of the border node;

In the embodiment of the invention, when the boundary node is the first node in the Mesh network, the network access of the boundary node can send the distribution network information of the current network to the boundary node through the intelligent terminal, so that the Mesh network is created through the boundary node, and the distribution network flow of the wireless equipment is simplified.

In an embodiment of the present invention, the gateway node is further configured to, when receiving a network distribution instruction of the gateway node, use the network management node as a new joining node, and after connecting to the current network according to the network distribution information, use the gateway node as a gateway device in the current network when the gateway node has a data forwarding function.

In the embodiment of the invention, when a gateway node with a data forwarding function needs to be added to a Mesh network constructed by boundary nodes, the gateway node can be used as a new adding node to perform network distribution operation. That is, the gateway node may search for a wireless signal after receiving the gateway node distribution network instruction, and determine an interconnection node with a strongest signal from the searched network-accessed nodes, where the interconnection node may be a border node or another network-accessed gateway node. And the gateway node performs data interaction with the interconnection node through the third Soft AP of the gateway node, and then enters the Mesh network constructed by the boundary node by using the distribution network information after receiving the distribution network information.

In order to ensure that a network can be distributed for a newly added node, in an embodiment of the present invention, the gateway node is further configured to use itself as a boundary node when the boundary node has abnormal communication and its wireless signal is a node with a strongest signal in network signals of each gateway node.

In the embodiment of the invention, when the communication of the boundary node is abnormal, each gateway node can judge the intensity of the wireless signal of the gateway node, and then the gateway node with the relatively strongest intensity of the wireless signal is used as the boundary node, so that when a newly added node needs to access the network, the gateway node and other gateway equipment can be triggered to open a new node interface window.

It is to be understood that the illustrated structure of the embodiment of the present invention does not form a specific limitation to the device networking system. In other embodiments of the invention, a device networking system may include more or fewer components than shown, or some components may be combined, some components may be split, or a different arrangement of components. The illustrated components may be implemented in hardware, software, or a combination of software and hardware.

As shown in fig. 2, in order to more clearly illustrate the technical solution and advantages of the present invention, the following describes in detail the device networking system provided in the embodiment of the present invention by taking an intelligent terminal as a mobile phone, specifically including:

the system comprises a mobile phone 1, a boundary node 2, at least one gateway node 3 and at least one newly-added node 4;

the mobile phone 1 is used for sending the distribution network information of the current network connected with the mobile phone to the boundary node 2 through the second Soft AP of the boundary node when receiving the boundary node networking instruction;

specifically, when the Mesh network is established, a boundary node used for issuing a command in the Mesh network may be determined, so that the distribution network information of the current network to be connected needs to be sent to the boundary node through a mobile phone, so that the boundary node is added to the current network through the distribution network information to establish the Mesh network.

And the boundary node 2 is used for starting a second Soft AP of the boundary node when receiving a distribution network instruction of the boundary node, storing distribution network information when receiving the distribution network information through the second Soft AP, and connecting the current network according to the distribution network information.

Specifically, when the network is distributed for the boundary node, the user may trigger a distribution network key on the body of the boundary node to generate a boundary node distribution network instruction, so that the boundary node enters the to-be-distributed network state, for example, the user is prompted in a manner of "fast flashing" an indicator lamp on the body of the boundary node that the boundary node has entered the to-be-distributed network state. At the moment, the boundary node can start the second Soft AP function of the boundary node, search the mobile phone through the function and establish connection with the mobile phone so as to acquire the distribution network information of the current network, and store the distribution network information so as to issue the distribution network information to a new node when the new node accesses the network.

And the gateway node 3 is used for performing network access operation by taking the gateway node as a new node when receiving a network distribution instruction of the gateway node, and taking the gateway node as a gateway device in the current network when the gateway node has a data forwarding function.

Specifically, a gateway node needing to access the network can start a Soft AP of the gateway node, scan at least one accessed node according to a wireless signal released by a new node access window, determine an interconnection node with the strongest wireless signal from the scanned wireless signals, wherein the interconnection node can be a boundary node or other gateway nodes already accessed to the network, and then send a network access request to the boundary node through the Soft AP to access the network, and determine whether the gateway node has a data forwarding function after the network is accessed to the network, and if so, the gateway node can be used as the gateway node so as to provide network distribution information for the newly-added node.

It should be noted that the instructions generated by the distribution network key of the trigger device in different durations are also different. For example, triggering the distribution network key 5s may generate a networking instruction, and triggering the distribution network key 2s may generate a distribution network instruction of the corresponding device.

And the boundary node 2 is used for starting a new node access window when receiving the equipment networking instruction and sending the equipment networking instruction to each gateway node in the Mesh network.

And the gateway node 3 is used for starting a new node access window when receiving the equipment networking instruction from the boundary node.

Specifically, when the border node establishes the Mesh network and a gateway node exists in the Mesh network, the border node receives the equipment networking instruction again, then a new node access window of the border node can be started, and meanwhile, the equipment networking instruction is issued, so that the gateway node in the Mesh network can also enter the new node access window, and a newly added node needing to be accessed to the network can scan signals conveniently.

It should be noted that, because the border node and the gateway node are already in the network at this time, the indicator light on the border node and the indicator light on the gateway node that have already been in the network both enter the state indicating that the device has already been in the network, so that the user can specify the current networking situation of the device.

The newly-added node 4 is used for controlling an indicator lamp arranged on a body of the newly-added node to be switched from a first display state to a second display state when a network distribution instruction of the newly-added node is received, wherein the first display state indicates that the first mobile phone is in a non-network-accessing state; starting a first Soft AP of the network node, when the wireless signals released by at least one network node according to a new node access window are scanned, determining the signal intensity of the wireless signals corresponding to each network node, determining the node to be connected with the strongest signal intensity from at least one network node, and sending a network access request to the node to be connected through the first Soft AP, wherein the network node comprises at least one of a boundary node 2 and at least one gateway node 3.

Specifically, in order to facilitate the user to specify the current networking state of the device, the indicator light on the newly added node may enter a first display state, for example, "5 s flashes once" when the newly added node is not networked, and the indicator light may enter a second display state, for example, "0.5 s flashes once" when the newly added node is in the standby networking state. And after entering a to-be-configured network state, the newly added node starts a first Soft AP of the newly added node, performs scanning search through the first Soft AP, determines a node to be connected with the strongest released wireless signal strength after searching a wireless signal, establishes connection with the node to be connected through the first Soft AP and requests network access.

The boundary node 2 is used for sending the network access request to the mobile phone when the boundary node serves as a node to be connected and receives the network access request, so that the mobile phone displays the network access request and returns feedback information when receiving the feedback information; and when receiving feedback information which indicates that the newly-added node is allowed to access the network and is sent by the mobile phone, sending the network distribution information of the connected current network to the newly-added node 4.

Specifically, after the newly added node is connected with the boundary node through the first Soft AP, the boundary node may report a network access request of the newly added node to the mobile phone, and the user may see basic information of the newly added node to be networked through the report request received by the mobile phone, for example, at least one of an equipment name, a manufacturer name, and an SN code of the newly added node. And the user confirms whether the newly added node is allowed to access the network or not based on the requirement, and if so, the feedback information is returned to the boundary node through the mobile phone, so that the boundary node sends the distribution network information to the newly added node. If the user does not allow the newly added node to access the network, returning refusal information indicating refusal of the newly added node to the boundary node can be returned through the mobile phone. And the boundary node sends the return information to the newly added node so that the boundary node closes the access window of the new node and simultaneously the newly added node closes the first Soft AP function of the newly added node.

The cell phone may be a smart phone, a tablet, a laptop, a desktop computer, etc., but is not limited thereto.

The gateway node 3 is used for sending the network access request to the mobile phone 1 when the gateway node serves as a node to be connected and receives the network access request, so that the mobile phone 1 displays the network access request and returns feedback information when receiving the feedback information; and when receiving the feedback information sent by the mobile phone 1, sending the distribution network information of the connected current network to the new joining node 4.

Specifically, after the newly added node is connected to the gateway node through the first Soft AP, the gateway node may report a network access request of the newly added node to the mobile phone, and the user may see basic information of the newly added node to be networked, for example, at least one of an equipment name, a manufacturer name, and an SN code of the newly added node, through the report request received by the mobile phone. And the user confirms whether the newly added node is allowed to access the network or not based on the requirement, and if so, the feedback information is returned to the gateway node through the mobile phone, so that the gateway node sends the distribution network information to the newly added node. If the user does not allow the newly added node to access the network, returning refusal information indicating refusal of the newly added node to the gateway node can be returned to the gateway node through the mobile phone. And the gateway node sends the return information to the newly added node so that the gateway node closes the access window of the new node and simultaneously the newly added node closes the first Soft AP function of the newly added node.

The newly added node 4 is used for connecting the current network according to the distribution network information when the distribution network information is received, determining whether the newly added node has a data forwarding function, and if so, taking the newly added node as a gateway node, otherwise, taking the newly added node as a low-power-consumption node; and controlling the indicator light to switch from the second display state to a third display state, wherein the third display state indicates that the newly added node is in the network access state.

Specifically, after the joining node enters the network through the distribution network information, whether the joining node has a data forwarding function or not can be judged, if yes, the joining node can be used as a gateway node, and when a new node needs to enter the network, the joining node can provide the distribution network information for the new node. Meanwhile, since the newly added node is already accessed to the network at this time, the indicator light on the body of the newly added node can be switched from the second display state to the third display state, for example, from 0.5s to a normally-on state, so that the user can clearly determine that the newly added node is successfully accessed to the network.

And the boundary node 2 is used for starting timing after the new node access window is started, determining whether the first timing duration is equal to a preset first overtime threshold, and closing the new node access window when the first timing duration is equal to the first overtime threshold.

And the gateway node 3 is used for starting timing after the new node access window is started, determining whether the second timing duration is equal to a preset second timeout threshold, and closing the new node access window when the second timing duration is equal to the second timeout threshold.

Specifically, in order to prevent the border node and the gateway node from being in a networking state for a long time and being connected by the devices of other users by mistake, the border node and the gateway node are both provided with a networking timeout mechanism, that is, when a new node access window is started to start timing, and when the timing duration reaches a corresponding timeout threshold, the new node access window is closed, and at this time, the border node and the gateway node are both in a state that they cannot be searched. The durations of the first timeout threshold and the second timeout threshold respectively corresponding to the border node and the gateway node may be the same or different.

And the newly added node 4 is used for starting timing after receiving the distribution network command of the newly added node, determining whether the third timing length is equal to a preset third timeout threshold, closing the first Soft AP function and disconnecting the connection with the node to be connected when the third timing length is equal to the third timeout threshold.

Similarly, the newly added node also has a corresponding distribution network timeout mechanism, and when the time length for starting the first Soft AP function by the newly added node reaches a third timeout threshold, the newly added node closes the first Soft AP function and disconnects the connection with the outside.

The gateway node 3 is further configured to use itself as a border node when the border node has abnormal communication and its wireless signal is the strongest node in the network signals of each gateway node.

Specifically, in the Mesh network, a boundary node may have a communication abnormal condition due to the device itself, and at this time, in order to ensure that a newly added node can successfully access the network, if at least one gateway node exists in the Mesh network, each gateway node may determine the strength of its own wireless signal and respectively send the strength to other gateway nodes, each gateway node may determine whether its own wireless signal can be upgraded to the boundary node by comparing the wireless signal strengths, and if the gateway node determines that the strength of its own wireless signal is strongest by comparing, the gateway node is automatically upgraded to the boundary node and reported to the mobile phone, so that the mobile phone takes the reported gateway node as the boundary node.

It can be understood that, the newly added node is configured to determine, when the to-be-connected node is abnormal in communication, a replacement node from the at least one network node, and use the replacement node as the to-be-connected node, where the replacement node is a node with the strongest wireless signal strength in the current at least one network node.

Specifically, after the newly added node establishes connection with the node to be connected, if the node to be connected is abnormal in communication at this time, the newly added node may re-confirm the replacement node with the strongest wireless signal from the searched network nodes, and re-send the network access request using the replacement node as the node to be connected, so as to ensure that the network access process of the newly added node can be continued.

In order to facilitate a user to know that a newly added node, a boundary node and a gateway node are successfully accessed to the network, the boundary node sends first prompt information indicating that the boundary node is accessed to the network to the intelligent terminal after the boundary node is accessed to the network, the gateway node sends second prompt information indicating that a network-hung node is accessed to the intelligent terminal, and the newly added node sends third prompt information indicating that the newly added node is accessed to the network to the intelligent terminal.

In fig. 2, 3 gateway nodes and 5 new joining nodes (i.e. low power consumption devices without data forwarding function) are shown, the new joining nodes select the nodes to be connected to be networked based on the principle that the searched wireless signal is strongest, and similarly, the gateway nodes are also based on the searched nodes with the strongest wireless signal in the process of network distribution.

It can be understood that the mobile phone may manage the devices that have joined the Mesh network, for example, delete the devices that have joined the Mesh network, edit the names of the devices, control the states of the online devices, and so on.

As shown in fig. 3, an embodiment of the present invention provides a networking method of a device networking system according to any one of the foregoing embodiments, including:

step 301: starting a new node access window when receiving an equipment networking instruction through a boundary node, and sending the equipment networking instruction to the at least one gateway node;

step 302: starting the new node access window when the gateway node receives the equipment networking instruction from the boundary node;

step 303: when a new joining node receives a new joining node distribution network instruction, determining a node to be connected from the boundary node and the at least one gateway node according to the new node access window, establishing connection with the node to be connected, and sending a network access request to the node to be connected;

step 304: when the boundary node serves as the node to be connected and receives the network access request, the network access request is sent to the intelligent terminal; when serving as the node to be connected and receiving the network access request, the gateway node sends the network access request to the intelligent terminal;

step 305: receiving and displaying the network access request through an intelligent terminal, and sending the feedback information to equipment sending the network access request when receiving the feedback information;

step 306: sending the distribution network information of the current network to the newly joining node when the boundary node receives the feedback information which is sent by the intelligent terminal and indicates that the newly joining node is allowed to enter the network; when receiving the feedback information sent by the intelligent terminal, the gateway node sends the connected distribution network information of the current network to the newly joining node;

step 307: when the new joining node receives the distribution network information, the current network is connected according to the distribution network information, whether the new joining node has a data forwarding function is determined, if yes, step 308 is executed, and if not, step 309 is executed;

step 308: as a gateway node;

step 309: as a low power consumption node.

In an embodiment of the present invention, after receiving, by the newly joining node, the network distribution instruction of the newly joining node, the method further includes:

In an embodiment of the present invention, when a new node receives a new node distribution network instruction, before determining a node to be connected from the boundary node and the at least one gateway node according to the new node access window, the method further includes:

starting a first Soft AP of the node through the newly added node;

the determining a node to be connected from the border node and the at least one gateway node according to the new node access window includes:

In an embodiment of the present invention, the networking method further includes:

In an embodiment of the present invention, after the starting of the new node access window when the device networking instruction is received by the border node, the method further includes:

taking the network management node as a new adding node;

The information interaction, execution process and other contents between the units in the method are based on the same concept as the system embodiment of the present invention, and specific contents can be referred to the description in the system embodiment of the present invention, and are not described herein again.

An embodiment of the present invention further provides a storage medium, including: at least one memory and at least one processor;

the at least one memory to store a machine readable program;

the at least one processor is configured to invoke the machine-readable program to perform the networking method in any embodiment of the invention.

Embodiments of the present invention further provide a computer-readable medium, where computer instructions are stored, and when executed by a processor, cause the processor to execute the networking method in any embodiment of the present invention.

Specifically, a system or an apparatus equipped with a storage medium on which software program codes that realize the functions of any of the above-described embodiments are stored may be provided, and a computer (or a CPU or MPU) of the system or the apparatus is caused to read out and execute the program codes stored in the storage medium.

In this case, the program code itself read from the storage medium can realize the functions of any of the above-described embodiments, and thus the program code and the storage medium storing the program code constitute a part of the present invention.

Examples of the storage medium for supplying the program code include a floppy disk, a hard disk, a magneto-optical disk, an optical disk (e.g., CD-ROM, CD-R, CD-RW, DVD-ROM, DVD-RAM, DVD-RW, DVD + RW), a magnetic tape, a nonvolatile memory card, and a ROM. Alternatively, the program code may be downloaded from a server computer via a communications network.

Further, it should be clear that the functions of any one of the above-described embodiments may be implemented not only by executing the program code read out by the computer, but also by causing an operating system or the like operating on the computer to perform a part or all of the actual operations based on instructions of the program code.

Further, it is to be understood that the program code read out from the storage medium is written to a memory provided in an expansion board inserted into the computer or to a memory provided in an expansion unit connected to the computer, and then causes a CPU or the like mounted on the expansion board or the expansion unit to perform part or all of the actual operations based on instructions of the program code, thereby realizing the functions of any of the above-described embodiments.

It should be noted that not all steps and modules in the above flows and system structure diagrams are necessary, and some steps or modules may be omitted according to actual needs. The execution order of the steps is not fixed and can be adjusted as required. The system structure described in the above embodiments may be a physical structure or a logical structure, that is, some modules may be implemented by the same physical entity, or some modules may be implemented by a plurality of physical entities, or some components in a plurality of independent devices may be implemented together.

In the above embodiments, the hardware unit may be implemented mechanically or electrically. For example, a hardware element may comprise permanently dedicated circuitry or logic (such as a dedicated processor, FPGA or ASIC) to perform the corresponding operations. The hardware elements may also comprise programmable logic or circuitry, such as a general purpose processor or other programmable processor, that may be temporarily configured by software to perform the corresponding operations. The specific implementation (mechanical, or dedicated permanent, or temporarily set) may be determined based on cost and time considerations.

While the invention has been shown and described in detail in the drawings and in the preferred embodiments, it is not intended to limit the invention to the embodiments disclosed, and it will be apparent to those skilled in the art that various combinations of the code auditing means in the various embodiments described above may be used to obtain further embodiments of the invention, which are also within the scope of the invention.

Claims

1. An apparatus networking system, comprising: the system comprises an intelligent terminal, a boundary node, at least one gateway node and at least one newly-added node;

the boundary node is used for starting a new node access window when receiving an equipment networking instruction and sending the equipment networking instruction to the at least one gateway node;

2. The device networking system of claim 1,

the newly added node is further used for controlling an indicator lamp arranged on a body of the newly added node to be switched from a first display state to a second display state after receiving a network distribution instruction of the newly added node, wherein the first display state indicates that the intelligent terminal is in a non-network-connected state; and after the current network is connected, controlling the indicator light to be switched from the second display state to a third display state, wherein the third display state indicates that the newly added node is in a network access state.

3. The device networking system of claim 1,

the newly added node is used for starting a first Soft AP of the newly added node after receiving a distribution network instruction of the newly added node, determining the signal strength of a wireless signal corresponding to each network node when at least one network node is scanned according to the wireless signals released by a new node access window, determining a node to be connected with the strongest signal strength from the at least one network node, and sending a network access request to the node to be connected through the first Soft AP, wherein the network node comprises at least one of the boundary node and the at least one gateway node.

4. The device networking system of claim 3,

5. The device networking system according to any one of claims 1 to 4,

the newly joining node is further configured to start timing after receiving a distribution network instruction of the newly joining node, determine whether a third timing length is equal to a preset third timeout threshold, and disconnect the node to be connected when the third timing length is equal to the third timeout threshold;

and/or the presence of a gas in the gas,

the boundary node is used for starting a second Soft AP of the boundary node when receiving a distribution network instruction of the boundary node, storing distribution network information when receiving the distribution network information through the second Soft AP, and connecting the current network according to the distribution network information;

and/or the presence of a gas in the atmosphere,

the gateway node is also used for taking the network management node as a new adding node when receiving a network distribution instruction of the gateway node, and taking the gateway node as a gateway device in the current network when the gateway node has a data forwarding function after being connected with the current network according to the network distribution information;

and/or the presence of a gas in the gas,

6. A networking method based on the device networking system of any one of claims 1 to 5, comprising:

7. The networking method according to claim 6,

the method comprises the steps that an indicator lamp arranged on a body of a newly added node is controlled to be switched from a first display state to a second display state through the newly added node, wherein the first display state indicates that the intelligent terminal is in a non-network-connected state;

8. The networking method according to claim 6,

starting a first Soft AP of the node through the newly added node;

9. The networking method according to claim 8,

further comprising:

10. The networking method according to any one of claims 6 to 9,

determining whether a third time-out length is equal to a preset third time-out threshold value or not through the newly added node, and disconnecting the newly added node from the node to be connected when the third time-out length is equal to the third time-out threshold value;

and/or the presence of a gas in the gas,

further comprising:

starting a second Soft AP of the boundary node when the boundary node receives a distribution network instruction of the boundary node;

when the boundary node receives the distribution network information, the distribution network information is stored, and the current network is connected according to the distribution network information;

and/or the presence of a gas in the gas,

further comprising:

taking the network management node as a new adding node;

after the current network is connected according to the distribution network information, when the gateway node has a data forwarding function, the gateway node is used as gateway equipment in the current network;

and/or the presence of a gas in the gas,

further comprising: