CN110425693B - Intelligent air conditioner and use method thereof - Google Patents

Abstract

The invention provides an intelligent air conditioner and a use method thereof, wherein the intelligent air conditioner comprises the following components: the microphone array is used for acquiring first voice information and acquiring second voice information input by a user according to a voice registration prompt; the voice processing unit is used for outputting a voice registration prompt through a loudspeaker when the awakening word is analyzed from the first voice information; when second voice information with set first times is continuously received and a registration command word is analyzed from each second voice information, determining the registration voiceprint characteristics of the user and triggering a processing unit; and the processing unit is used for determining the individual parameters corresponding to the user according to the working parameters corresponding to the regulation and control instructions when the regulation and control instructions corresponding to the registered voiceprint characteristics are obtained, and operating according to the individual parameters when the starting instructions corresponding to the registered voiceprint information are obtained. According to the scheme, the personalized parameters of the registered user can be operated according to the voice information of the registered user, so that the man-machine interaction performance of the air conditioner is improved.

Description

Intelligent air conditioner and use method thereof

Technical Field

The invention relates to the technical field of computers, in particular to an intelligent air conditioner and a using method thereof.

Background

The air conditioner becomes an indispensable essential product in the life of people, and the life quality of people is greatly improved. With the development of intelligent household appliance technology, users also put higher demands on the human-computer interaction performance of the air conditioner.

When the air conditioner is used, a user often controls the working state of the air conditioner through a fixed button on a remote controller, for example, when the user wants to adjust the working state of the air conditioner through the remote controller to be refrigeration, the user needs to press a button for changing the working state on the remote controller, a symbol of the current working state of the air conditioner can appear on a display screen of the remote controller, and then the user can change the working state once according to the button, symbols corresponding to different working states can appear on the display screen, for example, heating, dehumidifying and the like, and the user needs to identify the appearing symbols until the symbols corresponding to the refrigeration are determined.

When the remote controller is adopted to control the air conditioner, a user needs to search for corresponding buttons on the remote controller and then recognize symbols displayed on the display screen one by one, so that the human-computer interaction performance of the air conditioner is poor.

Disclosure of Invention

The embodiment of the invention provides an intelligent air conditioner and a using method thereof, which can operate according to the voice information of a registered user by using the personalized parameters of the registered user, thereby improving the man-machine interaction performance of the air conditioner.

In a first aspect, an embodiment of the present invention provides an intelligent air conditioner, including: the system comprises a microphone array, a voice processing unit, a processing unit and a loudspeaker; wherein the content of the first and second substances,

the microphone array is used for acquiring first voice information input by a user and sending the first voice information to the voice processing unit; acquiring second voice information input by a user according to a voice registration prompt, and sending the second voice information to the voice processing unit;

the voice processing unit is used for outputting the voice registration prompt through the loudspeaker when the awakening word is analyzed from the first voice information; when the second voice information with the set first times is continuously received and a registration command word is analyzed from each second voice information, determining the registration voiceprint characteristic of the user and triggering the processing unit;

and the processing unit is used for determining the individual parameters corresponding to the user according to the working parameters corresponding to the regulation and control instructions when the regulation and control instructions corresponding to the registered voiceprint characteristics are obtained, and operating according to the individual parameters when the starting instructions corresponding to the registered voiceprint information are obtained.

Preferably, the first and second electrodes are formed of a metal,

the processing unit is further configured to set a corresponding initial working parameter for the registered voiceprint feature, and when a starting instruction corresponding to the registered voiceprint feature is obtained for the first time, the processing unit operates according to the initial working parameter.

Preferably, the first and second electrodes are formed of a metal,

the microphone array is used for acquiring third voice information input by the user and sending the third voice information to the voice processing unit;

the voice processing unit is used for determining the current voiceprint characteristic corresponding to the third voice information and triggering the processing unit when the control command word is analyzed from the third voice information; wherein the control command word indicates a start instruction or a regulation instruction;

and the processing unit is used for determining whether the registered voiceprint characteristics matched with the current voiceprint characteristics exist, and if so, starting the temperature control module of the intelligent air conditioner according to the starting instruction, or updating the initial working parameters according to the regulating instruction.

Preferably, the first and second electrodes are formed of a metal,

the processing unit is further configured to control the speaker to output a repeat instruction when it is determined that there is no registered voiceprint characteristic matching the current voiceprint characteristic, so that the user repeatedly inputs the third voice message according to the repeat instruction, and start the temperature control module of the intelligent air conditioner according to a start instruction indicated by a control command word in the third voice message when the third voice message is continuously received for a set second time.

Preferably, the first and second electrodes are formed of a metal,

the processing unit is further configured to determine a voiceprint characteristic corresponding to a starting instruction for starting the temperature control module last time when the registered voiceprint characteristic matched with the current voiceprint characteristic exists, determine whether the voiceprint characteristic of the last time is the same as the current voiceprint characteristic, and if not, start the temperature control module with preset working parameters; and when a regulation and control instruction which is input again by the user and corresponds to the current voiceprint characteristic is received, regulating and controlling the working state of the temperature control module according to the regulation and control instruction.

Preferably, the first and second electrodes are formed of a metal,

the operating parameters include any one or more of: temperature, wind speed, average thermal sensation index, and volume of the speaker.

Preferably, the first and second electrodes are formed of a metal,

the processing unit is used for calculating the personality parameters corresponding to the user by using the following calculation formula;

m represents the personality parameters; j represents the quarterly of the current date and takes the values of 1, 2, 3 and 4; s represents the operation times of a certain working state; l represents the refrigeration state; r represents a heating state; c, representing a dehumidification state; z represents an automatic state; t represents temperature; i denotes max (S)_jl，S_jr，S_jc，S_jz) The corresponding running states are taken as a refrigerating state, a heating state, a dehumidifying state and an automatic state; w represents the wind speed; n represents the average heat sensation index; v represents the volume of the loudspeaker; u represents the number of upward running times of the wind direction; representing the running times of the wind direction downwards; l represents the left running times of the wind direction; and R represents the running times of the wind direction to the right.

In a second aspect, an embodiment of the present invention provides a method for using an intelligent air conditioner according to any one of the above embodiments, including:

acquiring first voice information input by a user by using a microphone array;

when the voice processing unit is used for analyzing the awakening words from the first voice information, a voice registration prompt is output through the loudspeaker;

acquiring second voice information input by a user according to the voice registration prompt by using the microphone array;

when the voice processing unit is used for receiving the second voice information with the set first times in a connected mode and analyzing a registration command word from each second voice information, determining the registration voiceprint characteristics of the user;

when a processing unit is used for acquiring a regulation and control instruction corresponding to the registered voiceprint characteristics, determining an individual parameter corresponding to the user according to a working parameter corresponding to the regulation and control instruction, and when a starting instruction corresponding to the registered voiceprint information is acquired, operating according to the individual parameter.

Preferably, further comprising:

and setting corresponding initial working parameters for the registered voiceprint characteristics by using the processing unit, and operating according to the initial working parameters when a starting instruction corresponding to the registered voiceprint characteristics is obtained for the first time.

Preferably, further comprising:

determining the voiceprint characteristic corresponding to the starting instruction for starting the temperature control module at the previous time by using the processing unit, determining whether the voiceprint characteristic at the previous time is the same as the current voiceprint characteristic, and starting the temperature control module according to preset working parameters if the voiceprint characteristic at the previous time is not the same as the current voiceprint characteristic; and when a regulation and control instruction which is input again by the user and corresponds to the current voiceprint characteristic is received, regulating and controlling the working state of the temperature control module according to the regulation and control instruction.

The embodiment of the invention provides an intelligent air conditioner and a using method thereof, when a user awakens the air conditioner through first voice information, registration prompt information is output, so that the user inputs second voice information for registration according to the registration prompt information, the user is registered according to a registration command word in the second voice information, and the registration voiceprint characteristic of the user is determined. When the registered user uses the air conditioner, the air conditioner acquires a regulation and control instruction corresponding to the registered voiceprint characteristic of the registered user, determines the personality parameters of the user according to the regulation and control instruction, and operates according to the personality parameters of the registered user when the registered user starts the air conditioner next time. Therefore, in the process of awakening the air conditioner, registering and using the air conditioner by a user, the voice mode is adopted, buttons of the remote controller do not need to be identified one by one, symbols corresponding to each working state of the air conditioner do not need to be identified one by one, the working state of the air conditioner can be directly controlled through the language, and therefore the man-machine interaction performance of the air conditioner is improved. Moreover, when the registered user starts the air conditioner, the registered user can directly run with the individual parameters, so that the user experience is further improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of an intelligent air conditioner according to an embodiment of the present invention;

fig. 2 is a flowchart of a method for using an intelligent air conditioner according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer and more complete, the technical solutions in the embodiments of the present invention will be described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention, and based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the scope of the present invention.

As shown in fig. 1, an embodiment of the present invention provides an intelligent air conditioner, including: a microphone array 101, a voice processing unit 102, a processing unit 103, and a speaker 104; wherein the content of the first and second substances,

the microphone array 101 is configured to acquire first voice information input by a user, and send the first voice information to the voice processing unit 102; acquiring second voice information input by a user according to a voice registration prompt, and sending the second voice information to the voice processing unit 102;

the voice processing unit 102 is configured to output the voice registration prompt through the speaker 104 when the wake-up word is parsed from the first voice information; when the second voice information with the set first times is continuously received and a registration command word is analyzed from each second voice information, determining the registration voiceprint characteristic of the user and triggering the processing unit 103;

the processing unit 103 is configured to determine an individual parameter corresponding to the user according to a working parameter corresponding to the regulation instruction when the regulation instruction corresponding to the registered voiceprint characteristic is obtained, and operate according to the individual parameter when the start instruction corresponding to the registered voiceprint information is obtained.

In the above embodiment, when the user wakes up the air conditioner through the first voice message, the registration prompt message is output, so that the user inputs the second voice message for registration according to the registration prompt message, registers for the user according to the registration command word in the second voice message, and determines the registration voiceprint characteristic of the user. When the registered user uses the air conditioner, the air conditioner acquires a regulation and control instruction corresponding to the registered voiceprint characteristic of the registered user, determines the personality parameters of the user according to the regulation and control instruction, and operates according to the personality parameters of the registered user when the registered user starts the air conditioner next time. Therefore, in the process of awakening the air conditioner, registering and using the air conditioner by a user, the voice mode is adopted, buttons of the remote controller do not need to be identified one by one, symbols corresponding to each working state of the air conditioner do not need to be identified one by one, the working state of the air conditioner can be directly controlled through the language, and therefore the man-machine interaction performance of the air conditioner is improved. Moreover, when the registered user starts the air conditioner, the registered user can directly run with the individual parameters, so that the user experience is further improved.

In an embodiment of the present invention, the processing unit 103 is further configured to set a corresponding initial working parameter for the registered voiceprint feature, and when a starting instruction corresponding to the registered voiceprint feature is obtained for the first time, operate according to the initial working parameter.

It can be understood that, when the air conditioner is started for the first time after the user registers, at this time, there is no personality parameter corresponding to the registered voiceprint characteristic of the user, in order to ensure normal start of the air conditioner, when the user registers, the processing unit 103 sets a corresponding initial operating parameter for the registered voiceprint characteristic, and when the user starts the air conditioner with a start instruction for the first time, the air conditioner operates according to the initial operating parameter corresponding to the registered voiceprint characteristic of the user. Wherein the initial working parameters can be set according to the registration information of the user, for example, according to the age and/or gender of the user.

In an embodiment of the present invention, the microphone array 101 is configured to acquire third voice information input by the user and send the third voice information to the voice processing unit 102;

the voice processing unit 102 is configured to determine a current voiceprint characteristic corresponding to the third voice information when a control command word is analyzed from the third voice information, and trigger the processing unit 103; wherein the control command word indicates a start instruction or a regulation instruction;

and the processing unit 103 is configured to determine whether a registered voiceprint characteristic matching the current voiceprint characteristic exists, and if so, start the temperature control module of the intelligent air conditioner according to the start instruction, or update the initial working parameter according to the regulation instruction.

Here, when receiving the third voice message input by the user, first determining whether a control command word exists in the third voice message, if the third voice message does not have the control command word, it indicates that the third voice message may be the voice message collected by mistake, and ignoring the voice message, and not regulating the air conditioner according to the third voice message, so as to prevent the air conditioner from being started by mistake or regulated by mistake. When a control command word exists in the third voice message, determining that the third voice message is the voice message for regulating and controlling the air conditioner, determining the current voiceprint characteristic corresponding to the third voice message, determining whether a registered voiceprint characteristic matched with the current voiceprint characteristic exists, if so, indicating that the current voiceprint characteristic is the voiceprint characteristic corresponding to the registered user, namely the third voice message is input by the registered user, controlling the air conditioner according to the control command word included in the third voice message, when the control command word indicates a starting instruction, indicating that the user wants to start the air conditioner through the third voice message, then starting a temperature control module of the air conditioner according to the starting instruction, when the control command word indicates a regulating and controlling instruction, indicating that the user wants to regulate and control working parameters through the third voice message, then updating the initial working parameters according to the regulating and controlling instruction, and updating the individual parameters of the registered user according to the working parameters corresponding to the regulating and controlling instruction.

It can be understood that, besides controlling the air conditioner through the voice information, the user can also input the regulation and control parameters through a remote controller, keys of the air conditioner local machine, an APP (application) and the like so as to start or regulate the air conditioner.

In addition, the processing unit 103 is further configured to control the speaker 104 to output a repeat instruction when it is determined that there is no registered voiceprint characteristic matching the current voiceprint characteristic, so that the user repeatedly inputs the third voice message according to the repeat instruction, and start the temperature control module of the smart air conditioner according to a start instruction indicated by a control command word in the third voice message when the third voice message set for a second time is continuously received.

When the processing unit 103 determines that there is no registered voiceprint characteristic matching the current voiceprint characteristic, it indicates that the user inputting the third voice information corresponding to the current voiceprint characteristic is a non-registered user, and the system is automatically turned on to avoid false recognition, at this time, the processing unit 103 controls the speaker 104 to output a repeat instruction, for example, output a "please repeat the turn-on command" so that the user inputs the third voice information again according to the repeat instruction, and when the non-registered user repeatedly inputs the third voice information containing the control command word, the air conditioner is turned on according to the start instruction indicated by the control command word. Therefore, when the voice information input by the unregistered user is received, the unregistered user starts the air conditioner according to the control command word in the voice information after repeatedly inputting the voice information, so that the starting threshold of the unregistered user is improved, the condition that the air conditioner is started by mistake due to mistake recognition is avoided, and the safety of the operation of the air conditioner is improved.

It can be understood that after the unregistered user starts the air conditioner, the initial operating parameters of the air conditioner are the operating parameters before the air conditioner is turned off last time, and if the operating parameters when the air conditioner is turned off last time are the cooling mode and 24 ℃, the initial operating parameters of the air conditioner are the cooling mode and 24 ℃.

In an embodiment of the present invention, the processing unit 103 is further configured to, when it is determined that a registered voiceprint characteristic matching the current voiceprint characteristic exists, determine a voiceprint characteristic corresponding to a starting instruction for starting the temperature control module last time, determine whether the voiceprint characteristic last time is the same as the current voiceprint characteristic, and if not, start the temperature control module with preset working parameters; and when a regulation and control instruction which is input again by the user and corresponds to the current voiceprint characteristic is received, regulating and controlling the working state of the temperature control module according to the regulation and control instruction.

For example, the voiceprint characteristic corresponding to the starting instruction for starting the temperature control module last time is user a, and the user corresponding to the current voiceprint characteristic is user B, that is, after the user a finishes using the air conditioner and shuts down, the user B starts the air conditioner again, the personality parameters of the user B are not directly switched during starting, the temperature control module is started by the preset working parameters, and the personality parameters corresponding to the user B are adjusted after the user B triggers the personality mode through voice information or APP. The voice recognition process in the embodiment of the present invention is performed based on the voice recognition unit 102 inside the air conditioner, that is, the voice recognition process in the embodiment of the present invention is local recognition, and while the recognition speed is increased, the accuracy is reduced compared to network remote recognition, so that after the user a is converted into the user B to start the air conditioner, in order to avoid a parameter recording error caused by misrecognition, the air conditioner is started by using the preset working parameters, and then is adjusted to the corresponding personality parameters according to the triggering of the user B, so that the accuracy of running with the personality parameters is improved, and further the user experience is improved.

In one embodiment of the invention, the operating parameters include any one or more of: temperature, wind speed, average thermal sensation index, and volume of the speaker 104.

In an embodiment of the present invention, the processing unit 103 is configured to calculate a personality parameter corresponding to the user by using the following calculation formula;

m represents the personality parameters; j represents the quarterly of the current date and takes the values of 1, 2, 3 and 4; s represents the operation times of a certain working state; l represents the refrigeration state; r represents a heating state; c, representing a dehumidification state; z represents an automatic state; t represents temperature; i denotes max (S)_jl，S_jr，S_jc，S_jz) The corresponding running states are taken as a refrigerating state, a heating state, a dehumidifying state and an automatic state; w represents the wind speed; n represents the average heat sensation index; v represents the volume of the loudspeaker; u represents the number of upward running times of the wind direction; representing the running times of the wind direction downwards; l represents the left running times of the wind direction; and R represents the running times of the wind direction to the right.

Because the users in different seasons have larger control difference on the air conditioner, for example, the users often use the heating state of the air conditioner in the first quarter in winter, and the users often use the cooling state of the air conditioner in the third quarter in summer, the calculation formula is obtained based on the control on the air conditioner operation mode in the same daily quarter of the users, and the calculated user personality parameters are closer to the requirements of the users.

As shown in fig. 2, an embodiment of the present invention provides a method for using an intelligent air conditioner according to any one of the above embodiments, where the method includes the following steps:

step 201: acquiring first voice information input by a user by using a microphone array;

step 202: when the voice processing unit is used for analyzing the awakening words from the first voice information, a voice registration prompt is output through the loudspeaker;

step 203: acquiring second voice information input by a user according to the voice registration prompt by using the microphone array;

step 204: when the voice processing unit is used for receiving the second voice information with the set first times in a connected mode and analyzing a registration command word from each second voice information, determining the registration voiceprint characteristics of the user;

step 205: when a processing unit is used for acquiring a regulation and control instruction corresponding to the registered voiceprint characteristics, determining an individual parameter corresponding to the user according to a working parameter corresponding to the regulation and control instruction, and when a starting instruction corresponding to the registered voiceprint information is acquired, operating according to the individual parameter.

In one embodiment of the present invention, the method may further include: and setting corresponding initial working parameters for the registered voiceprint characteristics by using the processing unit, and operating according to the initial working parameters when a starting instruction corresponding to the registered voiceprint characteristics is obtained for the first time.

In one embodiment of the present invention, the method may further include: determining the voiceprint characteristic corresponding to the starting instruction for starting the temperature control module at the previous time by using the processing unit, determining whether the voiceprint characteristic at the previous time is the same as the current voiceprint characteristic, and starting the temperature control module according to preset working parameters if the voiceprint characteristic at the previous time is not the same as the current voiceprint characteristic; and when a regulation and control instruction which is input again by the user and corresponds to the current voiceprint characteristic is received, regulating and controlling the working state of the temperature control module according to the regulation and control instruction.

Because the information interaction, execution process and other contents among the steps in the method are based on the same concept as the device embodiment of the present invention, specific contents can be referred to the description in the device embodiment of the present invention, and are not described herein again.

The following describes in detail a method for using an intelligent air conditioner provided by an embodiment of the present invention, by taking an example of registering and controlling the intelligent air conditioner by a user a, the intelligent air conditioner may include a microphone array, a voice processing unit, a speaker, a processing unit, a voice state indicator light, an infrared remote controller, and the like, may be controlled by a mobile phone APP, and may identify a voiceprint characteristic of the user, the user may perform voiceprint characteristic collection (i.e., user registration) according to a specific flow, after the collection is completed, an identity tag is assigned to the user according to the registered voiceprint characteristic of the user, after the user completes the registration, the air conditioner may automatically learn the usage habits of the user, and after the user is powered on, the air conditioner may be automatically adjusted to an individualized operation mode according to a certain rule. Specifically, the use method of the intelligent air conditioner may include the steps of:

the user A speaks a voice awakening word such as 'brand A' air conditioner towards the air conditioner, after the air conditioner voice processing unit recognizes the word, a loudspeaker of the air conditioner plays voice 'you good', and meanwhile, a voice state indicating lamp of an air conditioner panel flickers.

The user a issues a registration start voice command such as "voiceprint collection" to the air conditioner.

The air conditioner loudspeaker voice broadcast registration process, if report "please say three times brand A's air conditioner below totally, please move distance and position within 1-5 meters before the air conditioner during collection in order to improve voiceprint recognition rate, please keep the environment quiet, just say brand A's air conditioner to me".

The user says "brand A's air conditioner" to the air conditioner, air conditioner speaker broadcast pronunciation "receives, still twice, please repeat brand A's air conditioner", user A says "brand A's air conditioner" to the air conditioner, air conditioner speaker broadcast pronunciation "receives, still 1 time, please repeat brand A's air conditioner", the user says "brand A's air conditioner" to the air conditioner, air conditioner speaker reports "the collection is successful, has opened private customization for the owner, go APP again and get a good name bar", the user edits the nickname of user like "user A" by opening APP. And after the registration is finished, analyzing the registered voiceprint characteristics of the user A according to the collected voice information, distinguishing the gender of the user A, and prompting the user A of successful registration and prompting the identity ID and the gender of the user A by the air-conditioning loudspeaker after the registration is finished.

Then, the air conditioner allocates an initial working parameter to the registered user according to the modes of cooling, heating, average Mean volume (PMV) and the like, wherein the initial temperature is 25 ℃ in the cooling mode, the wind speed is medium wind, the initial temperature is 20 ℃ in the heating mode, the wind speed is breeze, and the PMV comfort value is 0.3 of heat bias.

In the modes of refrigeration, heating, PMV and the like, after a user changes parameters (such as temperature, wind speed, humidity, PMV cold and hot sensing values and the like) through a remote controller, an air conditioner local key, APP and the like, the user-defined personality mode is automatically calculated according to a certain rule (such as an average value), the personality parameter corresponding to the personality mode is associated with the registered user ID, and if the user A changes the temperature of the refrigeration mode to 26 ℃, the personality parameter of the user A in the refrigeration mode is 25.5 ℃.

After the air conditioner is powered on, if the air conditioner is started by a person except the user A through a voice command, the air conditioner is automatically started to prevent error identification, the air conditioner loudspeaker plays voice 'please repeat the starting command once', after the user repeats the starting command, the air conditioner is started, and the running parameters are the parameters before the air conditioner is stopped last time, such as a refrigeration mode and 24 ℃.

In addition, after the air conditioner is powered on, the user A controls the air conditioner to be started through voice, the air conditioner accurately identifies the user A, the air conditioner is immediately started and automatically operates according to the personal parameters of the user A (the parameters include but are not limited to temperature, wind speed, humidity, PMV cold and hot sensing values, loudspeaker volume and the like), and the air conditioner loudspeaker can play the nickname of the user A or specific voice; and then the user A changes the operation parameters by using a remote controller and a local key, and the parameters are counted in the personal parameter statistics of the user A.

After the air conditioner operates according to the personality parameters of the user A, if the user B controls the air conditioner by using the voice, the operation parameters of the air conditioner are not immediately converted into the personality parameters of the user B, but are converted into the personality parameters of the user B after the user B triggers the personality mode command by using the voice or the APP.

After the air conditioner operates according to the personality parameters of the user A, if the air conditioner is controlled by the voice of the unregistered user, the air conditioner immediately switches to the operation mode required by the unregistered user, but the subsequent operation parameters are not included in the personality mode statistical parameters of the registered user A.

The embodiment of the invention provides a readable medium which comprises an execution instruction, and when a processor of a storage controller executes the execution instruction, the storage controller executes the use method of any intelligent air conditioner provided by the embodiment of the invention.

An embodiment of the present invention provides a storage controller, including: a processor, a memory, and a bus;

the memory is used for storing execution instructions, the processor is connected with the memory through the bus, and when the memory controller runs, the processor executes the execution instructions stored in the memory, so that the memory controller can execute the using method of any intelligent air conditioner provided by the embodiment of the invention.

The embodiments of the invention have at least the following beneficial effects:

1. in the embodiment of the invention, when the user wakes up the air conditioner through the first voice message, the registration prompt message is output, so that the user inputs the second voice message for registration according to the registration prompt message, registers for the user according to the registration command word in the second voice message, and determines the registration voiceprint characteristic of the user. When the registered user uses the air conditioner, the air conditioner acquires a regulation and control instruction corresponding to the registered voiceprint characteristic of the registered user, determines the personality parameters of the user according to the regulation and control instruction, and operates according to the personality parameters of the registered user when the registered user starts the air conditioner next time. Therefore, in the process of awakening the air conditioner, registering and using the air conditioner by a user, the voice mode is adopted, buttons of the remote controller do not need to be identified one by one, symbols corresponding to each working state of the air conditioner do not need to be identified one by one, the working state of the air conditioner can be directly controlled through the language, and therefore the man-machine interaction performance of the air conditioner is improved.

2. In the embodiment of the invention, the registered user can directly run with the individual parameters when starting the air conditioner, thereby further improving the user experience.

3. In the embodiment of the invention, when the voice information input by the unregistered user is received, the unregistered user starts the air conditioner according to the control command word in the voice information after repeatedly inputting the voice information, so that the starting threshold of the unregistered user is improved, the condition that the air conditioner is started by mistake due to mistake recognition is avoided, and the safety of the operation of the air conditioner is improved.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising a" does not exclude the presence of other similar elements in a process, method, article, or apparatus that comprises the element.

Those of ordinary skill in the art will understand that: all or part of the steps for realizing the method embodiments can be completed by hardware related to program instructions, the program can be stored in a computer readable storage medium, and the program executes the steps comprising the method embodiments when executed; and the aforementioned storage medium includes: various media that can store program codes, such as ROM, RAM, magnetic or optical disks.

Finally, it is to be noted that: the above description is only a preferred embodiment of the present invention, and is only used to illustrate the technical solutions of the present invention, and not to limit the protection scope of the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention shall fall within the protection scope of the present invention.

Claims (6)

1. An intelligent air conditioner, characterized by comprising: the system comprises a microphone array, a voice processing unit, a processing unit and a loudspeaker; wherein the content of the first and second substances,

the microphone array is used for acquiring first voice information input by a user and sending the first voice information to the voice processing unit; acquiring second voice information input by a user according to a voice registration prompt, and sending the second voice information to the voice processing unit;

the voice processing unit is used for outputting the voice registration prompt through the loudspeaker when the awakening word is analyzed from the first voice information; when the second voice information with the set first times is continuously received and a registration command word is analyzed from each second voice information, determining the registration voiceprint characteristic of the user and triggering the processing unit;

the processing unit is used for determining the individual parameters corresponding to the user according to the working parameters corresponding to the regulation and control instructions when the regulation and control instructions corresponding to the registered voiceprint characteristics are obtained, and operating according to the individual parameters when the starting instructions corresponding to the registered voiceprint characteristics are obtained;

and: the microphone array is used for acquiring third voice information input by the user and sending the third voice information to the voice processing unit;

the voice processing unit is used for determining the current voiceprint characteristic corresponding to the third voice information and triggering the processing unit when the control command word is analyzed from the third voice information; wherein the control command word indicates a start instruction or a regulation instruction;

the processing unit is used for determining whether a registered voiceprint characteristic matched with the current voiceprint characteristic exists or not, if so, the temperature control module of the intelligent air conditioner is started according to the starting instruction, or the working parameters are updated according to the regulating instruction, the processing unit is further used for controlling the loudspeaker to output a repeat instruction when the registered voiceprint characteristic matched with the current voiceprint characteristic does not exist, so that a user can repeatedly input the third voice information according to the repeat instruction, and when the third voice information with the set second time is continuously received, the temperature control module of the intelligent air conditioner is started according to the starting instruction indicated by the control command word in the third voice information.

2. The intelligent air conditioner according to claim 1,

the processing unit is further configured to set a corresponding initial working parameter for the registered voiceprint characteristic, and when a starting instruction corresponding to the registered voiceprint characteristic is obtained for the first time, the processing unit operates according to the initial working parameter.

3. The intelligent air conditioner according to claim 1,

the processing unit is further configured to determine a voiceprint characteristic corresponding to a starting instruction for starting the temperature control module last time when the registered voiceprint characteristic matched with the current voiceprint characteristic exists, determine whether the voiceprint characteristic of the last time is the same as the current voiceprint characteristic, and if not, start the temperature control module with preset working parameters; and when a regulation and control instruction which is input again by the user and corresponds to the current voiceprint characteristic is received, regulating and controlling the working state of the temperature control module according to the regulation and control instruction.

4. The intelligent air conditioner according to claim 1,

the operating parameters include any one or more of: temperature, wind speed, average thermal sensation index, and volume of the speaker.

5. The use method of the intelligent air conditioner as claimed in any one of claims 1 to 4, comprising:

acquiring first voice information input by a user by using a microphone array;

when the voice processing unit is used for analyzing the awakening words from the first voice information, a voice registration prompt is output through the loudspeaker;

acquiring second voice information input by a user according to the voice registration prompt by using the microphone array;

when the voice processing unit is used for receiving the second voice information with the set first times in a connected mode and analyzing a registration command word from each second voice information, determining the registration voiceprint characteristics of the user;

when a processing unit is used for acquiring a regulation instruction corresponding to the registered voiceprint characteristic, determining an individual parameter corresponding to the user according to a working parameter corresponding to the regulation instruction, and when a starting instruction corresponding to the registered voiceprint characteristic is acquired, operating according to the individual parameter;

determining the voiceprint characteristic corresponding to the starting instruction for starting the temperature control module at the previous time by using the processing unit, determining whether the voiceprint characteristic at the previous time is the same as the current voiceprint characteristic, and starting the temperature control module according to preset working parameters if the voiceprint characteristic at the previous time is not the same as the current voiceprint characteristic; and when a regulation and control instruction which is input again by the user and corresponds to the current voiceprint characteristic is received, regulating and controlling the working state of the temperature control module according to the regulation and control instruction.

6. The method of claim 5, further comprising:

and setting corresponding initial working parameters for the registered voiceprint characteristics by using the processing unit, and operating according to the initial working parameters when a starting instruction corresponding to the registered voiceprint characteristics is obtained for the first time.

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