CN113007875B - Control method and device of air conditioner, storage medium and processor - Google Patents

Abstract

The invention discloses a control method and a control device of an air conditioner, a storage medium and a processor, wherein the control method of the air conditioner comprises the following steps: controlling the air conditioner to enter a control state in response to the operation of a user; determining whether the air conditioner receives a first control signal within a first preset time period t1 after entering a control state; if the first control signal is not received within a first preset time t1 after the air conditioner enters the control state, controlling the air conditioner to operate in a first mode; and if the first control signal is received within a first preset time period t1 after the air conditioner enters the control state, controlling the air conditioner to operate in the second mode. The control method of the air conditioner solves the problem that the air conditioner in the prior art is inconvenient to control.

Description

Control method and device of air conditioner, storage medium and processor

Technical Field

The invention relates to the field of air conditioners, in particular to a control method and device of an air conditioner, a storage medium and a processor.

Background

With the development of economy and the improvement of the living standard of people, the application of the air conditioner is more and more extensive, and the requirements of people on the comfort and the intellectualization of the air conditioner are higher and higher.

The existing air conditioner usually depends on a user to control the air conditioner through a remote controller when in use, more control operations are needed when in use, the operation is more complicated, and the efficiency is lower.

In view of the above problems, no effective solution has been proposed.

The above information disclosed in the background section is only for enhancement of understanding of the background of the technology described herein. The background art may therefore contain certain information that does not form the known prior art to those skilled in the art.

Disclosure of Invention

The embodiment of the invention provides a control method and device of an air conditioner, a storage medium and a processor, which are used for at least solving the problem that the air conditioner in the prior art is inconvenient to control.

In order to achieve the above object, according to an aspect of an embodiment of the present invention, there is provided a control method of an air conditioner, including: controlling the air conditioner to enter a control state in response to the operation of a user; determining whether the air conditioner receives a first control signal within a first preset time period t1 after entering a control state; if the first control signal is not received within a first preset time t1 after the air conditioner enters the control state, controlling the air conditioner to operate in a first mode; and if the first control signal is received within a first preset time period t1 after the air conditioner enters the control state, controlling the air conditioner to operate in the second mode.

Further, controlling the air conditioner to operate in a second mode includes: determining a child mode, a cold mode or a motion mode as a second mode according to the first control signal; and controlling the air conditioner to operate in a corresponding second mode.

Further, after controlling the air conditioner to operate in the first mode, the control method of the air conditioner further includes: determining whether the air conditioner receives a second control signal within a second preset time period t2 after operating in the first mode; if the air conditioner does not receive the second control signal within a second preset time t2 after the air conditioner operates in the first mode, determining a first operation parameter according to the current weather data, and controlling the air conditioner to operate at the first operation parameter; and if the air conditioner receives a second control signal within a second preset time period t2 after the air conditioner operates in the first mode, determining a second operation parameter according to the second control signal, and controlling the air conditioner to operate at the second operation parameter.

Further, determining a first operating parameter based on the current weather data includes: determining a first operation parameter according to current weather data and a preset database, wherein the preset database comprises a mapping relation between a plurality of historical weather data and a plurality of historical operation parameters; after determining the first operating parameter according to the weather data, before controlling the air conditioner to operate at the first operating parameter, the control method of the air conditioner further includes: calculating a difference value between historical weather data corresponding to the first operation parameter in a preset database and current weather data; if the difference value between the historical weather data corresponding to the first operation parameter in the preset database and the current weather data is smaller than or equal to a first preset value, determining the historical operation parameter corresponding to the historical weather data as the first operation parameter; and if the difference value between the historical weather data corresponding to the first operation parameter and the current weather data in the preset database is greater than a first preset value, determining that the received operation parameter is the first operation parameter, and adding the mapping relation between the received operation parameter and the current weather data into the preset database.

Further, determining a first operating parameter based on the current weather data includes: inputting current weather data into a first pattern recognition model in a preset database, and determining a first operating parameter according to an output result of the first pattern recognition model, wherein the first pattern recognition model is obtained by using multiple groups of data through machine learning training, and each group of data in the multiple groups of data comprises: historical weather data and historical operating parameters with mapping relationships.

Further, after controlling the air conditioner to operate in the second mode, the control method of the air conditioner further includes: determining whether the air conditioner receives a second control signal within a second preset time period t2 after operating in the second mode; if the air conditioner does not receive the second control signal within a second preset time t2 after the air conditioner operates in the second mode, determining a third operation parameter according to the current body data of the user, and controlling the air conditioner to operate at the third operation parameter; and if the air conditioner receives the second control signal within a second preset time period t2 after the air conditioner operates in the second mode, determining a fourth operation parameter according to the second control signal, and controlling the air conditioner to operate at the fourth operation parameter.

Further, determining a third operational parameter based on the current body data of the user, comprises: determining a third operation parameter according to the current body data of the user and a preset database, wherein the preset database comprises the mapping relation between a plurality of user body data and a plurality of historical operation parameters; after determining the third operation parameter according to the current body data of the user, before controlling the air conditioner to operate at the third operation parameter, the control method of the air conditioner further includes: calculating a difference value between the user body data corresponding to the third operation parameter in the preset database and the current body data of the user; if the difference value between the user body data corresponding to the third operation parameter in the preset database and the current body data of the user is smaller than or equal to a second preset value, determining the historical operation parameter corresponding to the user body data as the third operation parameter; and if the difference value between the user body data corresponding to the third operation parameter in the preset database and the current body data of the user is greater than a second preset value, determining the received operation parameter as the third operation parameter, and adding the mapping relation between the received operation parameter and the current body data of the user into the preset database.

Further, determining a third operational parameter based on the current body data of the user, comprises: inputting the current body data of the user into a second pattern recognition model in a preset database, and determining a third operating parameter according to an output result of the second pattern recognition model, wherein the second pattern recognition model is obtained by using multiple groups of data through machine learning training, and each group of data in the multiple groups of data comprises: user body data and historical operating parameters with mapping relationships.

According to a second aspect of the embodiments of the present invention, there is provided a control apparatus of an air conditioner, including: a first control unit for controlling the air conditioner to enter a control state in response to a user's operation; the first determining unit is used for determining whether the air conditioner receives a first control signal within a first preset time period t1 after entering the control state; the second control unit is used for controlling the air conditioner to operate in the first mode when the first control signal is not received within a first preset time t1 after the air conditioner enters the control state; and the third control unit is used for receiving the first control signal within a first preset time period t1 after the air conditioner enters the control state, and controlling the air conditioner to operate in the second mode.

According to a third aspect of embodiments of the present invention, there is provided a nonvolatile storage medium including a stored program, wherein an apparatus in which the nonvolatile storage medium is controlled at the time of execution of the program performs the control method of the air conditioner described above.

According to a fourth aspect of the embodiments of the present invention, there is provided a processor for executing a program, wherein the program executes the control method of the air conditioner.

The control method of the air conditioner applying the technical scheme of the invention comprises the following steps: controlling the air conditioner to enter a control state in response to the operation of a user; determining whether the air conditioner receives a first control signal within a first preset time period t1 after entering a control state; if the first control signal is not received within a first preset time t1 after the air conditioner enters the control state, controlling the air conditioner to operate in a first mode; and if the first control signal is received within a first preset time period t1 after the air conditioner enters the control state, controlling the air conditioner to operate in the second mode. After the air conditioner enters the control state, if the user inputs the first control signal within the first preset time period t1, the air conditioner may be controlled to operate in the second mode according to the first control signal, and if the user does not input the first control signal within the first preset time period t1, the air conditioner may automatically operate in the first mode. Therefore, the air conditioner can automatically operate in the first mode and can operate in the second mode according to the first control signal input by the user, on the basis of ensuring the use flexibility of the air conditioner, the control logic is effectively simplified, the control of the air conditioner is simpler and more convenient, and the problem of inconvenience in control of the air conditioner in the prior art is solved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the invention without limiting the invention. In the drawings:

fig. 1 is a schematic flow chart of an alternative embodiment of a control method of an air conditioner according to the present invention;

fig. 2 is a flowchart illustrating a method of controlling an air conditioner according to an embodiment of a method of controlling an air conditioner of the present invention to operate in a first mode;

fig. 3 is a flowchart illustrating a method of controlling an air conditioner according to an embodiment of a method of controlling an air conditioner of the present invention to operate in a second mode;

fig. 4 is a schematic view of an embodiment of a control apparatus of an air conditioner according to the present invention.

Detailed Description

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present application will be described in detail below with reference to the embodiments with reference to the attached drawings.

In order to make the technical solutions of the present invention better understood, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that the terms "first," "second," and the like in the description and claims of the present invention and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the invention described herein are capable of operation in sequences other than those illustrated or described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

It will be understood that when an element such as a layer, film, region, or substrate is referred to as being "on" another element, it can be directly on the other element or intervening elements may also be present. Also, in the specification and claims, when an element is described as being "connected" to another element, the element may be "directly connected" to the other element or "connected" to the other element through a third element.

Fig. 1 to 3 are control methods of an air conditioner according to an embodiment of the present invention, as shown in fig. 1, the method including the steps of:

step S102, responding to the operation of a user, controlling the air conditioner to enter a control state;

step S104, determining whether the air conditioner receives a first control signal within a first preset time t1 after entering a control state;

step S106, if the first control signal is not received within the first preset time period t1 after the air conditioner enters the control state, the air conditioner is controlled to operate in the first mode.

In step S108, if the first control signal is received within the first preset time period t1 after the air conditioner enters the control state, the air conditioner is controlled to operate in the second mode.

Through the above steps, after the air conditioner enters the control state, if the user inputs the first control signal within the first preset time period t1, the air conditioner may be controlled to operate in the second mode according to the first control signal, and if the user does not input the first control signal within the first preset time period t1, the air conditioner may automatically operate in the first mode. Therefore, the air conditioner can automatically operate in the first mode and can operate in the second mode according to the first control signal input by the user, on the basis of ensuring the use flexibility of the air conditioner, the control logic is effectively simplified, the control of the air conditioner is simpler and more convenient, and the problem of inconvenience in control of the air conditioner in the prior art is solved.

In particular, in order to enable the air conditioner to enter the control state in response to the operation of the user, various human-computer interaction structures can be adopted to realize the interaction between the user and the air conditioner, such as a touch display screen, a keyboard, voice and the like.

Specifically, controlling the air conditioner to operate in a second mode includes: determining a child mode, a cold mode or a motion mode as a second mode according to the first control signal; and controlling the air conditioner to operate in a corresponding second mode. In this way, different modes can be selected to be operated as the second mode according to the first signal, thereby effectively improving the flexibility of the air conditioner.

On the basis of realizing the mode control function, in order to further improve the control flexibility of the air conditioner, after controlling the air conditioner to operate in the first mode, the control method of the air conditioner further comprises the following steps: determining whether the air conditioner receives a second control signal within a second preset time period t2 after operating in the first mode; if the air conditioner does not receive the second control signal within a second preset time t2 after the air conditioner operates in the first mode, determining a first operation parameter according to the current weather data, and controlling the air conditioner to operate at the first operation parameter; and if the air conditioner receives a second control signal within a second preset time period t2 after the air conditioner operates in the first mode, determining a second operation parameter according to the second control signal, and controlling the air conditioner to operate at the second operation parameter.

In order to make the air conditioner better adapt to the current weather condition when the air conditioner operates in the first mode and improve the comfort of the air conditioner in use, the first operation parameter is determined according to the current weather data, and the method comprises the following steps: determining a first operation parameter according to current weather data and a preset database, wherein the preset database comprises a mapping relation between a plurality of historical weather data and a plurality of historical operation parameters; after determining the first operating parameter according to the weather data, before controlling the air conditioner to operate at the first operating parameter, the control method of the air conditioner further includes: calculating a difference value between historical weather data corresponding to the first operation parameter in a preset database and current weather data; if the difference value between the historical weather data corresponding to the first operation parameter in the preset database and the current weather data is smaller than or equal to a first preset value, determining the historical operation parameter corresponding to the historical weather data as the first operation parameter; and if the difference value between the historical weather data corresponding to the first operation parameter and the current weather data in the preset database is greater than a first preset value, determining that the received operation parameter is the first operation parameter, and adding the mapping relation between the received operation parameter and the current weather data into the preset database. Therefore, if the difference value between the current weather data and the historical weather data in the database is large, the new operation parameters can be received as the first operation parameters so as to more reasonably control the air conditioner to work, and the current weather data and the updated first operation parameters are stored in the preset database so as to conveniently control the air conditioner when the next weather condition is similar.

In the implementation, the weather data may be temperature, humidity, etc., and may also be other parameters, such as oxygen concentration, carbon dioxide concentration, harmful gas concentration, etc.

In this embodiment, determining the first operating parameter according to the current weather data includes: inputting current weather data into a first pattern recognition model in a preset database, and determining a first operating parameter according to an output result of the first pattern recognition model, wherein the first pattern recognition model is obtained by using multiple groups of data through machine learning training, and each group of data in the multiple groups of data comprises: historical weather data and historical operating parameters with mapping relationships. By adopting the machine learning to train the first pattern recognition model, the first pattern recognition model obtained after the neural network model training can more accurately determine the first operation parameter according to the current weather data, and the accuracy of controlling the air conditioner is improved.

Specifically, after controlling the air conditioner to operate in the second mode, the control method of the air conditioner further includes: determining whether the air conditioner receives a second control signal within a second preset time period t2 after operating in the second mode; if the air conditioner does not receive the second control signal within a second preset time t2 after the air conditioner operates in the second mode, determining a third operation parameter according to the current body data of the user, and controlling the air conditioner to operate at the third operation parameter; and if the air conditioner receives the second control signal within a second preset time period t2 after the air conditioner operates in the second mode, determining a fourth operation parameter according to the second control signal, and controlling the air conditioner to operate at the fourth operation parameter. Thus, when the air conditioner operates in the second mode, if the second control signal is input within the second preset time period t2, the fourth operation parameter may be determined according to the second control signal, so that the air conditioner operates at the fourth operation parameter. If the second control signal is not input within the second preset time period t2, determining a third operation parameter according to the current body data of the user, and controlling the air conditioner to operate according to the third operation parameter, which is not only beneficial to simplifying the control flow of the air conditioner, but also beneficial to improving the accuracy of the air conditioner control, and more accurately meeting the requirements of the user.

Additionally, determining a third operational parameter from the current body data of the user includes: determining a third operation parameter according to the current body data of the user and a preset database, wherein the preset database comprises the mapping relation between a plurality of user body data and a plurality of historical operation parameters; after determining the third operation parameter according to the current body data of the user, before controlling the air conditioner to operate at the third operation parameter, the control method of the air conditioner further includes: calculating a difference value between the user body data corresponding to the third operation parameter in the preset database and the current body data of the user; if the difference value between the user body data corresponding to the third operation parameter in the preset database and the current body data of the user is smaller than or equal to a second preset value, determining the historical operation parameter corresponding to the user body data as the third operation parameter; and if the difference value between the user body data corresponding to the third operation parameter in the preset database and the current body data of the user is greater than a second preset value, determining the received operation parameter as the third operation parameter, and adding the mapping relation between the received operation parameter and the current body data of the user into the preset database. Therefore, when the current body data of the user is greatly different from the corresponding body data of the user in the preset database, the user inputs new operation parameters, so that the operation parameters of the air conditioner can be controlled more accurately, and the operation parameters can be stored, and the air conditioner is convenient to use under the subsequent similar conditions.

The user body data may be body temperature, age, amount of motion, etc., for example, when the air conditioner operates in a child mode, the user body data may be age, when the air conditioner operates in a cold mode, the user body data may be body temperature, and when the air conditioner operates in an exercise mode, the user body data may be amount of motion.

Specifically, determining the third operating parameter according to the current body data of the user includes: inputting the current body data of the user into a second pattern recognition model in a preset database, and determining a third operating parameter according to an output result of the second pattern recognition model, wherein the second pattern recognition model is obtained by using multiple groups of data through machine learning training, and each group of data in the multiple groups of data comprises: user body data and historical operating parameters with mapping relationships. By adopting the machine learning to train the second pattern recognition model, the second pattern recognition model obtained after the neural network model training can more accurately determine the first operation parameter according to the current body data of the user, and the accuracy of controlling the air conditioner is improved.

In this embodiment, after entering the control state, the method for controlling the air conditioner further includes obtaining user information, thereby determining the user identity, so as to determine the mode and the operation parameter more specifically. There are many ways to obtain user information, such as touch screen input, image capture device capture, fingerprint capture device capture, infrared sensing device capture, and so on.

In one embodiment of the invention, the air conditioner comprises a display screen for human-computer interaction, wherein the main interface of the display screen comprises room temperature, weather information, a greeting, electric quantity display and network intensity display before identification, and the greeting can be set or not by self; after the identity identification, the system comprises a basic setting interface, a parameter setting interface, a software mall and an auxiliary function setting interface. The basic settings comprise wifi, a timer, a screen locking setting, a system updating and the like, the wifi has the functions of remotely assisting in timing management to operate an air conditioner in advance or close the air conditioner and the like, the timer sets preset values t1, t2 and t3, the screen locking setting can prevent children with too small ages, disabled and mentally disabled people and old people with unconscious consciousness from randomly adjusting the automatically adjusted air conditioner parameters, unlocking can be defined as patterns and numbers, and warning tone starting buttons and the like are played for broadcasting temperature and abnormal temperature; the parameter setting has the function of providing user-defined settings such as temperature, wind speed, air supply mode and the like; the auxiliary function setting is internally provided with a cloud database which can be used by a storage user, reference is provided for intelligent adjustment of air conditioner parameters, fault analysis and other scene applications, and the auxiliary function setting also has the functions of (whether starting) an infrared sensing device, photosensitive sensing, songs, illumination and the like, the infrared sensing device has a health management function, the temperature of a human body is measured and displayed in the center of a display screen, whether the temperature needs to be broadcasted or not and whether warning tones are played at abnormal temperatures or not can be set in a self-defined mode, the warning tones can be sent to remote equipment such as a mobile phone end and the like, the physical conditions of children or old people and the like can be known, meanwhile, the risks of damaging mercury poisoning and the like by using a traditional thermometer of the children or the old people are avoided, and the air conditioner is automatically turned off when the infrared detection result that the unmanned time exceeds a preset value t 3; the photosensitive sensor can automatically adjust indoor luminosity, and meanwhile, a manual shortcut key starts the functions of emergency lighting according to a preset emergency instruction and the like; the functions of playing hypnotic music, getting-up music, children's songs, poems and stories and other songs can be realized, the playing themes and time of children's songs, poems and stories and other songs can be set regularly by devices such as a mobile phone, and especially the children's life pleasure can be increased by remote setting when the parents are not at home.

The control method of the air conditioner in fig. 2 controls the air conditioner to operate in a first mode, which is a normal mode; the control method of the air conditioner in fig. 3 controls the air conditioner to operate in the second mode, which is a special mode.

Referring to fig. 4, the present invention further provides a control device of an air conditioner, including: a first control unit for controlling the air conditioner to enter a control state in response to a user's operation; the first determining unit is used for determining whether the air conditioner receives a first control signal within a first preset time period t1 after entering the control state; the second control unit is used for controlling the air conditioner to operate in the first mode when the first control signal is not received within a first preset time t1 after the air conditioner enters the control state; and the third control unit is used for receiving the first control signal within a first preset time period t1 after the air conditioner enters the control state, and controlling the air conditioner to operate in the second mode.

Specifically, the third control unit comprises a first determination module and a first control module, wherein the first determination module is used for determining a child mode, a cold mode or a motion mode as a second mode according to the first control signal; the first control module is used for controlling the air conditioner to operate in a corresponding second mode. In this way, different modes can be selected to be operated as the second mode according to the first signal, thereby effectively improving the flexibility of the air conditioner.

On the basis of realizing the mode control function, in order to further improve the control flexibility of the air conditioner, the control device of the air conditioner further comprises a second determining unit, a fourth control unit and a fifth control unit: the second determination unit is used for determining whether the air conditioner receives a second control signal within a second preset time period t2 after the air conditioner is controlled to operate in the first mode; the fourth control unit is used for determining a first operation parameter according to the current weather data and controlling the air conditioner to operate according to the first operation parameter when the air conditioner does not receive a second control signal within a second preset time period t2 after the air conditioner operates in the first mode; and the fifth control unit is used for determining a second operation parameter according to the second control signal and controlling the air conditioner to operate at the second operation parameter when the air conditioner receives the second control signal within a second preset time period t2 after the air conditioner operates in the first mode.

In order to make the air conditioner adapt to the current weather condition better when the air conditioner operates in the first mode and improve the comfort of the air conditioner, the fourth control unit comprises a second determining module: the second determining module is used for determining the first operating parameter according to the current weather data and a preset database, wherein the preset database comprises a mapping relation between a plurality of historical weather data and a plurality of historical operating parameters; the control device of the air conditioner further includes a first calculation unit, a third determination unit, and a fourth determination unit: the first calculation unit is used for calculating the difference value between the historical weather data corresponding to the first operation parameter and the current weather data in the preset database before controlling the air conditioner to operate at the first operation parameter after determining the first operation parameter according to the weather data; the third determining unit is used for determining the historical operating parameter corresponding to the historical weather data as the first operating parameter when the difference value between the historical weather data corresponding to the first operating parameter in the preset database and the current weather data is less than or equal to a first preset value; the fourth determining unit is used for determining the received operation parameter as the first operation parameter when the difference value between the historical weather data corresponding to the first operation parameter and the current weather data in the preset database is larger than a first preset value, and adding the mapping relation between the received operation parameter and the current weather data into the preset database. Therefore, if the difference value between the current weather data and the historical weather data in the database is large, the new operation parameters can be received as the first operation parameters so as to more reasonably control the air conditioner to work, and the current weather data and the updated first operation parameters are stored in the preset database so as to conveniently control the air conditioner when the next weather condition is similar.

In the implementation, the weather data may be temperature, humidity, etc., and may also be other parameters, such as oxygen concentration, carbon dioxide concentration, harmful gas concentration, etc.

In this embodiment, the fourth control unit is configured to input the current weather data into a first pattern recognition model in a predetermined database, and determine the first operating parameter according to an output result of the first pattern recognition model, where the first pattern recognition model is obtained by machine learning training using multiple sets of data, and each set of data in the multiple sets of data includes: historical weather data and historical operating parameters with mapping relationships. By adopting the machine learning to train the first pattern recognition model, the first pattern recognition model obtained after the neural network model training can more accurately determine the first operation parameter according to the current weather data, and the accuracy of controlling the air conditioner is improved.

Specifically, the control device of the air conditioner further includes a fifth determining unit, a sixth controlling unit, and a seventh controlling unit: the fifth determining unit is used for determining whether the air conditioner receives the second control signal within a second preset time period t2 after the air conditioner is operated in the second mode after the air conditioner is controlled to operate in the second mode; the sixth control unit is used for determining a third operation parameter according to the current body data of the user and controlling the air conditioner to operate according to the third operation parameter when the air conditioner does not receive the second control signal within a second preset time period t2 after the air conditioner operates in the second mode; the seventh control unit is used for determining a fourth operation parameter according to the second control signal when the air conditioner receives the second control signal within a second preset time period t2 after the air conditioner operates in the second mode, and controlling the air conditioner to operate at the fourth operation parameter. Thus, when the air conditioner operates in the second mode, if the second control signal is input within the second preset time period t2, the fourth operation parameter may be determined according to the second control signal, so that the air conditioner operates at the fourth operation parameter. If the second control signal is not input within the second preset time period t2, determining a third operation parameter according to the current body data of the user, and controlling the air conditioner to operate according to the third operation parameter, which is not only beneficial to simplifying the control flow of the air conditioner, but also beneficial to improving the accuracy of the air conditioner control, and more accurately meeting the requirements of the user.

In addition, the sixth control unit includes a third determination module: the third determining module is used for determining a third operating parameter according to the current body data of the user and a predetermined database, wherein the predetermined database comprises the mapping relation between a plurality of user body data and a plurality of historical operating parameters; the control device of the air conditioner further includes a second calculation unit, a sixth determination unit, and a seventh determination unit: the second calculation unit is used for calculating the difference value between the user body data corresponding to the third operation parameter in the preset database and the current body data of the user; the sixth determining unit is used for determining the historical operating parameter corresponding to the body data of the user as the third operating parameter when the difference value between the body data of the user corresponding to the third operating parameter in the preset database and the current body data of the user is less than or equal to a second preset value; the seventh determining unit is configured to determine the received operation parameter as the third operation parameter when a difference between the user body data corresponding to the third operation parameter in the predetermined database and the current body data of the user is greater than a second preset value, and add a mapping relationship between the received operation parameter and the current body data of the user to the predetermined database. Therefore, when the current body data of the user is greatly different from the corresponding body data of the user in the preset database, the user inputs new operation parameters, so that the operation parameters of the air conditioner can be controlled more accurately, and the operation parameters can be stored, and the air conditioner is convenient to use under the subsequent similar conditions.

The user body data may be body temperature, age, amount of motion, etc., for example, when the air conditioner operates in a child mode, the user body data may be age, when the air conditioner operates in a cold mode, the user body data may be body temperature, and when the air conditioner operates in an exercise mode, the user body data may be amount of motion.

Specifically, the sixth control unit is configured to input the current body data of the user into a second pattern recognition model in a predetermined database, and determine a third operating parameter according to an output result of the second pattern recognition model, where the second pattern recognition model is obtained by machine learning training using multiple sets of data, and each set of data in the multiple sets of data includes: user body data and historical operating parameters with mapping relationships. By adopting the machine learning to train the second pattern recognition model, the second pattern recognition model obtained after the neural network model training can more accurately determine the first operation parameter according to the current body data of the user, and the accuracy of controlling the air conditioner is improved.

The invention further provides a nonvolatile storage medium, the nonvolatile storage medium comprises a stored program, and the control method of the air conditioner is implemented by controlling equipment where the nonvolatile storage medium is located when the program runs.

Finally, the invention also provides a processor, wherein the processor is used for running the program, and the program executes the control method of the air conditioner during running.

The above-mentioned serial numbers of the embodiments of the present invention are merely for description and do not represent the merits of the embodiments. Moreover, the steps illustrated in the flowcharts of the figures may be performed in a computer system such as a set of computer-executable instructions, and while a logical order is illustrated in the flowcharts, in some cases, the steps illustrated or described may be performed in an order different than here.

In the above embodiments of the present invention, the descriptions of the respective embodiments have respective emphasis, and for parts that are not described in detail in a certain embodiment, reference may be made to related descriptions of other embodiments.

In the embodiments provided in the present application, it should be understood that the disclosed technology can be implemented in other ways. The above-described embodiments of the apparatus are merely illustrative, and for example, the division of the units may be a logical division, and in actual implementation, there may be another division, for example, multiple units or components may be combined or integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection through some interfaces, units or modules, and may be in an electrical or other form.

The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.

In addition, functional units in the embodiments of the present invention may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit. The integrated unit can be realized in a form of hardware, and can also be realized in a form of a software functional unit.

The integrated unit, if implemented in the form of a software functional unit and sold or used as a stand-alone product, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present invention may be embodied in the form of a software product, which is stored in a storage medium and includes instructions for causing a computer device (which may be a personal computer, a server, or a network device) to execute all or part of the steps of the method according to the embodiments of the present invention. And the aforementioned storage medium includes: a U-disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a removable hard disk, a magnetic or optical disk, and other various media capable of storing program codes.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (10)

1. A method of controlling an air conditioner, comprising:

controlling the air conditioner to enter a control state in response to the operation of a user;

determining whether the air conditioner receives a first control signal within a first preset time period t1 after entering the control state;

if the first control signal is not received within the first preset time t1 after the air conditioner enters the control state, controlling the air conditioner to operate in a first mode;

determining whether the air conditioner receives a second control signal within a second preset time period t2 after operating in the first mode;

if the air conditioner does not receive a second control signal within a second preset time t2 after the air conditioner operates in the first mode, determining a first operation parameter according to current weather data, and controlling the air conditioner to operate at the first operation parameter;

if the air conditioner receives the second control signal within a second preset time t2 after the air conditioner operates in the first mode, determining a second operation parameter according to the second control signal, and controlling the air conditioner to operate at the second operation parameter;

and if the first control signal is received within the first preset time period t1 after the air conditioner enters the control state, controlling the air conditioner to operate in a second mode.

2. The control method of an air conditioner according to claim 1, wherein controlling the air conditioner to operate in a second mode comprises:

determining a child mode, a cold mode or a motion mode as the second mode according to the first control signal;

and controlling the air conditioner to operate in the corresponding second mode.

3. The method of claim 1, wherein determining the first operating parameter based on the current weather data comprises: determining the first operation parameter according to current weather data and a preset database, wherein the preset database comprises a mapping relation between a plurality of historical weather data and a plurality of historical operation parameters;

after determining the first operation parameter according to the weather data, before controlling the air conditioner to operate at the first operation parameter, the control method of the air conditioner further includes:

calculating a difference value between the historical weather data corresponding to the first operation parameter in the preset database and the current weather data;

if the difference value between the historical weather data corresponding to the first operation parameter in the preset database and the current weather data is smaller than or equal to a first preset value, determining that the historical operation parameter corresponding to the historical weather data is the first operation parameter;

if the difference value between the historical weather data corresponding to the first operation parameter and the current weather data in the preset database is larger than the first preset value, determining that the received operation parameter is the first operation parameter, and adding the mapping relation between the received operation parameter and the current weather data into the preset database.

4. The method of claim 1, wherein determining the first operating parameter based on the current weather data comprises:

inputting current weather data into a first pattern recognition model in a preset database, and determining the first operating parameter according to an output result of the first pattern recognition model, wherein the first pattern recognition model is obtained by using multiple groups of data through machine learning training, and each group of data in the multiple groups of data comprises: historical weather data and historical operating parameters with mapping relationships.

5. The control method of an air conditioner according to claim 2, wherein after controlling the air conditioner to operate in the second mode, the control method of an air conditioner further comprises:

determining whether the air conditioner receives a second control signal within a second preset time period t2 after operating in the second mode;

if the air conditioner does not receive the second control signal within a second preset time t2 after the air conditioner operates in the second mode, determining a third operating parameter according to the current body data of the user, and controlling the air conditioner to operate at the third operating parameter;

if the air conditioner receives the second control signal within a second preset time period t2 after the air conditioner operates in the second mode, determining a fourth operating parameter according to the second control signal, and controlling the air conditioner to operate at the fourth operating parameter.

6. The method of claim 5, wherein determining the third operational parameter based on the current physical data of the user comprises: determining the third operation parameter according to the current body data of the user and a preset database, wherein the preset database comprises the mapping relation between a plurality of user body data and a plurality of historical operation parameters;

after determining a third operating parameter according to the current body data of the user, before controlling the air conditioner to operate at the third operating parameter, the control method of the air conditioner further includes:

calculating a difference value between the user body data corresponding to the third operation parameter in the preset database and the current body data of the user;

if the difference value between the user body data corresponding to the third operation parameter in the preset database and the current body data of the user is smaller than or equal to a second preset value, determining the historical operation parameter corresponding to the user body data as the third operation parameter;

and if the difference value between the user body data corresponding to the third operation parameter in the preset database and the current body data of the user is greater than the second preset value, determining the received operation parameter as the third operation parameter, and adding the mapping relation between the received operation parameter and the current body data of the user into the preset database.

7. The method of claim 5, wherein determining the third operational parameter based on the current physical data of the user comprises:

inputting the current body data of the user into a second pattern recognition model in a preset database, and determining the third operating parameter according to the output result of the second pattern recognition model, wherein the second pattern recognition model is obtained by using multiple groups of data through machine learning training, and each group of data in the multiple groups of data comprises: user body data and historical operating parameters with mapping relationships.

8. A control apparatus of an air conditioner, comprising:

a first control unit for controlling the air conditioner to enter a control state in response to a user's operation;

a first determination unit, configured to determine whether the air conditioner receives a first control signal within a first preset time period t1 after entering the control state;

the second control unit is used for controlling the air conditioner to operate in a first mode when the first control signal is not received within the first preset time t1 after the air conditioner enters the control state;

the third control unit is used for receiving the first control signal within the first preset time period t1 after entering the control state and controlling the air conditioner to operate in a second mode;

the control device of the air conditioner further comprises a second determination unit, a fourth control unit and a fifth control unit;

a second determination unit for determining whether the air conditioner receives a second control signal for a second preset time period t2 after operating in the first mode;

the fourth control unit is used for determining a first operation parameter according to current weather data and controlling the air conditioner to operate according to the first operation parameter if the air conditioner does not receive a second control signal within a second preset time t2 after the air conditioner operates in the first mode;

and the fifth control unit is used for determining a second operation parameter according to the second control signal and controlling the air conditioner to operate according to the second operation parameter if the air conditioner receives the second control signal within a second preset time period t2 after the air conditioner operates in the first mode.

9. A nonvolatile storage medium characterized by comprising a stored program, wherein a device in which the nonvolatile storage medium is installed is controlled to execute the control method of the air conditioner according to any one of claims 1 to 7 when the program is executed.

10. A processor, characterized in that the processor is configured to execute a program, wherein the program executes a control method of an air conditioner according to any one of claims 1 to 7.

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