CN114500493A

CN114500493A - Control method of Internet of things equipment, terminal and computer readable storage medium

Info

Publication number: CN114500493A
Application number: CN202011271165.4A
Authority: CN
Inventors: 王妍
Original assignee: Shenzhen TCL New Technology Co Ltd
Current assignee: Shenzhen TCL New Technology Co Ltd
Priority date: 2020-11-13
Filing date: 2020-11-13
Publication date: 2022-05-13
Anticipated expiration: 2040-11-13
Also published as: CN114500493B

Abstract

The invention provides a control method of Internet of things equipment, a terminal and a computer readable storage medium, wherein the method comprises the following steps: acquiring user activity information, and determining a target activity area where a user is located according to the user activity information; acquiring user instruction information received by the Internet of things equipment in the target activity area, and establishing a corresponding relation between the user activity information and the user instruction information according to a preset rule; and when the current activity of the user is detected to accord with the user activity information, searching user instruction information corresponding to the user activity information according to the corresponding relation, and controlling the Internet of things equipment according to the user instruction information. According to the method and the device, the corresponding relation between the user activity information and the user instruction information is established, the operation that the user wants to realize on the Internet of things equipment is actively judged according to the user activity, the Internet of things equipment is not required to be controlled by operating the mobile phone APP or the intelligent panel, and the convenience of controlling the Internet of things equipment is improved.

Description

Control method of Internet of things equipment, terminal and computer readable storage medium

Technical Field

The invention relates to the technical field of Internet of things, in particular to a control method of Internet of things equipment, a terminal and a computer readable storage medium.

Background

With the development of the IOT technology of the smart home, the smart home can realize scene intellectualization and provide various special scene services for users, such as automatic turning on of a smart television in a film watching mode, automatic turning off of a room ceiling lamp, turning on of a smart panel lamp of a television wall and turning on of an air conditioner in a soft wind mode; light changes the effect under the dinner mode, and smart audio amplifier broadcast light music etc. but under the traditional condition, the user wants to realize above-mentioned operation, must just can realize through operation cell-phone APP or intelligent panel to it is inconvenient.

Therefore, the prior art has defects and needs to be improved and developed.

Disclosure of Invention

The technical problem to be solved by the present invention is to provide a method, a terminal and a computer-readable storage medium for controlling an internet of things device, aiming at solving the problem that a user needs to operate a mobile phone APP or an intelligent panel to control the internet of things device in the prior art.

The technical scheme adopted by the invention for solving the technical problem is as follows:

a control method of Internet of things equipment comprises the following steps:

acquiring user activity information, and determining a target activity area where a user is located according to the user activity information;

acquiring user instruction information received by the Internet of things equipment in the target activity area, and establishing a corresponding relation between the user activity information and the user instruction information according to a preset rule;

and when the current activity of the user is detected to accord with the user activity information, searching user instruction information corresponding to the user activity information according to the corresponding relation, and controlling the Internet of things equipment according to the user instruction information.

Further, before the obtaining the user activity information and determining the target activity area where the user is located according to the user activity information, the method further includes:

scanning identification information of each activity area is acquired in advance, and an activity area map is generated and stored according to the scanning identification information.

Further, the obtaining of the user activity information and the determining of the target activity area where the user is located according to the user activity information include:

acquiring the position of a user, and the number of stay times, stay time and stay duration at the position;

storing the position, the stay times, the stay time and the stay duration as user activity information;

and determining a target activity area where the user is located according to the activity area map and the position.

Further, the obtaining user instruction information received by the internet of things device in the target activity area, and establishing a corresponding relationship between the user activity information and the user instruction information according to a preset rule includes:

acquiring a user instruction and instruction occurrence time received by the Internet of things equipment in the target activity area, and storing the user instruction and the instruction occurrence time as user instruction information;

and acquiring the staying time period of the user according to the staying time and the staying duration, and establishing the corresponding relation between the user activity information and the user instruction information according to the corresponding relation between the staying time period and the instruction occurrence time.

Further, when it is detected that the current activity of the user matches the user activity information, before searching for user instruction information corresponding to the user activity information according to the correspondence and controlling the internet of things device according to the user instruction information, the method further includes:

presetting a first repetition rate threshold corresponding to user activity information and a second repetition rate threshold corresponding to user instruction information;

in a preset period, when a first repetition rate between each piece of user activity information reaches the first repetition rate threshold value and a second repetition rate between each piece of user instruction information reaches the second repetition rate threshold value, generating associated scene prompt information;

and when the determined selection of the user on the associated scene prompt information is received, storing the corresponding relation between the user activity information and the user instruction information as system default information.

Further, when it is detected that the current activity of the user matches the user activity information, searching user instruction information corresponding to the user activity information according to the correspondence, and controlling the internet of things device according to the user instruction information includes:

when detecting that the current position of the user and the position in the user activity information are in the same activity area and the current staying time of the user falls into the staying time period corresponding to the position, searching the system default information;

searching user instruction information corresponding to the user activity information according to the corresponding relation, and generating corresponding inquiry information according to the user instruction information;

and when the determination selection of the user on the inquiry information is received, controlling the equipment of the Internet of things according to the user instruction information.

Further, the control method of the internet of things device further includes:

accessing a cloud server, searching and acquiring a recommendation setting mode of the Internet of things equipment in the same area range, and generating recommendation mode prompt information;

and when the determined selection of the user on the recommendation mode prompt information is received, controlling the Internet of things equipment according to the recommendation setting mode.

Further, the control method of the internet of things device further includes:

generating a thermodynamic diagram according to the activity area map, the stay times, the stay time, the stay duration and the user instruction information, and displaying the thermodynamic diagram;

receiving a touch thermodynamic diagram instruction of a user, and acquiring a target activity area corresponding to a touch point;

receiving an input instruction of a user, performing time setting and state setting on the Internet of things equipment in the target activity area, and generating time setting information and state setting information;

and saving the target activity area, the time setting information and the state setting information.

The present invention provides a terminal, including: the control method comprises the steps of the control method for the Internet of things equipment, wherein the steps are implemented by the control method for the Internet of things equipment.

The present invention provides a computer-readable storage medium storing a computer program executable for implementing the steps of the method for controlling an internet of things device as described above.

Drawings

Fig. 1 is a flowchart of a preferred embodiment of a method for controlling an internet of things device in the present invention.

Fig. 2 is a detailed flowchart of step S100 in the preferred embodiment of the method for controlling an internet of things device in the present invention.

Fig. 3 is a detailed flowchart of step S200 in the preferred embodiment of the method for controlling an internet of things device in the present invention.

Fig. 4 is a flowchart before step S300 in the preferred embodiment of the method for controlling an internet of things device in the present invention.

Fig. 5 is a detailed flowchart of step S300 in the preferred embodiment of the method for controlling an internet of things device in the present invention.

Fig. 6 is a flowchart of big data recommendation setting in a preferred embodiment of the control method of the internet of things device in the invention.

Fig. 7 is a flowchart of user-defined settings in a preferred embodiment of the control method of the internet of things device in the present invention.

Fig. 8 is a functional block diagram of a preferred embodiment of the terminal of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer and clearer, the present invention is further described in detail below with reference to the accompanying drawings and examples. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1, fig. 1 is a flowchart of a method for controlling an internet of things device according to the present invention. As shown in fig. 1, a method for controlling an internet of things device according to an embodiment of the present invention includes the following steps:

s100, obtaining user activity information, and determining a target activity area where a user is located according to the user activity information.

Specifically, the terminal and the internet of things equipment are accessed into the same network, the terminal can detect the activity of the user by arranging a detection device in an activity area where the internet of things equipment is located, and the detection device can be arranged as an AI radar. That is to say, an AI radar is provided in the active area, and the AI radar is in communication connection with the terminal. The method for acquiring the user activity information comprises the following steps: and controlling the AI radar to detect the user activity information.

AI radar has two wake-up approaches: the first is that when the user triggers the "smart radar" function at the terminal, the AI radar is activated. The second is when the user sends an activation command to the AI radar, for example, the user sends a voice to the AI radar, and the AI radar detects the voice command "activate the smart radar" input by the user, and the AI radar is activated.

In one implementation, the step S100 further includes, before the step S: scanning identification information of each activity area is acquired in advance, and an activity area map is generated and stored according to the scanning identification information.

Specifically, the activity area may be a study area, a bedroom area, a living room area, or the like, or may be a smaller area divided in advance. When the AI radar is started for the first time, the image acquisition device (such as a camera) is controlled to scan and identify each active area to obtain scan identification information. And the image acquisition device sends the scanning identification information to a terminal, and the terminal processes the scanning identification information to obtain an activity area map.

For example, the AI radar can be installed in thing networking equipment tops such as smart jack, intelligent TV, intelligent switch, intelligent reading lamp, intelligent cigarette machine, and when the AI radar started for the first time, the AI radar awakens the camera automatic scanning to correspond the room pattern, discovers the peripheral relevant smart machine. Such as: when the AI radar that is located on the intelligent reading lamp starts for the first time, awaken up the camera and scan the recognition to the study area, discernment table chair position to and discover that one of total intelligent air conditioner in this area, intelligent panel lamp are a set of, the furred ceiling lamp is one. And after the identification is finished, the camera sends the scanning identification information to the terminal, and the terminal generates and stores a room map according to the scanning identification information.

In one implementation, as shown in fig. 2, the step S100 specifically includes:

s110, obtaining the position of a user, and the number of stay times, stay time and stay duration at the position;

s120, storing the position, the stay times, the stay time and the stay duration as user activity information;

and S130, determining a target activity area where the user is located according to the activity area map and the position.

For example, after the room map is acquired, the AI radar is started, and the area in front of the AI radar is divided with an accuracy of about 0.2m in radius, and the radar wave is emitted many times per second to detect the user position. Specifically, the AI radar transmits radar waves many times per second, and if the position of the return wave changes, it indicates that the front object is a movable human body, and if the return wave does not change any more, it indicates that the front object is not a human body.

Further, the invention can also set a threshold value of the stay time, for example, the stay time exceeds 1 minute, the user is considered to stay, and the stay time are saved; and reporting the user position, the user stay times, the stay time and the stay duration of the position by the AI radar every 1 minute. Moreover, a rule for reporting the stay time can be set, the user stays in the target activity area for more than 1 minute, and the stay times are increased by one; the length of time to leave the target activity area is also recorded, i.e. once more than one minute of leaving and not more than 1 minute. And the terminal stores the reported stay times into a memory.

The step S100 is followed by: s200, obtaining user instruction information received by the Internet of things equipment in the target activity area, and establishing a corresponding relation between the user activity information and the user instruction information according to a preset rule.

Specifically, the position where the user stays, the stay times, the stay time and the stay duration are used as user activity information, and meanwhile, an instruction sent by the user to the internet of things equipment in the target activity area at the moment is used as user instruction information. That is, the invention can automatically collect and establish the association relationship between the activities of the user and the commands sent by the user.

In one implementation, as shown in fig. 3, the step S200 specifically includes:

s210, obtaining a user instruction and instruction occurrence time received by the Internet of things equipment in the target activity area, and storing the user instruction and the instruction occurrence time as user instruction information;

s220, obtaining the staying time period of the user according to the staying time and the staying duration, and establishing the corresponding relation between the user activity information and the user instruction information according to the corresponding relation between the staying time period and the instruction occurrence time.

That is to say, the terminal obtains the user instruction received by the other internet of things devices in the activity area in the time period according to the stored staying time and staying duration, and all the internet of things devices are connected through the wireless network. For example, the user activity information stored in the memory is: the user stays at 12:00 night for 7 hours, and operation information of the user on the smart television, the smart air conditioner and the smart panel lamp which are found in the activity area is obtained. The user instruction information is: the user turns off the smart television at 12 pm; the user turns on the air conditioner at 7 pm and sets the air conditioner to a sleep mode; the user awakens the intelligent panel lamp at 7 pm and adjusts the intelligent panel lamp to a sleep mode; at seven am, the user leaves the site for more than ten minutes. The user activity information and the user instruction information have a corresponding relation in the overlapped time period, which shows that the user sends an instruction to the internet of things equipment in the time period.

The step S200 is followed by: s300, when the current activity of the user is detected to accord with the user activity information, searching user instruction information corresponding to the user activity information according to the corresponding relation, and controlling the Internet of things equipment according to the user instruction information.

Specifically, according to the corresponding relation between the user activity information and the user instruction information, the current intention of the user can be known by acquiring the current activity of the user, the mode used by the user before is actively recommended for the user, and the user does not need to operate any more. For example, an AI radar is controlled to acquire the current activity of the user, and the AI radar reports the current activity of the user to a terminal; and the terminal detects whether the current activity of the user accords with the user activity information, and if so, corresponding user instruction information can be recommended.

In one implementation, as shown in fig. 4, the step S300 further includes, before the step S:

s10, presetting a first repetition rate threshold corresponding to the user activity information and a second repetition rate threshold corresponding to the user instruction information;

s20, in a preset period, when a first repetition rate between each piece of user activity information reaches the first repetition rate threshold value and a second repetition rate between each piece of user instruction information reaches the second repetition rate threshold value, generating associated scene prompt information;

and S30, when the determined selection of the associated scene prompt information by the user is received, storing the corresponding relation between the user activity information and the user instruction information as system default information.

That is, the present invention may set a system default mode, in order to increase the accuracy of the determination, the present invention does not store the once established correspondence as the system default information, but collects multiple times of user activity information and user instruction information, and compares the repetition rates of the established correspondence, and under the condition that the repetition rates are high, the user selects whether to select an associated scene, that is, whether the correspondence between the user activity information and the user instruction information established in the user selection step S200 can be stored as the system default information, thereby increasing the autonomy and convenience of the user control.

Specifically, if the user does not trigger the custom setting function, and does not use the AI radar function for the first time, the terminal starts the default setting of the system. For example, when the user stays at the same position every week for a certain threshold, for example, the system may default to stay for 1 time in an activity area when the user stays for three consecutive days at the same time or within a period of 30 minutes around the time, that is, the repetition rate of the activity information of the user may be considered to reach the first repetition rate threshold. When the operation record repetition number of the internet of things equipment reaches the second repetition rate threshold value, for example, the operation repetition rate of the internet of things equipment reaches 66.66%, if the user appears at the position of the intelligent bedside lamp after 11 pm for three consecutive days and has twice in the three days, the intelligent television in the living room is turned off in the time period at the position, the air conditioner is adjusted to be 25 degrees and the user sleeps quietly, and the intelligent panel lamp is turned off, so that the second repetition rate threshold value can be reached.

And generating associated scene prompt information when a first repetition rate between each piece of user activity information reaches the first repetition rate threshold value and a second repetition rate between each piece of user instruction information reaches the second repetition rate threshold value within a preset time period. That is, the user is prompted whether to set the correspondence relationship as system default information. For example, a question is asked by directing a desk lamp, a terminal or an AI radar speaker: whether the relevant scene is set at the place (the intelligent television 11 is automatically turned off, the air conditioner is adjusted to 25 degrees, the sleeping is set, and the intelligent panel lamp is turned off) or not. If the user selects yes, the relevant scene is set at the place, and the position information, the time information and the user instruction information are stored in a memory of the terminal.

In one implementation, as shown in fig. 5, the step S300 specifically includes:

s310, when the current position of the user and the position in the user activity information are detected to be in the same activity area and the current staying time of the user falls into the staying time period corresponding to the position, searching the system default information;

s320, searching user instruction information corresponding to the user activity information according to the corresponding relation, and generating corresponding inquiry information according to the user instruction information;

and S330, when the determination selection of the user on the inquiry information is received, controlling the equipment of the Internet of things according to the user instruction information.

That is to say, when the current position of the user and the position stored in the user activity information are located in the same activity area, and the staying time is also within the staying time period in the user activity information, it can be considered that the user wants to make an action consistent with the user instruction information at this time, and at this time, the terminal of the invention actively asks the user, or the terminal controls the AI radar to ask the user, and does not need the user to actively operate the internet of things device, which is very convenient.

For example, when a user appears at a certain position at a certain time and accords with user activity information, user instruction information corresponding to the user activity information is searched, and if the user instruction information is in a reading mode, an AI intelligent radar speaker is controlled to send out a voice query: whether to wake up the reading mode. Or, by a terminal pop-up window. If the user answers yes, the most common instruction of the user at the time is automatically inquired, if the intelligent player inquires that the user plays pure music in the time slot in the past week, the intelligent air-conditioning control center inquires that the temperature of the user in the past week is set to be 26 degrees at the time, meanwhile, the intelligent air-conditioning control center accesses the memory to obtain the number of the current users, and the intelligent panel lamp inquires that the user uses the most common reading mode in the past week at the time. Therefore, each intelligent device carries out intelligent recommendation according to user habits, when the user appears at the position, the intelligent player starts and recommends pure music, the intelligent air conditioner inquires that the number of users is 25 degrees when the number of users is multiple, and the intelligent panel lamp automatically sets a reading mode.

Further, the intelligent scene setting includes three setting modes: big data recommendation setting, user-defined setting and system default setting. And the system default setting is to store the corresponding relation between the user activity information and the user instruction information as system default information.

In one implementation manner, for big data recommendation setting, as shown in fig. 6, the method for controlling an internet of things device includes:

a100, accessing a cloud server, searching and acquiring a recommendation setting mode of Internet of things equipment in the same region range, and generating recommendation mode prompt information;

and A200, when the confirmed selection of the user on the recommendation mode prompt information is received, controlling the Internet of things equipment according to the recommendation setting mode.

Specifically, when the terminal detects the user activity and the operation instruction for the first time, the memory does not have the user activity information and the user instruction information, and the big data recommendation setting can be selected at this time. For example, the cloud server is accessed to search and obtain the most frequently set temperature, indoor music broadcasting, indoor brightness and the like of the air conditioner of the user in the morning and the city, and the setting mode is recommended to the user. The cloud server inquires that 80% of users open the curtain and listen to the music broadcast at 7 am, and 60% of users in the same city set the air conditioner to 26 degrees at 7 am. Ask the user by voice "do you set a morning rest scene recommended for you for big data on the balcony? Time: early 7, response position: balcony, scene content: the intelligent loudspeaker plays music, the intelligent air conditioner temperature is 26 ℃, and the intelligent curtain is opened. If the answer of the user is yes, the relevant scene is set here, and the position information, the time information and the user instruction information are transferred to the memory. And if the user selects no, awakening the user-defined setting module.

Further, for user-defined settings, as shown in fig. 7, the method for controlling the internet of things device includes:

b100, generating a thermodynamic diagram according to the activity area map, the stay times, the stay time, the stay duration and the user instruction information, and displaying the thermodynamic diagram;

b200, receiving a touch thermodynamic diagram instruction of a user, and acquiring a target activity area corresponding to the touch point;

b300, receiving an input instruction of a user, performing time setting and state setting on the Internet of things equipment in the target activity area, and generating time setting information and state setting information;

b400, saving the target activity area, the time setting information and the state setting information.

Specifically, the state setting means that a user sets a trigger state instruction for the internet of things equipment, such as turning off an intelligent air conditioner; the time setting refers to setting the time for triggering the state instruction for the internet of things equipment, such as the intelligent air conditioner is turned off at 11 pm. That is to say, the user accessible shows the thermodynamic diagram on the terminal screen or the big screen of intelligence of other thing networking, directly operates the thermodynamic diagram, and then accomplishes the control to thing networking equipment, and is very convenient. Specifically, when a user triggers a custom setting, a radar thermodynamic diagram is generated according to the user activity information, and the residence track of the user indoors every hour on the day is displayed. The more the user stays in a certain activity area, the darker the thermodynamic diagram is, and the lighter the thermodynamic diagram is; the user clicks on the darkest active region of the radar thermodynamic diagram color and can view the action performed at that location over time.

The radar thermodynamic diagrams can be presented at a terminal and an intelligent large-screen terminal, the selection of the equipment depends on the mode of awakening the function by a user, and each time the user triggers the function, the thermodynamic diagrams before the triggering time are displayed. And when the user clicks the radar map, acquiring user activity information of the touch point position, and presenting the user activity information in a popup window form. The user can select any area of the thermodynamic diagram, and the action of the corresponding intelligent device is set in the popup window. For example, a user clicks a position of 45 degrees and 0.5 meter in front of the thermodynamic diagram smart television at an angle of 45 degrees, and inputs ' 11 night, the smart television is turned off, the smart air conditioner is turned off, the intelligent panel lamp is turned off ', ' 11 night ' is set time, ' the smart television is turned off, the smart air conditioner is turned off, and the intelligent panel lamp is turned off; store "11 o' clock evening" as time setting information, close "intelligent TV, intelligent air conditioner is closed, and intelligent panel light is closed" and is stored as state setting information, save above-mentioned positional information in the memory simultaneously.

Therefore, the invention detects the position of the user based on the AI radar, recommends the intelligent scene according to the most frequently-occurring position of the user, and inquires whether the user starts or closes the intelligent scene through voice, thereby improving the convenience of controlling the equipment of the Internet of things.

Further, as shown in fig. 8, based on the control method of the internet of things device, the present invention also provides a terminal, which includes a processor 10 and a memory 20. Fig. 8 shows only some of the components of the terminal, but it is to be understood that not all of the shown components are required to be implemented, and that more or fewer components may be implemented instead.

The memory 20 may in some embodiments be an internal storage unit of the terminal, such as a hard disk or a memory of the terminal. The memory 20 may also be an external storage device of the terminal in other embodiments, such as a plug-in hard disk, a Smart Media Card (SMC), a Secure Digital (SD) Card, a Flash memory Card (Flash Card), and the like provided on the terminal. Further, the memory 20 may also include both an internal storage unit and an external storage device of the terminal. The memory 20 is used for storing application software installed in the terminal and various types of data, such as program codes for installing the terminal. The memory 20 may also be used to temporarily store data that has been output or is to be output. In an embodiment, the memory 20 stores a control program 30 of an internet of things device, and the control program 30 of the internet of things device can be executed by the processor 10, so as to implement the method for controlling the internet of things device in the present application.

The processor 10 may be, in some embodiments, a Central Processing Unit (CPU), a microprocessor or other data Processing chip, and is configured to run program codes stored in the memory 20 or process data, for example, execute a control method of the internet of things device, and the like.

In one embodiment, when the processor 10 executes the control program 30 of the internet of things device in the memory 20, the following steps are implemented:

The obtaining of the user activity information and before determining the target activity area where the user is located according to the user activity information further include:

The acquiring of the user activity information and the determining of the target activity area where the user is located according to the user activity information comprise:

The obtaining of the user instruction information received by the internet of things device in the target activity area and the establishing of the corresponding relation between the user activity information and the user instruction information according to a preset rule comprise:

and acquiring the staying time period of the user according to the staying time and the staying duration, and establishing the corresponding relation between the user activity information and the user instruction information according to the corresponding relation between the staying time period and the instruction generation time.

When it is detected that the current activity of the user accords with the user activity information, before searching for user instruction information corresponding to the user activity information according to the corresponding relationship and controlling the internet of things equipment according to the user instruction information, the method further comprises:

When the current activity of the user is detected to accord with the user activity information, searching user instruction information corresponding to the user activity information according to the corresponding relation, and controlling the Internet of things equipment according to the user instruction information, the method comprises the following steps:

When the processor 10 executes the control program 30 of the internet of things device in the memory 20, the following steps are also realized:

and when the confirmed selection of the user on the recommended mode prompt information is received, controlling the Internet of things equipment according to the recommended set mode.

The present invention also provides a computer-readable storage medium storing a computer program executable for implementing the steps of the method for controlling an internet of things device as described above.

In summary, the present invention discloses a method for controlling an internet of things device, a terminal and a computer-readable storage medium, where the method includes: acquiring user activity information, and determining a target activity area where a user is located according to the user activity information; acquiring user instruction information received by the Internet of things equipment in the target activity area, and establishing a corresponding relation between the user activity information and the user instruction information according to a preset rule; and when the current activity of the user is detected to accord with the user activity information, searching user instruction information corresponding to the user activity information according to the corresponding relation, and controlling the Internet of things equipment according to the user instruction information. According to the method and the device, the corresponding relation between the user activity information and the user instruction information is established, the operation that the user wants to realize on the Internet of things equipment is actively judged according to the user activity, the Internet of things equipment is not required to be controlled by operating the mobile phone APP or the intelligent panel, and the convenience of controlling the Internet of things equipment is improved.

It is to be understood that the invention is not limited to the examples described above, but that modifications and variations may be effected thereto by those of ordinary skill in the art in light of the foregoing description, and that all such modifications and variations are intended to be within the scope of the invention as defined by the appended claims.

Claims

1. A control method of Internet of things equipment is characterized by comprising the following steps:

2. The method for controlling internet of things equipment according to claim 1, wherein before the obtaining user activity information and determining a target activity area where a user is located according to the user activity information, the method further comprises:

3. The method for controlling internet of things equipment according to claim 2, wherein the obtaining user activity information and determining a target activity area where the user is located according to the user activity information comprises:

4. The method for controlling internet of things equipment according to claim 3, wherein the obtaining user instruction information received by the internet of things equipment in the target activity area, and establishing the corresponding relationship between the user activity information and the user instruction information according to a preset rule comprises:

5. The method for controlling internet of things equipment according to claim 4, wherein when it is detected that the current activity of the user matches the user activity information, the method further includes, before searching for user instruction information corresponding to the user activity information according to the correspondence and controlling the internet of things equipment according to the user instruction information:

6. The method for controlling an internet of things device according to claim 5, wherein when it is detected that the current activity of the user matches the user activity information, searching for user instruction information corresponding to the user activity information according to the correspondence, and controlling the internet of things device according to the user instruction information includes:

7. The method for controlling internet of things equipment according to claim 1, further comprising:

8. The method for controlling internet of things equipment according to claim 3, further comprising:

9. A terminal, comprising: the control method comprises a memory, a processor and a control program of the internet of things equipment, wherein the control program of the internet of things equipment is stored in the memory and can run on the processor, and when being executed by the processor, the control method of the internet of things equipment realizes the steps of the control method of the internet of things equipment according to any one of claims 1-8.

10. A computer-readable storage medium, characterized in that the computer-readable storage medium stores a computer program which can be executed for implementing the steps of the method for controlling an internet of things device according to any one of claims 1 to 8.