CN107676937B - Air conditioner control method, device and system and computer readable storage medium - Google Patents

Abstract

The invention discloses an air conditioner control method, which comprises the following steps: after a user starts the air conditioner through the controller, starting a fingerprint acquisition device arranged on the controller to acquire fingerprint information of the user; determining a control parameter for controlling the air conditioner by using a stored historical record of controlling the air conditioner by a user; and sending the determined control parameters to the air conditioner to control the operation of the air conditioner. The invention also discloses an air conditioner control device, an air conditioner control system and a computer readable storage medium. The invention accurately and reasonably controls the operation of the air conditioner and improves the comfort of the air conditioner.

Description

Air conditioner control method, device and system and computer readable storage medium

Technical Field

The invention relates to the technical field of household appliances, in particular to an air conditioner control method, device and system and a computer readable storage medium.

Background

Currently, the air conditioner control mainly controls the operation parameters according to the user history control record or controls the operation parameters according to the user instant control instruction. In this way, each user has a plurality of historical records for controlling the air conditioner, and the same air conditioner has different user controls, so that the current requirements of each user cannot be accurately identified, and the air conditioner is inaccurate to control and poor in comfort.

The above is only for the purpose of assisting understanding of the technical aspects of the present invention, and does not represent an admission that the above is prior art.

Disclosure of Invention

The invention mainly aims to provide an air conditioner control method, an air conditioner control device, an air conditioner control system and a computer readable storage medium, and aims to solve the problems that at present, because each user has a plurality of historical records for controlling the air conditioner, and the same air conditioner has different user controls, the current requirements of each user cannot be accurately identified, and further the air conditioner is inaccurate in control and poor in comfort.

In order to achieve the above object, the present invention provides an air conditioner control method, including:

after a user starts the air conditioner through the controller, starting a fingerprint acquisition device arranged on the controller to acquire fingerprint information of the user;

determining a control parameter for controlling the air conditioner by using a stored historical record of controlling the air conditioner by a user;

and sending the determined control parameters to the air conditioner to control the operation of the air conditioner.

Optionally, the step of determining a control parameter for controlling the air conditioner using the stored history of the user controlling the air conditioner includes:

acquiring a history of controlling the air conditioner from the stored user control history;

and extracting control parameters for controlling the air conditioner from the acquired historical records according to the frequency.

Optionally, the step of extracting control parameters for controlling the air conditioner according to frequency from the acquired history record includes:

deleting the history records meeting preset conditions from the acquired history records, and marking the deleted history records as new history records;

and extracting control parameters for controlling the air conditioner from the new historical record according to frequency.

Optionally, the step of determining a control parameter for controlling the air conditioner using the stored history of the user controlling the air conditioner includes:

acquiring environmental information of a current air conditioner;

acquiring a history of controlling the air conditioner from the stored user control history;

determining a history record corresponding to the environment information from the acquired history records;

and extracting control parameters for controlling the air conditioner from the acquired historical records according to the frequency.

Optionally, the method further comprises:

receiving an air conditioner control instruction sent by a user through a controller, uploading the air conditioner control instruction to a controller server, and sending the air conditioner control instruction to the air conditioner through the controller server to control the operation of the air conditioner;

and storing the user fingerprint of the air conditioner control command and the air conditioner operation parameter in an associated manner.

Further, to achieve the above object, the present invention also provides an air conditioner control device including: the air conditioner control method comprises a memory, a processor and an air conditioner control program which is stored on the memory and can run on the processor, wherein the air conditioner control program realizes the air conditioner control method when being executed by the processor.

Further, to achieve the above object, the present invention also provides a computer-readable storage medium having stored thereon an air conditioner control program which, when executed by a processor, implements the steps of the air conditioner control method as described above.

In addition, to achieve the above object, the present invention also provides an air conditioner control system including: the system comprises a controller and a control server connected with the controller, wherein the control server is connected with a big data server, the control server is connected with an air conditioner, and the controller is provided with a fingerprint acquisition device; wherein the content of the first and second substances,

after a user starts the air conditioner through the controller, the controller starts a set fingerprint acquisition device to acquire fingerprint information of the user, and the fingerprint information is uploaded to the big data server through the control server;

the big data server determines control parameters for controlling the air conditioner from a stored historical record of controlling the air conditioner by a user, and sends the determined control parameters to the control server;

and the control server controls the operation of the air conditioner according to the control parameters sent to the air conditioner by the control server.

Optionally, the big data server obtains a history record for controlling the air conditioner from a stored user control history record;

and the big data server extracts control parameters for controlling the air conditioner from the acquired historical records according to the frequency.

Optionally, the big data server extracts an abnormal history record from the acquired history records, and marks the history record with the exception removed as a new history record;

and the big data server extracts control parameters for controlling the air conditioner from the new historical record according to the frequency.

Optionally, the big data server acquires environmental information of the current air conditioner;

the big data server acquires a historical record for controlling the air conditioner from a user control historical record stored in the big data server;

the big data server determines a historical record corresponding to the environment information from the acquired historical records;

and the big data server extracts control parameters for controlling the air conditioner from the acquired historical records according to frequency.

According to the invention, the fingerprint information of the user is firstly acquired, the user is identified through the fingerprint information, then the historical record of the air conditioner controlled by the user is identified, the currently required air conditioner control parameter is accurately inquired from the historical record, the accurate control parameter is acquired from the big data server through the controller server to control the operation of the air conditioner, the operation of the air conditioner is accurately and reasonably controlled, and the comfort of the air conditioner is improved.

Drawings

FIG. 1 is a flow chart illustrating an embodiment of a method for controlling an air conditioner according to the present invention;

fig. 2 is a schematic flow chart illustrating a process of determining a control parameter for controlling the air conditioner by using a stored history of controlling the air conditioner by a user and sending the determined control parameter to a control server according to an embodiment of the present invention;

fig. 3 is a schematic flow chart illustrating a process of extracting control parameters for controlling the air conditioner according to frequency from the acquired history;

fig. 4 is a schematic flow chart illustrating a process of determining a control parameter for controlling the air conditioner by using a stored history of controlling the air conditioner by a user and sending the determined control parameter to a control server according to an embodiment of the present invention;

FIG. 5 is a flow chart illustrating a control method of an air conditioner according to another embodiment of the present invention;

fig. 6 is a schematic diagram of a system architecture for controlling an air conditioner according to an embodiment of the present invention.

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1, a first embodiment of the present invention provides an air conditioner control method including:

step S10, when the user starts the air conditioner through the controller, the fingerprint collecting device set by the controller is started to collect the fingerprint information of the user;

in this embodiment, a user may send a control instruction through the controller (for example, send the control instruction through a virtual key or an entity key of the center control panel, or send the control instruction through a remote control key, or the like), the control instruction is uploaded to the controller server through the controller, and the controller server forwards the control instruction to the control module of the air conditioner to control the operation of the air conditioner. Of course, the controller may also directly forward the control instruction to the control module arranged on the air conditioner for control, and at the same time, the control instruction needs to be uploaded to the control server.

When the user starts the air conditioner, the fingerprint information of the user is collected through a fingerprint collecting device arranged on the controller.

Step S20, determining the control parameter for controlling the air conditioner by using the stored history of the user controlling the air conditioner;

after the fingerprint information is collected, the user is identified through the fingerprint information, the control parameters for controlling the air conditioner are determined from the historical record of the user for controlling the air conditioner, and the determined control parameters are issued to the control server.

Specifically, referring to fig. 2, in an embodiment, the step of determining a control parameter for controlling the air conditioner by using a stored history of controlling the air conditioner by a user, and sending the determined control parameter to a control server includes:

step S21, obtaining the history record of controlling the air conditioner from the stored user control history record;

and step S22, extracting control parameters for controlling the air conditioner according to frequency from the acquired history record. Analyzing the operation habits of the user: and analyzing the operation habits of each user by a voting method according to the operation history of the air conditioner of the user. Calculating the frequency of occurrence of each mode, temperature and wind speed:

wherein M is_k、T_k、W_kRespectively representing the current operation mode, temperature, wind speed, M of the kth operation record_lDenotes the l mode, T_mDenotes the temperature of m, W_nDenotes the n wind speed, MC_lIndicates the frequency of occurrence of the l-mode, TC_mIndicates the frequency of occurrence of m temperature, WC_nIndicating the frequency of occurrence of n wind speeds. I (X ═ X) is an indicator function, and is 1 when the condition (X ═ X) is satisfied, and is 0 otherwise.

Extracting the mode, the temperature and the wind speed of the maximum frequency as recommended settings:

M＝max(MC_l) L { refrigeration, heating, automatic };

T＝max(TC_m)，m[17，30；]；

W＝max(WC_n) N { low wind, medium wind, high wind, automatic };

m, T, W is the recommended mode, temperature, wind speed control information.

And (3) setting refrigeration, 25-degree air and low air respectively according to the voting method recommendation mode, the temperature and the air speed, returning the settings to the air conditioner control module through the controller server, and controlling the air conditioner to operate at the refrigeration, 25-degree air and low air by the control module. The above is selected with the highest frequency, and the mode, temperature and wind speed with the frequency greater than the preset value (10 times or 8 times) can also be selected as recommended settings according to user settings.

Referring to fig. 3, the extracting of the control parameter for controlling the air conditioner according to the frequency from the acquired history includes:

step S23, deleting the history records meeting the preset conditions from the acquired history records, and marking the deleted history records as new history records;

and step S24, extracting control parameters for controlling the air conditioner from the new history record according to frequency.

Because the family is in different families, even if the environment information is the same as other external information, special conditions exist, for example, at present, at a family party, more people exist at the family than at normal conditions, the control of the air conditioner is different, or the control of the air conditioner is different after the user just moves, because the family party does not exist every day, the user does not move every day, and the condition that the family party (the number of people is increased suddenly compared with the normal condition) is set as a preset condition when the user moves. And deleting the history records meeting the preset conditions from the acquired history records, marking the deleted history records as new history records, and extracting control parameters for controlling the air conditioner according to the frequency from the new history records. The control information of the air conditioner is more accurate and reasonable to determine.

In an embodiment of the present invention, in order to improve the accuracy of air conditioner control, referring to fig. 4, the step of determining a control parameter for controlling the air conditioner by using a stored history of controlling the air conditioner by a user, and sending the determined control parameter to a control server includes:

step S25, acquiring the environmental information of the current air conditioner;

step S26, obtaining the history record of controlling the air conditioner from the stored user control history record;

step S27 of determining a history corresponding to the environmental information from the acquired histories;

and step S28, extracting control parameters for controlling the air conditioner according to frequency from the acquired history record.

The stored history of the user-controlled air conditioner can have records of all the user-controlled air conditioners, and the control of the air conditioner is different under different environments due to different environments, namely, the requirements of different users on the air conditioner are different, for example, the summer weather is hot and needs cooling, the winter weather is cold and needs heating, and the like. Because the air conditioners are controlled differently according to different environments, a controller or a control module of the air conditioner firstly acquires current environment information outside a space where the current air conditioner acts, screens historical records of the air conditioner control by the user according to the environment information, finds out a historical record corresponding to the environment information, extracts control parameters for controlling the air conditioner according to frequency from the acquired historical record, and extracts the control parameters according to the frequency by referring to the specific description in the step S21 and the step S22. Of course, the control of the air conditioner is also closely related to the current indoor environment, and the control of the air conditioner can also be related to the indoor environment information controlled by the air conditioner by acquiring the indoor environment information of the space acted by the air conditioner, for example, the control of the air conditioner is related to the number of users and the types of the users (old people, children, patients, and the like). The current control parameters of the air conditioner are determined from the historical record of the air conditioner controlled by a user according to the environment information and the indoor environment information of the space where the air conditioner acts, so that the air conditioner is controlled more accurately and reasonably.

And step S30, controlling the operation of the air conditioner according to the control server issued to the air conditioner.

After the control parameters of the air conditioner are determined, the control module of the air conditioner receives the control parameters issued by the controller server, and controls the operation of the air conditioner according to the received control parameters, for example, controls the air conditioner to adjust the set temperature, the air guide angle and/or the air speed.

According to the embodiment, the fingerprint information of the user is acquired firstly, the user is identified through the fingerprint information, the historical record of the air conditioner controlled by the user is identified, the current required air conditioner control parameter is accurately inquired from the historical record, the accurate control parameter is acquired through the controller server to control the air conditioner to operate, the operation of the air conditioner is accurately and reasonably controlled, and the comfort of the air conditioner is improved.

Referring to fig. 5, in a preferred embodiment of the present invention, in order to collect more records for controlling the air conditioner and improve the accuracy of the air conditioner control, the method further includes:

step S40, receiving an air conditioner control instruction sent by a user through a controller, uploading the air conditioner control instruction to a controller server, and sending the air conditioner control instruction to the air conditioner through the controller server to control the operation of the air conditioner;

and step S50, storing the user fingerprint of the air conditioner control command and the air conditioner operation parameter in an associated manner.

When a user operates the air conditioner, fingerprint information of the user is collected through the controller, the air conditioner is controlled according to a control instruction, then operation parameters of the air conditioner and control parameters of the air conditioner are collected, the fingerprint information of the user, the operation parameters of the air conditioner and the control parameters of the air conditioner are uploaded to the control server, and then the fingerprint information, the operation parameters of the air conditioner and the control parameters of the air conditioner are stored in a related mode through the control server. It can be understood that when the fingerprint information of the user, the operation parameters of the air conditioner and the control parameters of the air conditioner are reported, the indoor and outdoor environment information in the acting space of the air conditioner is obtained and stored in a correlated manner. The control conditions of the air conditioner under each state and environment are collected by uploading the fingerprint information of the user, the air conditioner operation parameters and the control parameters of the user who controls the air conditioner in time, so that the air conditioner is controlled more accurately.

In addition, the present invention also provides an air conditioner control device, including: the air conditioner control method comprises a memory, a processor and an air conditioner control program which is stored on the memory and can run on the processor, wherein when the air conditioner control program is executed by the processor, the air conditioner control program realizes the air conditioner control method according to the embodiment of the method. The air conditioner control device is arranged in the control server or the air conditioner, and the operation of the air conditioner is controlled through the control device.

Furthermore, an embodiment of the present invention further provides a computer-readable storage medium, where an air conditioner control program is stored on the computer-readable storage medium, and when executed by a processor, the air conditioner control program implements the following operations:

after a user starts the air conditioner through the controller, starting a fingerprint acquisition device arranged on the controller to acquire fingerprint information of the user;

determining a control parameter for controlling the air conditioner by using a stored historical record of controlling the air conditioner by a user;

and sending the determined control parameters to the air conditioner to control the operation of the air conditioner.

Further, the air conditioner control program, when executed by the processor, performs the operations of:

acquiring a history of controlling the air conditioner from the stored user control history;

and extracting control parameters for controlling the air conditioner from the acquired historical records according to the frequency.

Further, the air conditioner control program, when executed by the processor, performs the operations of:

deleting the history records meeting preset conditions from the acquired history records, and marking the deleted history records as new history records;

and extracting control parameters for controlling the air conditioner from the new historical record according to frequency.

Further, the air conditioner control program, when executed by the processor, performs the operations of:

acquiring environmental information of a current air conditioner;

acquiring a history of controlling the air conditioner from the stored user control history;

determining a history record corresponding to the environment information from the acquired history records;

and extracting control parameters for controlling the air conditioner from the acquired historical records according to the frequency.

Further, the air conditioner control program, when executed by the processor, performs the operations of:

receiving an air conditioner control instruction sent by a user through a controller, uploading the air conditioner control instruction to a controller server, and sending the air conditioner control instruction to the air conditioner through the controller server to control the operation of the air conditioner;

and storing the user fingerprint of the air conditioner control command and the air conditioner operation parameter in an associated manner.

In addition, the invention also provides an air conditioner control system, referring to fig. 6, a controller and a control server connected with the controller, wherein the control server is connected with a big data server, the control server is connected with the air conditioner, and the controller is provided with a fingerprint acquisition device; the air conditioner control method includes:

after a user starts the air conditioner through the controller, the controller starts a set fingerprint acquisition device to acquire fingerprint information of the user, and the fingerprint information is uploaded to the big data server through the control server;

the big data server determines control parameters for controlling the air conditioner from a stored historical record of controlling the air conditioner by a user, and sends the determined control parameters to the control server;

and the control server controls the operation of the air conditioner according to the control parameters sent to the air conditioner by the control server.

In this embodiment, the air conditioner control method is applied to an air conditioner control system, the air conditioner control system includes a controller and a control server connected with the controller, the control server is connected with a big data server, the control server is connected with an air conditioner, and the controller is provided with a fingerprint acquisition device. The air conditioner is provided with a control module (for example, a chip, a microprocessor and the like), the control module is connected with the central control server and receives an instruction sent by the central control server to perform control operation of the air conditioner. The controller can be a center control panel or a remote controller and other interfaces or equipment which can be operated by a user.

The user can send a control instruction through the controller (for example, the control instruction is sent through virtual key operation or physical key operation of the central control panel, or the control instruction is sent through a remote controller key, and the like), the control instruction is uploaded to the controller server through the controller, and the controller server forwards the control instruction to the control module of the air conditioner to control the operation of the air conditioner. Of course, the controller may also directly forward the control instruction to the control module arranged on the air conditioner for control, and at the same time, the control instruction needs to be uploaded to the control server.

When the air conditioner is started by a user, fingerprint information of the user is collected through a fingerprint collecting device arranged on the controller, the fingerprint information is uploaded to the control server, and then the fingerprint information is uploaded to the big data server through the control server.

Determining a control parameter for controlling the air conditioner by using a history record of controlling the air conditioner by a user stored in a big data server, and sending the determined control parameter to a control server;

and the big data server receives the user fingerprint information collected by the controller from the control server, identifies the user, determines control parameters for controlling the air conditioner from the historical record of the air conditioner controlled by the user, and sends the determined control parameters to the control server.

Specifically, in an embodiment, the step of determining a control parameter for controlling the air conditioner by using a history of the air conditioner controlled by the user stored in the big data server, and sending the determined control parameter to the control server includes:

acquiring a historical record for controlling the air conditioner from a user control historical record stored in a big data server;

and extracting control parameters for controlling the air conditioner from the acquired historical records according to the frequency. Analyzing the operation habits of the user: and analyzing the operation habits of each user by a voting method according to the operation history of the air conditioner of the user. Calculating the frequency of occurrence of each mode, temperature and wind speed:

wherein M is_k、T_k、W_kRespectively representing the current operation mode, temperature, wind speed, M of the kth operation record_lDenotes the l mode, T_mDenotes the temperature of m, W_nDenotes the n wind speed, MC_lIndicates the frequency of occurrence of the l-mode, TC_mIndicates the frequency of occurrence of m temperature, WC_nIndicating the frequency of occurrence of n wind speeds. I (X ═ X) is an indicator function, and is 1 when the condition (X ═ X) is satisfied, and is 0 otherwise.

Extracting the mode, the temperature and the wind speed of the maximum frequency as recommended settings:

M＝max(MC_l) L { refrigeration, heating, automatic };

T＝max(TC_m)，m[17，30；]；

W＝max(WC_n) N { low wind, medium wind, high wind, automatic };

m, T, W is the recommended mode, temperature, wind speed control information.

The big data server sets refrigeration, 25 degrees and low wind respectively according to the voting method recommendation mode, the temperature and the wind speed, the recommendation setting is returned to the controller server, the recommendation setting is returned to the air conditioner control module through the controller server, and the control module controls the air conditioner to operate at refrigeration, 25 degrees and low wind. The above is selected with the highest frequency, and the mode, temperature and wind speed with the frequency greater than the preset value (10 times or 8 times) can also be selected as recommended settings according to user settings.

The step of extracting control parameters for controlling the air conditioner according to frequency from the acquired history includes:

extracting abnormal history records from the acquired history records, and marking the history records with the exception removed as new history records;

and extracting control parameters for controlling the air conditioner from the new historical record according to frequency.

Because the user is in different families, the environment information and other external information are the same, but special conditions exist, for example, at present family party, more people exist in the family than in normal condition, the control of the air conditioner is different, or the control of the air conditioner is different just after the user moves, because the family party does not exist every day, the user does not move every day, the condition of family party meal (the number of people is increased suddenly compared with the normal condition) is set as the abnormal condition when the user moves. And extracting an abnormal historical record from the acquired historical records, marking the historical record with the exception eliminated as a new historical record, and extracting control parameters for controlling the air conditioner according to the frequency in the new historical record. The control information of the air conditioner is more accurate and reasonable to determine.

In an embodiment of the present invention, in order to improve the accuracy of air conditioner control, the step of determining a control parameter for controlling the air conditioner by using a history of controlling the air conditioner by a user stored in a big data server, and sending the determined control parameter to a control server includes:

acquiring environmental information of a current air conditioner;

acquiring a historical record for controlling the air conditioner from a user control historical record stored in a big data server;

determining a history record corresponding to the environment information from the acquired history records;

and extracting control parameters for controlling the air conditioner from the acquired historical records according to the frequency.

The stored history of the user-controlled air conditioner can have records of all the user-controlled air conditioners, and the control of the air conditioner is different under different environments due to different environments, namely, the requirements of different users on the air conditioner are different, for example, the summer weather is hot and needs cooling, the winter weather is cold and needs heating, and the like. Because the air conditioners with different environments and different requirements are controlled differently, a controller or a control module of the air conditioner firstly acquires current environment information outside a space where the current air conditioner acts, the environment information is uploaded to a big data server through a controller server, the big data server screens historical records of the air conditioner control by a user according to the environment information, finds out a historical record corresponding to the environment information, extracts control parameters for controlling the air conditioner according to frequency from the acquired historical records, and extracts the control parameters according to the frequency by referring to the specific description in the step S21 and the step S22. Of course, the control of the air conditioner is also closely related to the current indoor environment, and the control of the air conditioner can also be related to the indoor environment information controlled by the air conditioner by acquiring the indoor environment information of the space acted by the air conditioner, for example, the control of the air conditioner is related to the number of users and the types of the users (old people, children, patients, and the like). The current control parameters of the air conditioner are determined from the historical record of the air conditioner controlled by a user according to the environment information and the indoor environment information of the space where the air conditioner acts, so that the air conditioner is controlled more accurately and reasonably.

And controlling the operation of the air conditioner according to the control parameters sent to the air conditioner by the control server.

After the control parameters of the air conditioner are determined, the control module of the air conditioner receives the control parameters issued by the controller server, and controls the operation of the air conditioner according to the received control parameters, for example, controls the air conditioner to adjust the set temperature, the air guide angle and/or the air speed.

According to the embodiment, the fingerprint information of the user is acquired firstly, the user is identified through the fingerprint information, the historical record of the air conditioner controlled by the user is identified from the big data server, the current required air conditioner control parameter is accurately inquired from the historical record, the accurate control parameter is acquired from the big data server through the controller server to control the operation of the air conditioner, the operation of the air conditioner is accurately and reasonably controlled, and the comfort of the air conditioner is improved.

In a preferred embodiment of the present invention, in order to collect more records for controlling the air conditioner and improve the accuracy of the air conditioner control, the method further comprises:

receiving an air conditioner control instruction sent by a user through a controller, uploading the air conditioner control instruction to a controller server, and sending the air conditioner control instruction to the air conditioner through the controller server to control the operation of the air conditioner;

and uploading the user fingerprint of the air conditioner control instruction and the air conditioner operation parameters to a big data server.

When a user operates the air conditioner, fingerprint information of the user is collected through the controller, the air conditioner is controlled according to a control instruction, then operation parameters of the air conditioner and control parameters of the air conditioner are collected, the fingerprint information of the user, the operation parameters of the air conditioner and the control parameters of the air conditioner are uploaded to the control server, and then the fingerprint information, the operation parameters of the air conditioner and the control parameters of the air conditioner are uploaded to the big data server by the control server to be stored. It can be understood that when the fingerprint information of the user, the operation parameters of the air conditioner and the control parameters of the air conditioner are reported, the indoor and outdoor environment information in the acting space of the air conditioner is obtained and uploaded and stored in the big data server in a correlated manner. The control conditions of the air conditioner under each state and environment are collected by uploading the fingerprint information of the user, the air conditioner operation parameters and the control parameters of the user who controls the air conditioner in time, so that the air conditioner is controlled more accurately.

In order to better describe the technical solution of the embodiment of the present invention, referring to fig. 6, a system architecture includes a controller and a central control server connected to a central control panel, the central control server is connected to a big data server, the central control server is connected to an air conditioner, and a fingerprint acquisition device is disposed on the central control panel; the control under the application scene comprises the following steps:

user operation data acquisition: reporting user fingerprints and air conditioner operation parameters to a central control server when a user controls an air conditioner through a central control panel each time; the air conditioner operation parameters include: mode, temperature, wind speed.

The operation habit of the user is as follows: and the cloud big data server analyzes the operation habits of the users according to the air conditioner operation history of each user.

Acquiring air conditioner control parameters: when the user starts the air conditioner from the central control panel, the cloud big data server identifies the user through the fingerprint, recommends the habit operation of the user to the central control server, and returns the habit operation to the air conditioner.

Controlling an air conditioner: and the air conditioner controls the operation of the air conditioner according to the air conditioner operation parameters returned by the central control server.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (9)

1. An air conditioner control method, characterized by comprising:

after a user starts the air conditioner through the controller, starting a fingerprint acquisition device arranged on the controller to acquire fingerprint information of the user;

identifying the user through fingerprint information, and determining control parameters for controlling the air conditioner by using the stored historical record of controlling the air conditioner by the user;

deleting the history records meeting preset conditions from the acquired history records, and marking the deleted history records as new history records;

extracting control parameters for controlling the air conditioner from the new history record according to frequency;

analyzing the operation habits of the user: analyzing the operation habits of each user by a voting method according to the operation history of the air conditioner of each user, and calculating the frequency of each mode, temperature and wind speed:

wherein M is_k、T_k、W_kRespectively representing the current operation mode, temperature, wind speed, M of the kth operation record_lDenotes the l mode, T_mDenotes the temperature of m, W_nDenotes the n wind speed, MC_lIndicates the frequency of occurrence of the l-mode, TC_mIndicates the frequency of occurrence of m temperature, WC_nIndicating the frequency of occurrence of n wind speeds,I(x＝X)is an indication function, is 1 when the condition (X ═ X) is satisfied, is 0 otherwise,

extracting the mode, the temperature and the wind speed of the maximum frequency as recommended settings:

M＝max(MC_l) L { refrigeration, heating, automatic };

T＝max(TC_m)，m[17，30；]；

W＝max(WC_n) N { low wind, medium wind, high wind, automatic };

m, T, W is the recommended mode, temperature, wind speed control information;

and sending the determined control parameters to the air conditioner to control the operation of the air conditioner.

2. The air conditioner controlling method as claimed in claim 1, wherein the step of determining the control parameter for controlling the air conditioner using the stored history of the user controlling the air conditioner comprises:

acquiring a history of controlling the air conditioner from the stored user control history;

and extracting control parameters for controlling the air conditioner from the acquired historical records according to the frequency.

3. The air conditioner controlling method as claimed in claim 1, wherein the step of determining the control parameter for controlling the air conditioner using the stored history of the user controlling the air conditioner comprises:

acquiring environmental information of a current air conditioner;

acquiring a history of controlling the air conditioner from the stored user control history;

determining a history record corresponding to the environment information from the acquired history records;

and extracting control parameters for controlling the air conditioner from the acquired historical records according to the frequency.

4. The air conditioner controlling method as claimed in any one of claims 1 to 3, further comprising:

receiving an air conditioner control instruction sent by a user through a controller, uploading the air conditioner control instruction to a controller server, and sending the air conditioner control instruction to the air conditioner through the controller server to control the operation of the air conditioner;

and storing the user fingerprint of the air conditioner control command and the air conditioner operation parameter in an associated manner.

5. An air conditioner control device characterized by comprising: a memory, a processor, and an air conditioner control program stored on the memory and executable on the processor, the air conditioner control program when executed by the processor implementing the air conditioner control method of any one of claims 1 to 4.

6. A computer-readable storage medium, characterized in that an air conditioner control program is stored thereon, which when executed by a processor implements the steps of the air conditioner control method according to any one of claims 1 to 4.

7. An air conditioner control system, comprising: the system comprises a controller and a control server connected with the controller, wherein the control server is connected with a big data server, the control server is connected with an air conditioner, and the controller is provided with a fingerprint acquisition device; wherein:

after a user starts the air conditioner through the controller, the controller starts a set fingerprint acquisition device to acquire fingerprint information of the user, and the fingerprint information is uploaded to the big data server through the control server;

identifying the user through fingerprint information, determining control parameters for controlling the air conditioner from a stored historical record of controlling the air conditioner by the user through the big data server, and issuing the determined control parameters to the control server;

the big data server extracts abnormal historical records from the acquired historical records, and marks the historical records with the abnormal history eliminated as new historical records;

the big data server extracts control parameters for controlling the air conditioner from the new historical record according to frequency;

the big data server analyzes the operation habits of the user: analyzing the operation habits of each user by a voting method according to the operation history of the air conditioner of each user, and calculating the frequency of each mode, temperature and wind speed:

wherein M is_k、T_k、W_kRespectively representCurrent operation mode, temperature, wind speed, M of the kth operation record_lDenotes the l mode, T_mDenotes the temperature of m, W_nDenotes the n wind speed, MC_lIndicates the frequency of occurrence of the l-mode, TC_mIndicates the frequency of occurrence of m temperature, WC_nIndicating the frequency of occurrence of n wind speeds,I(x＝X)is an indication function, is 1 when the condition (X ═ X) is satisfied, is 0 otherwise,

extracting the mode, the temperature and the wind speed of the maximum frequency as recommended settings:

M＝max(MC_l) L { refrigeration, heating, automatic };

T＝max(TC_m)，m[17，30；]；

W＝max(WC_n) N { low wind, medium wind, high wind, automatic };

m, T, W is the recommended mode, temperature, wind speed control information;

and the control server controls the operation of the air conditioner according to the control parameters sent to the air conditioner by the control server.

8. The air conditioner control system as claimed in claim 7, wherein the big data server obtains a history of controlling the air conditioner from a stored user control history;

and the big data server extracts control parameters for controlling the air conditioner from the acquired historical records according to the frequency.

9. The air conditioner control system as claimed in claim 7, wherein the big data server acquires environmental information where the current air conditioner is located;

the big data server acquires a historical record for controlling the air conditioner from a user control historical record stored in the big data server;

the big data server determines a historical record corresponding to the environment information from the acquired historical records;

and the big data server extracts control parameters for controlling the air conditioner from the acquired historical records according to frequency.

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