CN110830966B - Binding method of Internet of things equipment and Internet of things system - Google Patents

Abstract

The application discloses a binding method of internet of things equipment and an internet of things system, wherein the method comprises the following steps: responding to a preset control instruction triggered by a user for many times, enabling the Internet of things equipment to work in a preset state corresponding to the preset control instruction, and reporting the preset state to a cloud platform; the cloud platform searches the Internet of things equipment with the most items matched with the preset state according to the states reported by all the Internet of things equipment, and takes the searched Internet of things equipment as the Internet of things equipment to be bound; the cloud platform sends the device information of the to-be-bound internet of things device to a terminal device; and the terminal equipment establishes a binding relation with the to-be-bound internet of things equipment according to the equipment information.

Description

Binding method of Internet of things equipment and Internet of things system

Technical Field

The application relates to the field of Internet of things, in particular to a binding method of Internet of things equipment and an Internet of things system.

Background

The internet of things is a technology frequently used in modern technological life. The internet of things equipment performs network communication through an operator base station, and the universal binding method of the internet of things equipment is to scan and identify the equipment identification code of the equipment to be bound through the mobile phone terminal application of the internet of things, so that the equipment identification information is sent to the cloud platform to achieve binding of the internet of things equipment and the terminal equipment.

However, in the situations that the equipment identification code of the equipment of the internet of things is lost, smeared or fixed in the equipment, and the like, the self-service discovery and binding of the equipment of the internet of things cannot be realized by applying the scanning identification equipment identification code to the mobile phone end of the internet of things. Therefore, in the case that the device identification code of the internet of things device cannot be scanned, there is no method for binding the terminal device with the internet of things device, and there is a need for a method for solving the above-mentioned problems.

Disclosure of Invention

The embodiment of the application provides a binding method of internet of things equipment and an internet of things system, which solve the problem that terminal equipment cannot be bound with the internet of things equipment under the condition that equipment identification codes of the internet of things equipment cannot be scanned and identified in the prior art.

In a first aspect, an embodiment of the present application provides a binding method for an internet of things device, including: responding to a preset control instruction triggered by a user for many times, enabling the Internet of things equipment to work in a preset state corresponding to the preset control instruction, and reporting the preset state to a cloud platform; the cloud platform searches the Internet of things equipment with the most items matched with the preset state according to the states reported by all the Internet of things equipment, and takes the searched Internet of things equipment as the Internet of things equipment to be bound; the cloud platform sends the device information of the to-be-bound internet of things device to a terminal device; and the terminal equipment establishes a binding relation with the to-be-bound internet of things equipment according to the equipment information.

In the method, because the preset control instruction is triggered by the user for many times, the internet of things equipment works in the preset state corresponding to the preset control instruction, so that the cloud platform can search the internet of things equipment with the most items matched with the preset state according to the state reported by all the internet of things equipment, and take the searched internet of things equipment as the internet of things equipment to be bound, and send the equipment information of the internet of things equipment to be bound to the terminal equipment; the method can automatically complete the binding with the to-be-bound Internet of things equipment without scanning an equipment identification code.

In an optional implementation manner, the cloud platform searches the internet of things device with the largest number of items matched with the preset state according to the states reported by all the internet of things devices, and specifically includes: and the cloud platform searches the Internet of things equipment with the largest item matched with the preset state according to the states reported by all the Internet of things equipment within the preset time.

In the method, the searching range of the Internet of things equipment with the largest number of items matched with the preset state is determined according to the state of the cloud platform reported by all the Internet of things equipment within the preset time length, so that the Internet of things equipment is further verified, and the reliability of the searched Internet of things equipment is improved.

In an optional implementation manner, the cloud platform searches the internet of things device with the most items matched with the preset state according to the states reported by all the internet of things devices, and takes the searched internet of things device as the internet of things device to be bound, and specifically includes: the cloud platform searches the Internet of things equipment with the most items matched with the preset state according to the states reported by all the Internet of things equipment; judging the distance between the Internet of things equipment and the terminal equipment according to the found positioning information of the Internet of things equipment and the positioning information of the terminal equipment; and taking the Internet of things equipment with the distance smaller than a distance threshold value as the Internet of things equipment to be bound.

According to the method, the cloud platform searches the Internet of things equipment with the largest item matched with the preset state according to the states reported by all the Internet of things equipment; further, judging the distance between the Internet of things equipment and the terminal equipment according to the searched positioning information of the Internet of things equipment and the positioning information of the terminal equipment; and taking the Internet of things equipment with the distance smaller than the distance threshold value as the Internet of things equipment to be bound, so that the reliability of searching the Internet of things equipment to be bound is further improved.

In an alternative embodiment, the user triggers the preset control instruction through a remote controller.

In an alternative embodiment, the preset control command is a voice command.

In an alternative embodiment, the internet of things device is an NB-IoT device.

In a second aspect, the present application provides an internet of things system, comprising: the cloud platform comprises Internet of things equipment, terminal equipment and the cloud platform; responding to a preset control instruction triggered by a user, enabling the Internet of things equipment to work in a preset state corresponding to the preset control instruction, and reporting the preset state to a cloud platform; the cloud platform searches the Internet of things equipment with the most items matched with the preset state according to the states reported by all the Internet of things equipment, and takes the searched Internet of things equipment as the Internet of things equipment to be bound; the cloud platform sends the device information of the to-be-bound internet of things device to a terminal device; and the terminal equipment establishes a binding relation with the to-be-bound internet of things equipment according to the equipment information.

In a third aspect, embodiments of the present application provide a computer device comprising a program or instructions which, when executed, are adapted to carry out the methods of the first aspect and the embodiments described above.

In a fourth aspect, embodiments of the present application provide a storage medium including a program or instructions which, when executed, are configured to perform the methods of the first aspect and the embodiments described above.

Drawings

Fig. 1 is a schematic step flow diagram of a binding method of an internet of things device according to an embodiment of the present application;

fig. 2 is a schematic architecture diagram of an applicable binding method of an internet of things device according to an embodiment of the present application;

fig. 3 is a timing flowchart of a binding method of an internet of things device according to an embodiment of the present application;

fig. 4 is an application interface schematic diagram of a binding method of an internet of things device according to an embodiment of the present application.

Detailed Description

In order to better understand the above technical solutions, the following detailed description will be made with reference to the accompanying drawings and specific embodiments of the present application, and it should be understood that specific features in the embodiments and examples of the present application are detailed descriptions of the technical solutions of the present application, and not limiting the technical solutions of the present application, and the technical features in the embodiments and examples of the present application may be combined with each other without conflict.

The internet of things is a technology frequently used in modern technological life, and there are various kinds of internet of things, such as narrowband internet of things (Narrow Band Internet of Things, NB-IoT). The internet of things equipment performs network communication through the operator base station, and self-service discovery and binding functions of the equipment cannot be realized by referring to the WiFi equipment through switching network modes to WiFi hot spots. The universal binding method for the internet of things equipment is to scan and identify the equipment identification code through the APP, and then send the equipment identification information to the cloud platform to realize equipment binding. Therefore, the application provides a binding method of the Internet of things equipment, which is a standby method of equipment binding designed outside the universal binding method, and aims to solve the problem that the Internet of things equipment cannot normally utilize the universal binding method of the Internet of things equipment to realize self-service discovery and binding of the equipment under the scene that the identification code is lost or can not be identified, the identification code is fixed in the equipment and the like, and the equipment identification code can not be conveniently acquired.

As shown in fig. 1, the present application provides a step flowchart of a binding method for an internet of things device.

Step 101: responding to a preset control instruction triggered by a user for many times, enabling the Internet of things equipment to work in a preset state corresponding to the preset control instruction, and reporting the preset state to the cloud platform.

Step 102: and the cloud platform searches the Internet of things equipment with the most items matched with the preset state according to the states reported by all the Internet of things equipment, and takes the searched Internet of things equipment as the Internet of things equipment to be bound. A step of

Step 103: and the cloud platform sends the device information of the to-be-bound internet of things device to a terminal device.

Step 104: and the terminal equipment establishes a binding relation with the to-be-bound internet of things equipment according to the equipment information.

The preset state is the working state of the internet of things equipment, such as refrigeration and 23 degrees, and in the application, the preset state can also be called as a preset state characteristic.

In step 101 to step 104, the preset control instruction triggering manner may be: and triggering the preset control instruction by the user through a remote controller.

The preset control instruction can be a voice instruction or a control instruction sent by a remote controller, and refrigeration and 23 degrees correspond to one control instruction.

The internet of things device may be an NB-IoT device.

Step 102 may specifically be: and the cloud platform searches the Internet of things equipment with the largest item matched with the preset state according to the states reported by all the Internet of things equipment within the preset time.

More specifically, step 102 may be performed as follows:

the cloud platform searches the Internet of things equipment with the most items matched with the preset state according to the states reported by all the Internet of things equipment; judging the distance between the Internet of things equipment and the terminal equipment according to the found positioning information of the Internet of things equipment and the positioning information of the terminal equipment; and taking the Internet of things equipment with the distance smaller than a distance threshold value as the Internet of things equipment to be bound.

Specifically, it may be determined that a distance between the terminal device and the second positioning information of the internet of things device is smaller than a distance threshold according to the first positioning information of the terminal device.

Specifically, the first positioning information and the second positioning information may be acquired by:

after the cloud platform determines the unique Internet of things equipment with the most items matched with the preset state, sending a positioning request to the terminal equipment so as to acquire the first positioning information; and the cloud platform sends a positioning request to the unique Internet of things equipment with the most items matched with the preset state so as to acquire the second positioning information.

Then, determining the distance between the terminal equipment and the Internet of things equipment with the largest matching number according to the first positioning information and the second positioning information, and determining that the distance is not larger than a preset distance threshold; or the first region code corresponding to the first positioning information is consistent with the second region code corresponding to the second positioning information.

In addition, it is to be noted that if the cloud platform is in any state as follows, it is determined that the recommended internet of things device is not found;

in the state reported by the plurality of internet of things devices, the number of matching pieces of the internet of things device with the largest number of matching pieces with the preset state is smaller than the preset number of matching pieces; or alternatively, the process may be performed,

among the status features reported by the plurality of Internet of things devices, the plurality of Internet of things devices with the largest number of the preset status matching bars are arranged.

And the terminal equipment establishes a binding relation with the to-be-bound internet of things equipment based on the equipment information of the recommended internet of things equipment sent by the cloud platform.

The binding method of the NB-IoT device illustrated in fig. 1 is described in detail in a specific embodiment for an air conditioning application scenario in conjunction with fig. 2 and 3.

The first step: and the user executes the binding operation on the NB-IoT device to be bound, so that the state characteristics reported by the NB-IoT device to be bound to the cloud platform are realized.

The preset status feature may be to distinguish from the remaining unbound NB-IoT devices by multiple regular statuses.

For example, a user can control the air conditioner to be started and shut down (more than 5 times) at intervals under the condition that the mode, the air volume and the temperature are kept unchanged through an air conditioner remote controller or a wire controller, and the air conditioner status characteristics (mode, air volume and temperature) with the same status characteristics are reported to the cloud platform through the NB-IoT controller. For example: according to the mode: refrigeration "," air volume: high wind "," temperature: 20 ℃ and other state characteristics, and the operations of starting up, shutting down, restarting and shutting down are carried out for a plurality of times, and the state characteristics are reported to the cloud platform more.

It should be noted that, the preset status feature may be "mode: refrigeration "," air volume: high wind "," temperature: 20 ℃ ", can also be regular different state characteristics, for example, the 1 st state characteristic is" mode: refrigeration "," air volume: high wind "," temperature: 20 ℃ ", state 2 is characterized by" mode: refrigeration "," air volume: high wind "," temperature: 21 deg.c, etc.

And a second step of: and the user sends a search control instruction to the cloud platform through an Application (APP) on the terminal equipment, so that the NB-IoT equipment state characteristics corresponding to the preset state characteristics are inquired.

And the cloud platform feeds back the recommendation equipment to the APP according to the occurrence times of the state characteristics in the preset time.

For example, for an air conditioning application scenario: the cloud platform inquires all air conditioner state characteristics for 5 minutes recently according to state characteristics (mode, air quantity and temperature) appointed by the APP, and feeds back air conditioner equipment with the largest number of preset state characteristics and matching times to the APP according to the occurrence of the state characteristics, and feeds back recommended NB-IoT equipment information meeting set conditions to the APP by judging whether the matching times are larger than the agreed matching times (the matching times are larger and the probability of being lower), otherwise, prompts recommendation failure (prompts a user to increase control times if the matching times are smaller, and prompts the user to check whether equipment is normally started if the matching times are 0).

For example: according to the mode: refrigeration "," air volume: high wind "," temperature: the state characteristics of 20 ℃ are searched for the state characteristics with the same control characteristics in the last 5 minutes, and the search result may be: "air conditioner 111:5 times "," air conditioner 222:3 times "," air conditioner 333:1 time ", since the air conditioner 111 is most matched and the matched number is greater than the contracted number by 5 times, the air conditioner 111 equipment is recommended to the APP.

In addition, if the matching times of the plurality of air conditioners are more than 5 times, the air conditioner state characteristics can be replaced to re-operate the step 1, so that the mutual interference when the plurality of air conditioners are simultaneously used for recommending equipment is ensured, and the accuracy of recommending the equipment is improved.

And a third step of: the cloud platform sends a location request to both the recommending NB-IoT device and the terminal device. The user sends the first positioning information to the cloud platform, and the recommendation NB-IoT device sends the second positioning information to the cloud platform.

In the third step, it may also be agreed that, after receiving the device information of the recommended NB-IoT device, the terminal device sends the device information to the cloud platform.

Specifically, the user obtains the positioning information (longitude and latitude) of the user through the APP, and then sends the first positioning information and the recommended NB-IoT device information (device code) to the cloud platform through the APP.

As shown in fig. 4: first positioning information "36.131296,120.487849", recommended NB-IoT device information "861883040000017".

The cloud platform may control the recommended NB-IoT device to report device information and obtain second positioning information when obtaining the device information of the recommended NB-IoT device. The cloud platform checks whether the recommended NB-IoT device is bound, and if so, the feedback check fails; the cloud platform issues control instructions (positioning requests) to the recommended NB-IoT devices, and if the issuing fails (e.g., the devices are not online), the feedback check fails. Specifically, when acquiring device information reported by the recommended NB-IoT device, the cloud platform acquires second positioning information (may be longitude and latitude) of the recommended NB-IoT device through an operator positioning interface.

For example: the second positioning information is "36.203181599441876,120.52355497530151".

Fourth step: and the cloud platform further verifies whether the recommended NB-IoT device is the NB-IoT device to be bound according to the first positioning information and the second positioning information.

It can be verified by at least two methods:

the first method is as follows:

the cloud platform judges whether the distance between the second positioning information and the first positioning information is larger than a distance threshold (such as 2000 meters, the larger the distance is, the larger the probability of error checking is), if the distance is larger than the distance threshold, the feedback checking is failed, if the distance is not larger than the distance threshold, the feedback checking is successful, and the cloud platform stores the checked equipment information to the cloud platform cache to be acquired by APP polling.

For example: the distance between the second positioning information '36.203181599441876,120.52355497530151' and the first positioning information '36.131296,120.487849' is 7635 meters and is larger than a distance threshold value of 2000 meters, and the feedback verification fails; if the calculated distance is smaller than the distance threshold, the feedback check is successful, and the recommended NB-IoT device information 861883040000017 and the check result are cached to the cloud platform to be acquired by the APP polling.

The second method is as follows:

the comparison can also be performed through city codes or region codes in the position information, if the codes are consistent, the verification is passed, and if the codes are inconsistent, the user is prompted to re-operate the equipment recommending step. The verification of the position information is to reduce the probability of the error binding of the equipment, and the fields and the difference intervals of the position information comparison can be flexibly set according to the requirement of the system safety.

Fourth step: the user acquires the device to be bound through APP polling: if the failure occurs, prompting the failure reason; if successful, the user is prompted to initiate a binding procedure.

Since the acquisition of the second location information is asynchronous, it is recommended that the location information verification operation of the NB-IoT device be performed asynchronously. And in the verification process of the positioning information of the recommended NB-IoT, the verification result is cached in a database (such as Redis) of the cloud platform and is used for being polled and called by the APP, and a user polls and acquires the verification result of the recommended NB-IoT device through the APP within a specified time period (for example: 3 minutes) at a certain period (for example: 2 seconds). If the equipment does not complete the equipment position verification, notifying the APP to continue polling in the next period; if the failure occurs, prompting the failure reason; if successful, the user is prompted to initiate a binding procedure.

The embodiment of the application provides an Internet of things system, which comprises Internet of things equipment, terminal equipment and a cloud platform; the collaboration process of the Internet of things equipment, the terminal equipment and the cloud platform is as follows:

responding to a preset control instruction triggered by a user, enabling the Internet of things equipment to work in a preset state corresponding to the preset control instruction, and reporting the preset state to a cloud platform.

And the cloud platform searches the Internet of things equipment with the most items matched with the preset state according to the states reported by all the Internet of things equipment, and takes the searched Internet of things equipment as the Internet of things equipment to be bound.

And the cloud platform sends the device information of the to-be-bound internet of things device to a terminal device.

And the terminal equipment establishes a binding relation with the to-be-bound internet of things equipment according to the equipment information.

The embodiment of the application provides a computer device, which comprises a program or an instruction, and the program or the instruction is used for executing the binding method and any optional method of the Internet of things device provided by the embodiment of the application when being executed.

The embodiment of the application provides a storage medium comprising a program or an instruction, which is used for executing the binding method and any optional method of the Internet of things equipment provided by the embodiment of the application when being executed.

Finally, it should be noted that: it will be appreciated by those skilled in the art that embodiments of the present application may be provided as a method, system, or computer program product. Accordingly, the present application may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present application may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, optical storage, and the like) having computer-usable program code embodied therein.

The present application is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems) and computer program products according to the application. It will be understood that each flow and/or block of the flowchart illustrations and/or block diagrams, and combinations of flows and/or blocks in the flowchart illustrations and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

It will be apparent to those skilled in the art that various modifications and variations can be made to the present application without departing from the scope of the application. Thus, it is intended that the present application also include such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.

Claims (7)

1. The binding method of the Internet of things equipment is characterized by comprising the following steps of:

responding to a preset control instruction triggered by a user for many times, enabling the Internet of things equipment to work in a preset state corresponding to the preset control instruction, and reporting the preset state to a cloud platform;

the cloud platform searches the Internet of things equipment with the largest item matched with the preset state according to the states reported by all the Internet of things equipment in the preset time period, and takes the searched Internet of things equipment as the Internet of things equipment to be bound; the cloud platform searches the Internet of things equipment with the largest item matched with the preset state according to the states reported by all the Internet of things equipment; judging the distance between the Internet of things equipment and the terminal equipment according to the found positioning information of the Internet of things equipment and the positioning information of the terminal equipment, and taking the Internet of things equipment with the distance smaller than a distance threshold value as the Internet of things equipment to be bound; or judging the city code or the area code of the Internet of things equipment and the terminal equipment, and taking the Internet of things equipment consistent with the city code or the area code between the terminal equipment as the Internet of things equipment to be bound;

the cloud platform sends the device information of the to-be-bound internet of things device to a terminal device;

and the terminal equipment establishes a binding relation with the to-be-bound internet of things equipment according to the equipment information.

2. The method of claim 1, wherein the user triggers the preset control command via a remote control.

3. The method of claim 1, wherein the predetermined control command is a voice command.

4. The method of claim 1, wherein the internet of things device is an NB-IoT device.

5. The Internet of things system is characterized by comprising Internet of things equipment, terminal equipment and a cloud platform;

responding to a preset control instruction triggered by a user, enabling the Internet of things equipment to work in a preset state corresponding to the preset control instruction, and reporting the preset state to a cloud platform;

the cloud platform searches the Internet of things equipment with the largest item matched with the preset state according to the states reported by all the Internet of things equipment in the preset time period, and takes the searched Internet of things equipment as the Internet of things equipment to be bound; the cloud platform searches the Internet of things equipment with the largest item matched with the preset state according to the states reported by all the Internet of things equipment; judging the distance between the Internet of things equipment and the terminal equipment according to the found positioning information of the Internet of things equipment and the positioning information of the terminal equipment, and taking the Internet of things equipment with the distance smaller than a distance threshold value as the Internet of things equipment to be bound; or judging the city code or the area code of the Internet of things equipment and the terminal equipment, and taking the Internet of things equipment consistent with the city code or the area code between the terminal equipment as the Internet of things equipment to be bound;

the cloud platform sends the device information of the to-be-bound internet of things device to a terminal device;

and the terminal equipment establishes a binding relation with the to-be-bound internet of things equipment according to the equipment information.

6. A computer device comprising a program or instructions which, when executed, performs the method of any of claims 1 to 4.

7. A storage medium comprising a program or instructions which, when executed, perform the method of any one of claims 1 to 4.