WO2022205900A1 - Device control method and apparatus, electronic device, and storage medium - Google Patents

Abstract

A device control method and apparatus, an electronic device, and a storage medium. The method comprises: obtaining air quality parameters of a space to be controlled, and determining, on the basis of preset air quality conditions, whether an air quality parameter to be optimized exists; if an air quality parameter to be optimized exists, detecting whether there is a person in said space; and if there is a person in said space, controlling a parameter control device corresponding to the air quality parameter to be optimized to perform air management. The method can alleviate the problem that air quality is limited to human active control, and realizes automatic control of the parameter control device.

Description

Device control method, device, electronic device and storage medium

CROSS-REFERENCE TO RELATED APPLICATIONS

This application claims the priority of the Chinese Patent Application No. 202110363672.9, filed on April 2, 2021, and entitled "Device Control Method, Device, Electronic Device, and Storage Medium", which is incorporated herein by reference in its entirety.

technical field

The present application relates to the field of smart home technology, and in particular, to a device control method, device, electronic device and storage medium.

Background technique

With the development of economy and science and technology, people's awareness of environmental pollution on human body is increasing, and people pay more and more attention to clean environment. Air purification equipment and air conditioners and other equipment closely related to air quality management are gradually becoming popular.

In daily life, people usually install air conditioners, humidifiers and other equipment in the room. When the indoor air needs to be improved, the air quality can be improved manually by controlling the corresponding equipment to meet their expected standards. For example, adjust the indoor air through the air conditioner. temperature, adjust the room temperature with a humidifier.

However, the above-mentioned improvement of air quality through corresponding equipment requires manual active control, which is very inconvenient in some cases. For example, when adults go out and only children are at home and the indoor air quality is not good, children cannot improve air quality through corresponding equipment. . At this time, how to improve the current situation has become an urgent problem to be solved.

SUMMARY OF THE INVENTION

The present application provides an equipment control method, device, electronic equipment and storage medium, which are used to solve the defect in the prior art that human beings are required to actively control equipment to improve air quality, and realize automatic control of parameter control equipment to improve air quality.

The application provides a device control method, including:

Obtain various air quality parameters of the space to be controlled, and determine whether there are air quality parameters to be optimized based on preset air quality conditions;

If there is an air quality parameter to be optimized, detecting whether there is a person in the space to be controlled;

If there is a person in the space to be controlled, the parameter control device corresponding to the air quality parameter to be optimized is controlled to perform air management.

According to a device control method provided by the present application, the method for determining the preset air quality condition includes:

The preset air quality condition is determined based on at least one of a current time period, a type of an area where the space to be controlled is located, a type of people in the space to be controlled, and user settings.

A device control method is provided according to the present application, wherein the predetermined time period is determined based on at least one of the current period, the type of the area where the space to be controlled is located, the type of personnel in the space to be controlled, and user settings. Set air quality conditions, including:

determining a control theme based on at least one of the current time period, the type of the area where the space to be controlled is located, the type of personnel in the space to be controlled, and user settings;

A target value of each air quality parameter under the control theme is determined to construct the preset air quality condition.

A device control method is provided according to the present application, wherein the predetermined time period is determined based on at least one of the current period, the type of the area where the space to be controlled is located, the type of personnel in the space to be controlled, and user settings. Set air quality conditions, including:

From the linkage curves of a plurality of candidate personnel types, select the linkage curves of the personnel types in the space to be controlled, and the linkage curves are used to characterize each air quality parameter and its target value in different time periods;

The air quality parameter and its target value in the current time period are determined from the linkage curve of the person types in the space to be controlled, so as to construct the preset air quality condition.

According to a device control method provided by the present application, the detecting whether there is a person in the space to be controlled includes:

Obtain infrared detection information based on the infrared sensing device disposed in the space to be controlled; and/or,

obtaining a spatial image based on an image sensing device disposed in the to-be-controlled space;

Based on the infrared detection information and/or the space image, it is detected whether there is a person in the space to be controlled.

According to an equipment control method provided by the present application, the control of the parameter control equipment corresponding to the air quality parameter to be optimized to perform air management includes:

Based on each air quality parameter to be optimized and its target value, a control command for each air quality parameter is generated, and the control command is sent to the corresponding parameter control device for the parameter control device to execute the control command;

The target value is determined based on the preset air quality condition.

According to a device control method provided by the present application, the acquiring various air quality parameters of the space to be controlled further includes:

Based on the preset air quality conditions, determine whether there are air quality parameters that do not require optimization;

If there is an air quality parameter that does not need to be optimized, the parameter control device corresponding to the air quality parameter that does not need to be optimized is controlled to be turned off.

The application also provides a device control device, comprising:

an acquisition unit, used to acquire various air quality parameters of the space to be controlled;

a judging unit for judging whether there are air quality parameters to be optimized based on preset air quality conditions;

a detection unit for detecting whether there is a person in the space to be controlled;

The control unit is configured to control the parameter control device corresponding to the air quality parameter to be optimized to perform air management.

The present application also provides an electronic device, including a memory, a processor, and a computer program stored on the memory and executable on the processor, where the processor executes the computer program to achieve any of the above The steps of the device control method.

The present application also provides a non-transitory computer-readable storage medium on which a computer program is stored, and when the computer program is executed by a processor, implements the steps of any one of the device control methods described above.

The device control method, device, electronic device and storage medium provided by this application can obtain various air quality parameters of the space to be controlled, and determine whether there are air quality parameters to be optimized in the space to be controlled, thereby realizing the control of the air in the space to be controlled. Real-time detection; if there are air quality parameters to be optimized, detect whether there are people in the space to be controlled, and detect whether there are people in the space to be controlled, which can reduce the energy loss caused by the operation of the equipment when there is no one, and realize targeted control space. Air management; if there are people in the space to be controlled, the parameter control equipment corresponding to the air quality parameters to be optimized is controlled for air management, which solves the problem that the improvement of air quality through equipment is limited by human active control, and realizes automatic parameter control equipment. control to improve air quality.

Description of drawings

In order to illustrate the technical solutions in the present application or the prior art more clearly, the following briefly introduces the accompanying drawings required in the description of the embodiments or the prior art. Obviously, the accompanying drawings in the following description are the For some embodiments of the application, for those of ordinary skill in the art, other drawings can also be obtained according to these drawings without any creative effort.

1 is a schematic flowchart of a device control method provided by the present application;

2 is a schematic structural diagram of a device control device provided by the present application;

FIG. 3 is a schematic structural diagram of an electronic device provided by the present application.

Detailed ways

In order to make the purpose, technical solutions and advantages of the present application clearer, the technical solutions in the present application will be described clearly and completely below with reference to the accompanying drawings in the present application. Obviously, the described embodiments are part of the embodiments of the present application. , not all examples. Based on the embodiments in the present application, all other embodiments obtained by those of ordinary skill in the art without creative work fall within the protection scope of the present application.

FIG. 1 is a schematic flowchart of a device control method provided by the present application. As shown in FIG. 1 , the execution body of the method can be a control device under the indoor intelligent networking, or a server that directly controls each smart device. This application implements This example is not specifically limited. The method includes:

Step 110: Acquire various air quality parameters of the space to be controlled, and determine whether there are air quality parameters to be optimized based on preset air quality conditions.

Here, the space to be controlled is the space that needs air management, and there may be one or multiple spaces to be controlled. In the case of multiple spaces to be controlled, various air quality parameters of each space to be controlled need to be obtained.

The air quality parameter is one or more air indicators of the space to be controlled, such as air temperature, humidity, carbon dioxide content, and total volatile organic compound content. Usually, the changes of various air quality parameters in the space to be controlled in a short period of time are subtle, and people are usually difficult to detect, so it is impossible to judge whether air quality management is necessary. Therefore, it can be determined whether there are air quality parameters to be optimized in the space to be controlled by judging whether the acquired air quality parameters of the space to be controlled meet the preset air quality conditions.

Specifically, an air detector can be used to detect the air quality of the space to be controlled, obtain various air quality parameters of the space to be controlled, and determine whether the acquired air quality parameters of the space to be controlled meet the preset air quality of the space to be controlled condition. Specifically, when judging, each air quality parameter can be compared with its corresponding preset air quality conditions, for example, the content of carbon dioxide in the acquired air quality parameters of the space to be controlled is compared with the preset air quality conditions , to determine whether the content of carbon dioxide in the space to be controlled meets the preset air quality conditions.

If any air quality parameter of the space to be controlled does not meet the preset air quality conditions, it is determined that there are air quality parameters to be optimized in the space to be controlled, and the air quality parameters that do not meet the preset air quality conditions are regarded as the air quality parameters to be optimized. Air quality parameters. When the air quality parameter to be optimized exists in the space to be controlled, step 120 may be executed.

Correspondingly, if the air quality parameters of the space to be controlled all meet the preset air quality conditions of the space to be controlled, it is determined that there is no air quality parameter to be optimized in the space to be controlled, that is, the air quality parameters of the space to be controlled. All are air quality parameters that do not require optimization. At this time, step 120 is not executed, and the process is directly ended.

Step 120, if there is an air quality parameter to be optimized, detect whether there is a person in the space to be controlled.

Here, the air quality parameters to be optimized are parameters that do not satisfy the preset air quality conditions among the acquired air quality parameters. There may be one or more air quality parameters to be optimized, which are related to the specific space to be controlled and the preset air quality conditions.

Specifically, assuming that the air quality parameter to be optimized exists in the space to be controlled, it is detected whether there is a person in the space to be controlled. Detecting whether there is someone in the space to be controlled can reduce the energy loss caused by the operation of the equipment when there is no one, and achieve targeted air management in the space to be controlled. Among them, whether there is a person in the space to be controlled can be detected through the human infrared sensor.

If it is determined that there is someone, step 130 may be executed.

Step 130, if there is a person in the space to be controlled, control the parameter control device corresponding to the air quality parameter to be optimized to perform air management.

Here, someone in the space to be controlled means that the sensor detects that there is someone in the space to be controlled, and the parameter control device corresponding to the air quality parameter to be optimized in the space to be controlled is controlled to perform air management.

Specifically, if it is detected that there is someone in the to-be-controlled space, the parameter control device corresponding to the air quality parameter to be optimized is controlled to be turned on, and the turned-on parameter control device performs air management in the to-be-controlled space. The parameter control device may be an air conditioner, an air purifier, or a humidifier or a fresh air fan, which is not specifically limited in the embodiment of the present application. There may be one parameter control device, or there may be multiple ones, which correspond one-to-one with the air quality parameters to be optimized. Based on the air quality parameters to be optimized, the parameter control equipment is correspondingly turned on to manage the air in the space to be controlled.

Correspondingly, if no one is detected in the space to be controlled, that is, the space to be controlled is unmanned in the current period, there is no need to control the operating state of the parameter control equipment corresponding to the air quality parameter to be optimized in the space to be controlled, that is, no Air management of the controlled space.

The device control method provided by the embodiment of the present application acquires various air quality parameters of the space to be controlled, and determines whether there are air quality parameters to be optimized in the space to be controlled, thereby realizing real-time detection of the air in the space to be controlled; The optimized air quality parameters can detect whether there are people in the space to be controlled, and detect whether there are people in the space to be controlled, which can reduce the energy loss caused by the operation of the equipment when there is no one, and achieve targeted air management in the space to be controlled; When there are people in the space, the parameter control equipment corresponding to the air quality parameters to be optimized is controlled for air management, which solves the problem that the improvement of air quality through equipment is limited by human active control, and realizes the automatic control of parameter control equipment to improve air quality. .

Based on the above embodiment, step 110 includes:

The preset air quality condition is determined based on at least one of a current time period, a type of an area where the space to be controlled is located, a type of people in the space to be controlled, and user settings.

Here, the type of the area where the space to be controlled may be located may be a kitchen, a living room, or a bedroom or a study, which is not specifically limited in this embodiment of the present application. The types of persons in the space to be controlled may be the elderly and children, and may also be teenagers and youth, which are not specifically limited in this embodiment of the present application.

Specifically, various air quality parameters of the space to be controlled are different in different time periods, and the preset air quality conditions to be determined are also different, and various air quality parameters of the space to be controlled change with the change of the time period. Since the air detection device detects the air in the space to be controlled in real time, the acquired air quality parameters of the space to be controlled are real-time, that is, the acquired air quality parameters of the space to be controlled in the current period. Therefore, the preset air quality conditions for the current period can be determined based on various air quality parameters of the space to be controlled in the current period.

Different types of areas where the space to be controlled is located will result in different air quality parameters of the space to be controlled. That is, the air quality parameters of the space to be controlled are different under different area types, and the determined preset air quality conditions are also different. For example, the type of the area where the space to be controlled is a kitchen and a study room. Obtaining various air quality parameters of the kitchen and study room at the same time period shows that the air temperature and humidity in the kitchen are higher than those in the study room. Therefore, the preset air quality condition may be determined based on the type of area in which the space to be controlled is located.

Usually, the preset air quality condition of the space to be controlled is the most suitable index of various air quality parameters of the space to be controlled. The types of people in the space to be controlled are different, and the optimum indicators of various air quality parameters of the space to be controlled are also different, that is, the preset air quality conditions of the space to be controlled are different. For example, the types of persons in the space to be controlled are the elderly and children, and the most suitable air indicators for the elderly and children in the same space are different, that is, the preset air quality conditions to be determined in the space are different. Therefore, preset air quality conditions may be determined based on the type of persons in the space to be controlled.

The preset air quality conditions may also be determined according to user settings. The same user may have different settings for the preset air quality conditions in different time periods and/or different regions, and different users may have different settings for the preset air quality conditions. Therefore, the preset air quality conditions may be determined based on user settings.

Based on the above embodiment, in step 110, the preset air quality condition is determined based on at least one of the current time period, the type of the area where the space to be controlled is located, the type of people in the space to be controlled, and user settings ,include:

determining a control theme based on at least one of the current time period, the type of the area where the space to be controlled is located, the type of personnel in the space to be controlled, and user settings;

A target value of each air quality parameter under the control theme is determined to construct the preset air quality condition.

Here, the control subject is a specific situation mode including several air quality parameters, and the control subject may be forest, beach, seaside or grassland, which is not specifically limited in this embodiment of the present application.

Specifically, different control topics need to be determined in different time periods, and therefore, the control topics can be determined based on the current time period. Different types of areas where the space to be controlled is located require different control themes. Therefore, the control themes may be determined based on the type of the area where the space to be controlled is located. The types of people in the space to be controlled are different, and the control topics to be determined are different. Thus, the subject of control can be determined based on the type of people in the space to be controlled. The same user may have different settings for control themes in different time periods and/or different regions, and different users may have different settings for control themes. Therefore, the control theme can be determined based on user settings.

The control theme is determined based on one or more of the current time period, the type of area in which the space to be controlled is located, the type of personnel in the space to be controlled, and user settings.

Further, after the control theme is determined, the target value of each air quality parameter under the control theme needs to be determined to construct a preset air quality condition. The target value of each air quality parameter is adapted to the control theme to which it belongs, and can be the most suitable index of each air quality parameter under the control theme, thereby constituting the preset air quality condition under the control theme.

Based on the above embodiment, in step 110, the preset air quality condition is determined based on at least one of the current time period, the type of the area where the space to be controlled is located, the type of people in the space to be controlled, and user settings ,include:

From the linkage curves of a plurality of candidate personnel types, select the linkage curves of the personnel types in the space to be controlled, and the linkage curves are used to characterize each air quality parameter and its target value in different time periods;

The air quality parameter and its target value in the current time period are determined from the linkage curve of the person types in the space to be controlled, so as to construct the preset air quality condition.

Here, the linkage curve of the candidate type is each air quality parameter and its target value in different time periods; the candidate type may be one type or multiple types.

Specifically, in the case of multiple candidate personnel types, the linkage curve of the personnel type in the space to be controlled is selected from the linkage curves of the multiple candidate personnel types. Wherein, the linkage curve of the types of persons in the space to be controlled represents each air quality parameter and its target value of the persons in the space to be controlled in different time periods.

Further, the linkage curve of the types of people in the space to be controlled includes each air quality parameter and its target value in different time periods, and the air quality parameter and its target value in the current time period are determined from each air quality parameter and its target value in different time periods. Target value, the preset air quality conditions can be constructed according to the air quality parameters and their target values in the current period.

Based on the above embodiment, step 120 includes:

Obtain infrared detection information based on the infrared sensing device disposed in the space to be controlled; and/or,

obtaining a spatial image based on an image sensing device disposed in the to-be-controlled space;

Based on the infrared detection information and/or the space image, it is detected whether there is a person in the space to be controlled.

Here, the infrared sensing device is a sensing device that can sense infrared rays radiated by a target and use the physical properties of infrared rays to measure. The infrared sensing device may be a human body infrared sensor, or other devices. The embodiments of the present application are for this purpose. There is no specific limitation. An image sensing device is a sensing device that uses the photoelectric conversion function of a photoelectric device to convert the light image on the photosensitive surface into an electrical signal that is proportional to the light image. The image sensing device can be an image sensor or other sensors. sensor device, which is not specifically limited in this embodiment of the present application. Wherein, the infrared sensing device and/or the image sensing device are arranged in the space to be controlled.

Specifically, the infrared detection information is acquired through an infrared sensing device disposed in the space to be controlled; and whether there is a person in the space to be controlled is detected according to the acquired infrared detection information.

A space image is acquired through an image sensing device disposed in the space to be controlled; and whether there is a person in the space to be controlled is detected according to the space image.

According to the infrared sensing device and the image sensing device arranged in the space to be controlled, the infrared detection information and the space image of the space to be controlled are obtained respectively; and whether there is a person in the space to be controlled is detected according to the infrared detection information and the space image.

Based on the above embodiment, step 130 includes:

Based on each air quality parameter to be optimized and its target value, a control command for each air quality parameter is generated, and the control command is sent to the corresponding parameter control device for the parameter control device to execute the control command;

The target value is determined based on the preset air quality condition.

Specifically, the control instruction is generated according to each air quality parameter to be optimized in the space to be controlled and the target value of each air quality parameter to be optimized. The target value of each air quality parameter to be optimized is determined according to the preset air quality condition of the space to be controlled, and the generated control instruction corresponds to each air quality parameter to be optimized.

Further, the generated control instructions of each air quality parameter are sent to the parameter control equipment corresponding to each air quality parameter to be optimized, so that the parameter control equipment executes the corresponding control instruction, and controls the corresponding air quality parameter to be optimized. The parameter control device performs air management, so that each air quality parameter to be optimized in the space to be controlled reaches its target value, thereby making each air quality parameter of the space to be controlled meet the preset air quality conditions.

Based on the above-mentioned embodiment, in step 110, various air quality parameters of the space to be controlled are acquired, and then further includes:

Based on the preset air quality conditions, determine whether there are air quality parameters that do not require optimization;

If there is an air quality parameter that does not need to be optimized, the parameter control device corresponding to the air quality parameter that does not need to be optimized is controlled to be turned off.

Here, the air quality parameters that do not need to be optimized are the parameters that satisfy the preset air quality conditions among the air quality parameters of the space to be controlled, and there may be one or more air quality parameters that do not need to be optimized. Controlled space and preset air quality conditions.

Specifically, various air quality parameters of the space to be controlled are acquired, and according to whether the acquired air quality parameters of the space to be controlled meet the preset air quality conditions of the space to be controlled, it is determined whether there is air in the space to be controlled that does not require optimization quality parameters.

Further, if any air quality parameter of the space to be controlled meets the preset air quality conditions, it is determined that there are air quality parameters in the space to be controlled that do not need to be optimized, and the parameters corresponding to the air quality parameters that do not need to be optimized in the space to be controlled are controlled. The control device is turned off.

In the device control method provided by the embodiment of the present application, by judging whether the acquired air quality parameters of the space to be controlled meet the preset air quality conditions, it is judged whether there are air quality parameters in the space to be controlled that do not need to be optimized, and then it is judged whether The parameter control device corresponding to the air quality parameter that does not need to be optimized is closed, and when any air quality parameter of the space to be controlled meets the preset air quality condition, the parameter control device corresponding to the air quality parameter is controlled to be closed, and the parameter Automatic control of control equipment to improve air quality.

The device control apparatus provided by the present application is described below, and the device control apparatus described below and the device control method described above can be referred to each other correspondingly.

FIG. 2 is a schematic structural diagram of a device control device provided by the present application. As shown in Figure 2, the device includes:

an acquisition unit 210, configured to acquire various air quality parameters of the space to be controlled;

a judgment unit 220, configured to judge whether there is an air quality parameter to be optimized based on a preset air quality condition;

a detection unit 230, configured to detect whether there is a person in the space to be controlled;

The control unit 240 is configured to control the parameter control device corresponding to the air quality parameter to be optimized to perform air management.

The equipment control device provided by the present application acquires various air quality parameters of the space to be controlled, and determines whether there are air quality parameters to be optimized in the space to be controlled, thereby realizing real-time detection of the air in the space to be controlled; The air quality parameter is to detect whether there are people in the space to be controlled, and to detect whether there are people in the space to be controlled can reduce the energy loss caused by the operation of the equipment when no one is there, and achieve targeted air management in the space to be controlled; If there is someone, control the parameter control equipment corresponding to the air quality parameters to be optimized for air management, which solves the problem that the improvement of air quality through equipment is limited by human active control, and realizes the automatic control of parameter control equipment to improve air quality.

On the basis of any of the foregoing embodiments, the apparatus further includes a determining unit, configured to:

The preset air quality condition is determined based on at least one of a current time period, a type of an area where the space to be controlled is located, a type of people in the space to be controlled, and user settings.

On the basis of any of the above embodiments, the determining unit is used for:

determining a control theme based on at least one of the current time period, the type of the area where the space to be controlled is located, the type of personnel in the space to be controlled, and user settings;

A target value of each air quality parameter under the control theme is determined to construct the preset air quality condition.

On the basis of any of the above embodiments, the determining unit is used for:

From the linkage curves of a plurality of candidate personnel types, select the linkage curves of the personnel types in the space to be controlled, and the linkage curves are used to characterize each air quality parameter and its target value in different time periods;

The air quality parameter and its target value in the current time period are determined from the linkage curve of the person types in the space to be controlled, so as to construct the preset air quality condition.

On the basis of any of the above embodiments, the detection unit 230 is used for:

Obtain infrared detection information based on the infrared sensing device disposed in the space to be controlled; and/or,

obtaining a spatial image based on an image sensing device disposed in the to-be-controlled space;

Based on the infrared detection information and/or the space image, it is detected whether there is a person in the space to be controlled.

On the basis of any of the above embodiments, the control unit 240 is used to:

Based on each air quality parameter to be optimized and its target value, a control instruction for each air quality parameter is generated, and the control instruction is sent to the corresponding parameter control device for the parameter control device to execute the control instruction;

The target value is determined based on the preset air quality condition.

On the basis of any of the above embodiments, the control unit 240 is used to:

Based on the preset air quality conditions, determine whether there are air quality parameters that do not require optimization;

If there is an air quality parameter that does not need to be optimized, the parameter control device corresponding to the air quality parameter that does not need to be optimized is controlled to be turned off.

FIG. 3 illustrates a schematic diagram of the physical structure of an electronic device. As shown in FIG. 3 , the electronic device may include: a processor (processor) 310, a communication interface (Communications Interface) 320, a memory (memory) 330 and a communication bus 340, The processor 310 , the communication interface 320 , and the memory 330 communicate with each other through the communication bus 340 . The processor 310 can call the logic instructions in the memory 330 to execute the device control method, the method includes: acquiring various air quality parameters of the space to be controlled, and judging whether there is an air quality parameter to be optimized based on preset air quality conditions ; if there is an air quality parameter to be optimized, detect whether there is a person in the space to be controlled; if there is a person in the space to be controlled, control the parameter control device corresponding to the air quality parameter to be optimized for air management.

In addition, the above-mentioned logic instructions in the memory 330 may be implemented in the form of software functional units and may be stored in a computer-readable storage medium when sold or used as an independent product. Based on this understanding, the technical solution of the present application can be embodied in the form of a software product in essence, or the part that contributes to the prior art or the part of the technical solution. The computer software product is stored in a storage medium, including Several instructions are used to cause a computer device (which may be a personal computer, a server, or a network device, etc.) to execute all or part of the steps of the methods described in the various embodiments of the present application. The aforementioned storage medium includes: U disk, mobile hard disk, Read-Only Memory (ROM, Read-Only Memory), Random Access Memory (RAM, Random Access Memory), magnetic disk or optical disk and other media that can store program codes .

In another aspect, the present application also provides a computer program product, the computer program product comprising a computer program stored on a non-transitory computer-readable storage medium, the computer program comprising program instructions, when the program instructions are executed by a computer When executing, the computer can execute the equipment control method provided by the above methods, and the method includes: acquiring various air quality parameters of the space to be controlled, and judging whether there is an air quality parameter to be optimized based on preset air quality conditions; If there is an air quality parameter to be optimized, it is detected whether there is a person in the space to be controlled; if there is a person in the space to be controlled, the parameter control device corresponding to the air quality parameter to be optimized is controlled to perform air management.

In yet another aspect, the present application also provides a non-transitory computer-readable storage medium on which a computer program is stored, and when the computer program is executed by a processor, the computer program is implemented to execute the device control methods provided above, the method comprising: obtaining Various air quality parameters of the space to be controlled, and based on the preset air quality conditions, determine whether there are air quality parameters to be optimized; if there are air quality parameters to be optimized, detect whether there are people in the space to be controlled; If there is a person in the space to be controlled, the parameter control device corresponding to the air quality parameter to be optimized is controlled to perform air management.

The device embodiments described above are only illustrative, wherein the units described as separate components may or may not be physically separated, and the components shown as units may or may not be physical units, that is, they may be located in One place, or it can be distributed over multiple network elements. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution in this embodiment. Those of ordinary skill in the art can understand and implement it without creative effort.

From the description of the above embodiments, those skilled in the art can clearly understand that each embodiment can be implemented by means of software plus a necessary general hardware platform, and certainly can also be implemented by hardware. Based on this understanding, the above-mentioned technical solutions can be embodied in the form of software products in essence or the parts that make contributions to the prior art, and the computer software products can be stored in computer-readable storage media, such as ROM/RAM, magnetic A disc, an optical disc, etc., includes several instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to perform the methods described in various embodiments or some parts of the embodiments.

Finally, it should be noted that the above embodiments are only used to illustrate the technical solutions of the present application, but not to limit them; although the present application has been described in detail with reference to the foregoing embodiments, those of ordinary skill in the art should understand that: it can still be The technical solutions described in the foregoing embodiments are modified, or some technical features thereof are equivalently replaced; and these modifications or replacements do not make the essence of the corresponding technical solutions deviate from the spirit and scope of the technical solutions in the embodiments of the present application.

Claims (10)

1. A device control method, comprising:

   Obtain various air quality parameters of the space to be controlled, and determine whether there are air quality parameters to be optimized based on preset air quality conditions;

   If there is an air quality parameter to be optimized, detecting whether there is a person in the space to be controlled;

   If there is a person in the space to be controlled, the parameter control device corresponding to the air quality parameter to be optimized is controlled to perform air management.
2. The device control method according to claim 1, wherein the method for determining the preset air quality condition comprises:

   The preset air quality condition is determined based on at least one of a current time period, a type of an area where the space to be controlled is located, a type of people in the space to be controlled, and user settings.
3. The device control method according to claim 2, wherein the method is based on at least one of the current time period, the type of the area where the space to be controlled is located, the type of personnel in the space to be controlled, and user settings, Determining the preset air quality conditions includes:

   determining a control theme based on at least one of the current time period, the type of the area where the space to be controlled is located, the type of personnel in the space to be controlled, and user settings;

   A target value of each air quality parameter under the control theme is determined to construct the preset air quality condition.
4. The device control method according to claim 2, wherein the method is based on at least one of the current time period, the type of the area where the space to be controlled is located, the type of personnel in the space to be controlled, and user settings, Determining the preset air quality conditions includes:

   From the linkage curves of a plurality of candidate personnel types, select the linkage curves of the personnel types in the space to be controlled, and the linkage curves are used to characterize each air quality parameter and its target value in different time periods;

   The air quality parameter and its target value in the current time period are determined from the linkage curve of the person types in the space to be controlled, so as to construct the preset air quality condition.
5. The device control method according to claim 1, wherein the detecting whether there is a person in the space to be controlled comprises:

   Obtain infrared detection information based on the infrared sensing device disposed in the space to be controlled; and/or,

   obtaining a spatial image based on an image sensing device disposed in the to-be-controlled space;

   Based on the infrared detection information and/or the space image, it is detected whether there is a person in the space to be controlled.
6. The device control method according to any one of claims 1 to 5, wherein the controlling the parameter control device corresponding to the air quality parameter to be optimized to perform air management includes:

   Based on each air quality parameter to be optimized and its target value, a control command for each air quality parameter is generated, and the control command is sent to the corresponding parameter control device for the parameter control device to execute the control command;

   The target value is determined based on the preset air quality condition.
7. The device control method according to any one of claims 1 to 5, wherein the acquiring various air quality parameters of the space to be controlled further comprises:

   Based on the preset air quality conditions, determine whether there are air quality parameters that do not require optimization;

   If there is an air quality parameter that does not need to be optimized, the parameter control device corresponding to the air quality parameter that does not need to be optimized is controlled to be turned off.
8. A device control device, characterized in that it includes:

   an acquisition unit, used to acquire various air quality parameters of the space to be controlled;

   a judging unit for judging whether there are air quality parameters to be optimized based on preset air quality conditions;

   a detection unit for detecting whether there is a person in the space to be controlled;

   The control unit is configured to control the parameter control device corresponding to the air quality parameter to be optimized to perform air management.
9. An electronic device, comprising a memory, a processor, and a computer program stored on the memory and running on the processor, characterized in that, when the processor executes the program, the implementation of claims 1 to 7 Any one of the steps of the device control method.
10. A non-transitory computer-readable storage medium on which a computer program is stored, characterized in that, when the computer program is executed by a processor, the steps of the device control method according to any one of claims 1 to 7 are implemented.

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