CN116576545A - Control method and device of control interface, air conditioner controller and storage medium - Google Patents

Abstract

The invention discloses a control method and a device of a control interface, an air conditioner controller and a storage medium, wherein the control interface is used for controlling a man-machine interaction interface of an equipment controller of equipment, and the method comprises the following steps: when the equipment is connected, collecting and analyzing the use data of the control function when the user of the equipment controller controls the equipment in at least one set use period before the next set use period starts, obtaining the use habit data of the user, optimizing the display mode of the control function of the control interface of the equipment controller according to the use habit data in the next set use period, obtaining the optimized display mode, and displaying the control function on the control interface according to the optimized display mode. According to the scheme, the display mode of the control function on the control interface of the air conditioner controller is optimized through the cognition and the use habit of different users on the control function of the equipment such as the air conditioner, so that the use experience of different users is improved.

Description

Control method and device of control interface, air conditioner controller and storage medium

Technical Field

The invention belongs to the technical field of control interfaces, and particularly relates to a control method and device of a control interface, an air conditioner controller and a storage medium, in particular to a control interface dynamic generation method and device based on voice control habits, an air conditioner controller and a storage medium.

Background

With the rapid development of the artificial intelligence field and the increasing of the demands of people for intelligent home services and novel man-machine interaction services, for example, the demands of people for air conditioners are not only satisfied with the demands of refrigeration and heating; in addition, people are also increasingly concerned about experience and feel in terms of personal interaction with devices (e.g., air conditioning). However, in the related scheme, the display form of the control function on the control interface (such as the air conditioning APP control interface on the air conditioning controller such as the mobile phone) of the device (such as the air conditioning controller) is relatively single, the specialized term of the name of the control function is strong, the inconvenience of speaking is also inconvenient for the user to understand, in addition, the adjustment and the personalized customization of the control interface cannot be performed according to the cognition and the use habit of different users on the control function of the air conditioner, so that the use experience of different users when using the control interface of the air conditioning controller to control the air conditioner is affected.

The foregoing is provided merely for the purpose of facilitating understanding of the technical solutions of the present invention and is not intended to represent an admission that the foregoing is prior art.

Disclosure of Invention

The invention aims to provide a control method, a control device, an air conditioner controller and a storage medium for solving the problems that in the related scheme, the display form of a control function on a control interface (such as an air conditioner APP control interface on an air conditioner controller such as a mobile phone) of an equipment (such as an air conditioner) controller is single, the specialized terms of names of the control function are strong, the cognition and the use habit of different users on the control function of an air conditioner cannot be met, the use experience of different users when the control interface of the air conditioner controller is used for controlling the air conditioner is affected, and the effects of adjusting and customizing the display form and the names of the control function on the control interface of the air conditioner controller by aiming at the cognition and the use habit of different users are achieved, so that the use experience of different users when the control interface of the air conditioner controller is used for controlling the air conditioner is improved are facilitated.

The invention provides a control method of a control interface, wherein the control interface is a man-machine interaction interface of a device controller for controlling a device; the control interface is provided with an initial display mode of a name or a button or an icon of a control function of the controlled equipment; the control method of the control interface comprises the following steps: for the control of the same equipment by a user to which the equipment controller belongs, collecting the use data of the control function of the equipment when the user controls the equipment under the condition that the equipment is networked; determining usage habit data of the user for the control function of the device during at least one set usage period before the start of the next set usage period based on analysis of usage data of the control function of the device by the user collected during at least one set usage period before the start of the next set usage period; in the next set use period, optimizing an initial display mode of the control function of the device on the control interface of the device controller according to the use habit data of the control function of the device in at least one set use period before the user starts the next set use period, so as to obtain an optimized display mode of the control function of the device on the control interface of the device controller; and displaying the control functions of the equipment on a control interface of the equipment controller according to an optimized display mode of the control functions of the equipment so as to realize personalized display of the control functions of the equipment on the control interface of the equipment controller based on the using habit data.

In some embodiments, the usage data of the control function of the device when the user controls the device includes: at least one instruction of a voice instruction, a key instruction and a gesture instruction which are sent when the user uses the control function of the equipment, and the sending times of each instruction; collecting usage data of control functions of the device when the user controls the device, including at least one of: under the condition that the equipment receives the voice command, determining the identity of the sender of the voice command according to voiceprint information carried by the voice command, and if the identity of the sender of the voice command is identical to the identity of the user, collecting the voice command and the sending times thereof into use data of a control function of the equipment when the user controls the equipment; under the condition that the equipment receives a key instruction, determining the identity of an issuer of the key instruction according to fingerprint information carried by the key instruction, and if the identity of the issuer of the key instruction is identical to the identity of the user, collecting the key instruction and the issuing times thereof into use data of control functions of the equipment when the user controls the equipment; under the condition that the equipment receives the gesture instruction, determining the identity of the sender of the gesture instruction according to the image information or the fingerprint information carried by the gesture instruction, and if the identity of the sender of the gesture instruction is identical to the identity of the user, collecting the gesture instruction and the sending times thereof into the use data of the control function of the equipment when the user controls the equipment.

In some embodiments, the usage habit data of the control function of the device by the user during at least one of the set usage periods before the start of the next set usage period comprises: the usage habit data of the user for all of the set usage periods in one or more of the set usage periods of the history, or the usage habit data of the user for the control function of the device in at least one of the set usage periods in a period of time before the start of at least the next set usage period in the one or more set usage periods of the history; wherein the history of one or more of the set usage periods includes: the current set use period, the last set use period, and all the set use periods before the last set use period; in the next set use period, optimizing an initial display manner of the control function of the device on the control interface of the device controller according to the use habit data of the control function of the device in at least one set use period before the user starts the next set use period, including: and in the next set use period, optimizing an initial display mode of the control function of the equipment on the control interface of the equipment controller according to the use habit data of the control function of the equipment in at least one set use period before at least one next set use period of more than one historical set use periods of the user starts, so as to obtain an optimized display mode of the control function of the equipment on the control interface of the equipment controller.

In some embodiments, the initial display mode includes: at least one section divided according to functions, wherein each section comprises a sorting mode and a display mode of names or buttons or icons of the control functions; the usage habit data includes: the number of uses and the period of use of at least one of the control functions of the device by the user; in the next set use period, according to the usage habit data of the control function of the device in at least one set use period before the user starts the next set use period, optimizing an initial display manner of the control function of the device on a control interface of the device controller to obtain an optimized display manner of the control function of the device on the control interface of the device controller, wherein the method specifically comprises the following steps: adjusting the arrangement sequence of names or buttons or icons of at least one function with the use times of the user being greater than the set times in the control functions of the equipment to the queue head of the sequencing queue in the layout of each function in the at least one function; if the number of times of using more than one function in one section is greater than the set number of times, sequencing the more than one function in the queue head of the sequencing queue of the section according to the number of times of using the user; and for the name or button or icon of at least one function in the control functions of the equipment which is adjusted to the head of the queue in each section, if the function which is used in a set time period closest to the current time and the time period in which the current time is located is the same as the use time period of the function in the use habit data, the name or button or icon of the function is obviously displayed in a set display mode so as to obviously display the name or button or icon of the function.

In some embodiments, the usage habit data further comprises: at least one of a use sound environment, a use name, and age information of the user for at least one of control functions of the apparatus; in the next set use period, according to the usage habit data of the control function of the device in at least one set use period before the user starts the next set use period, optimizing an initial display mode of the control function of the device on a control interface of the device controller to obtain an optimized display mode of the control function of the device on the control interface of the device controller, and specifically further including at least one of the following: for the names or buttons or icons of at least one function in the control functions of the device which are adjusted to the queue heads of the sequencing queues in each section and are obviously displayed, if the difference between the ambient noise intensity of the device and the sound intensity of the use sound environment in the use habit data is greater than a set noise threshold value, a reminding mark for improving or reducing the control parameters of the function is added at the name or button or icon of the function; the names of all functions in the control functions of the equipment which are adjusted to the head of the queue in each section are displayed according to the use names in the use habit data; and pressing buttons or icons corresponding to the age information in the usage habit data for all the control functions of the equipment which are adjusted to the head of the queue in each section to display.

In some embodiments, the control method of the control interface further includes: on a control interface of the equipment controller, after the control functions of the equipment are displayed according to the optimized display mode of the control functions of the equipment, marking the optimized display mode of the control functions of the equipment as a new initial display mode of the control functions of the equipment; and in the next set use period, optimizing an initial display mode of the new control function of the equipment on the control interface of the equipment controller according to the use habit data of the control function of the equipment in at least one set use period before the next set use period starts by the user, so as to obtain an optimized display mode of the control function of the equipment on the control interface of the equipment controller.

The invention also provides a control device of a control interface, wherein the control interface is a man-machine interaction interface for controlling a device controller of a device; the control interface is provided with an initial display mode of a name or a button or an icon of a control function of the controlled equipment; the control device of the control interface comprises: a collection unit configured to collect, for control of the same device by a user to which the device controller belongs, usage data of a control function of the device when the user controls the device, in a case where the device is networked; a control unit configured to determine usage habit data of the control function of the device in at least one set usage period before a start of a next set usage period based on analysis of usage data of the control function of the device by the user collected in at least one set usage period before the start of the next set usage period; the control unit is further configured to optimize an initial display manner of the control function of the device on the control interface of the device controller according to the usage habit data of the control function of the device in at least one set usage period before the user starts the next set usage period in the next set usage period, so as to obtain an optimized display manner of the control function of the device on the control interface of the device controller; the display unit is configured to display the control functions of the equipment according to an optimized display mode of the control functions of the equipment on the control interface of the equipment controller so as to realize personalized display of the control functions of the equipment on the control interface of the equipment controller based on the using habit data.

In some embodiments, the usage data of the control function of the device when the user controls the device includes: at least one instruction of a voice instruction, a key instruction and a gesture instruction which are sent when the user uses the control function of the equipment, and the sending times of each instruction; the collecting unit collects the use data of the control function of the equipment when the user controls the equipment under the condition that the equipment is networked, and the collecting unit comprises at least one of the following components: under the condition that the equipment receives the voice command, determining the identity of the sender of the voice command according to voiceprint information carried by the voice command, and if the identity of the sender of the voice command is identical to the identity of the user, collecting the voice command and the sending times thereof into use data of a control function of the equipment when the user controls the equipment; under the condition that the equipment receives a key instruction, determining the identity of an issuer of the key instruction according to fingerprint information carried by the key instruction, and if the identity of the issuer of the key instruction is identical to the identity of the user, collecting the key instruction and the issuing times thereof into use data of control functions of the equipment when the user controls the equipment; under the condition that the equipment receives the gesture instruction, determining the identity of the sender of the gesture instruction according to the image information or the fingerprint information carried by the gesture instruction, and if the identity of the sender of the gesture instruction is identical to the identity of the user, collecting the gesture instruction and the sending times thereof into the use data of the control function of the equipment when the user controls the equipment.

In some embodiments, the usage habit data of the control function of the device by the user during at least one of the set usage periods before the start of the next set usage period comprises: the usage habit data of the user for all of the set usage periods in one or more of the set usage periods of the history, or the usage habit data of the user for the control function of the device in at least one of the set usage periods in a period of time before the start of at least the next set usage period in the one or more set usage periods of the history; wherein the history of one or more of the set usage periods includes: the current set use period, the last set use period, and all the set use periods before the last set use period; the control unit optimizes, in a next set usage period, an initial display manner of the control function of the device on the control interface of the device controller according to usage habit data of the control function of the device in at least one set usage period before the user starts the next set usage period, including: and in the next set use period, optimizing an initial display mode of the control function of the equipment on the control interface of the equipment controller according to the use habit data of the control function of the equipment in at least one set use period before at least one next set use period of more than one historical set use periods of the user starts, so as to obtain an optimized display mode of the control function of the equipment on the control interface of the equipment controller.

In some embodiments, the initial display mode includes: at least one section divided according to functions, wherein each section comprises a sorting mode and a display mode of names or buttons or icons of the control functions; the usage habit data includes: the number of uses and the period of use of at least one of the control functions of the device by the user; the control unit optimizes an initial display manner of the control function of the device on the control interface of the device controller according to usage habit data of the control function of the device in at least one set usage period before the user starts the next set usage period in the next set usage period, so as to obtain an optimized display manner of the control function of the device on the control interface of the device controller, and specifically includes: adjusting the arrangement sequence of names or buttons or icons of at least one function with the use times of the user being greater than the set times in the control functions of the equipment to the queue head of the sequencing queue in the layout of each function in the at least one function; if the number of times of using more than one function in one section is greater than the set number of times, sequencing the more than one function in the queue head of the sequencing queue of the section according to the number of times of using the user; and for the name or button or icon of at least one function in the control functions of the equipment which is adjusted to the head of the queue in each section, if the function which is used in a set time period closest to the current time and the time period in which the current time is located is the same as the use time period of the function in the use habit data, the name or button or icon of the function is obviously displayed in a set display mode so as to obviously display the name or button or icon of the function.

In some embodiments, the usage habit data further comprises: at least one of a use sound environment, a use name, and age information of the user for at least one of control functions of the apparatus; the control unit optimizes an initial display manner of the control function of the device on the control interface of the device controller according to the usage habit data of the control function of the device in at least one set usage period before the user starts the next set usage period in the next set usage period, so as to obtain an optimized display manner of the control function of the device on the control interface of the device controller, and specifically further comprises at least one of the following steps: for the names or buttons or icons of at least one function in the control functions of the device which are adjusted to the queue heads of the sequencing queues in each section and are obviously displayed, if the difference between the ambient noise intensity of the device and the sound intensity of the use sound environment in the use habit data is greater than a set noise threshold value, a reminding mark for improving or reducing the control parameters of the function is added at the name or button or icon of the function; the names of all functions in the control functions of the equipment which are adjusted to the head of the queue in each section are displayed according to the use names in the use habit data; and pressing buttons or icons corresponding to the age information in the usage habit data for all the control functions of the equipment which are adjusted to the head of the queue in each section to display.

In some embodiments, the control device of the control interface further includes: the control unit is further configured to mark the optimized display mode of the control function of the device as a new initial display mode of the control function of the device after displaying the control function of the device according to the optimized display mode of the control function of the device on the control interface of the device controller; and the control unit is further configured to optimize an initial display mode of the new control function of the device on the control interface of the device controller according to the usage habit data of the control function of the device in at least one set usage period before the user starts the next set usage period in the next set usage period, so as to obtain an optimized display mode of the control function of the device on the control interface of the device controller.

In accordance with another aspect of the present invention, there is provided an air conditioner controller comprising: the control device of the control interface.

In accordance with the above method, in a further aspect of the present invention, there is provided a storage medium, where the storage medium includes a stored program, and when the program runs, the device on which the storage medium is controlled to execute the control method of the control interface described above.

Thus, according to the scheme of the invention, through aiming at the control interface of the equipment controller (such as the air conditioner controller) for controlling the equipment (such as the air conditioner), the usage habit data of the control function of the same equipment (such as the air conditioner) of the user to which the equipment controller (such as the air conditioner controller) belongs is collected, wherein the usage habit data comprises the usage times, the usage time period and the usage sound environment of at least one function in the control functions of the equipment (such as the air conditioner) of the user; optimizing the display mode of the control functions on the control interface of the equipment controller (such as an air conditioner controller) according to the using habit data at regular intervals, for example, arranging names or buttons or icons of the control functions with high using times in advance, highlighting names or buttons or icons of the control functions which are used in a near time period and have the same time period as the historical using time period in the control functions arranged in advance, and prompting the control mode or recommending control values at the names or buttons or icons of the control functions which are used in a near time period and have the same time period as the historical using time period and are required to be controlled in the current sound environment in order to realize personalized adjustment of the display mode of the control functions on the control interface of the equipment controller (such as the air conditioner controller); therefore, the display form and the name of the control function on the control interface of the air conditioner controller are adjusted and personalized customized according to the cognition and the use habit of different users on the control function of the air conditioner, and the use experience of different users when the control interface of the air conditioner controller is used for controlling the air conditioner is improved.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention.

The technical scheme of the invention is further described in detail through the drawings and the embodiments.

Drawings

FIG. 1 is a flow chart of a control method of a control interface according to an embodiment of the invention;

FIG. 2 is a flow chart of an embodiment of the method of the present invention for optimizing an initial presentation of control functions of a device on a control interface of a device controller based on usage habit data;

FIG. 3 is a flow chart of an embodiment of the method of the present invention for dynamically optimizing a display mode of a control function of a device on a control interface of a device controller;

FIG. 4 is a schematic structural diagram of an embodiment of a control device of a control interface according to the present invention;

FIG. 5 is a control flow diagram of an embodiment of a method for dynamically generating a control interface based on voice control habits of the present invention;

FIG. 6 is a control flow diagram of an embodiment of a method for dynamically generating a control interface based on voice control habits after networking of an apparatus (e.g., an air conditioner) according to the present invention;

FIG. 7 is a layout diagram of a control interface homepage of an apparatus (e.g., an air conditioner) according to an embodiment of the present invention;

FIG. 8 is a layout diagram of an embodiment of a control interface dynamic adjustment page of an apparatus (e.g., an air conditioner) according to the present invention;

fig. 9 is a schematic diagram of an interaction flow between a device (such as an air conditioner), a device controller (such as a voice interaction end, a remote controller, a mobile phone APP, etc.) at a user side, and a cloud server according to the present invention.

In the embodiment of the present invention, reference numerals are as follows, in combination with the accompanying drawings:

102-a collection unit; 104-a control unit; 106-a display unit.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be clearly and completely described below with reference to specific embodiments of the present invention and corresponding drawings. It will be apparent that the described embodiments are only some, but not all, embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In consideration, in the intelligent home service and the man-machine interaction service, along with the rising of intelligent home appliances, the intelligent degree of various intelligent home appliances is higher and higher, and interaction modes (such as voice, vision, mobile phone, remote controller, central control screen and other interaction modes) between a user and the intelligent home appliances are also more and more, and the user can issue control commands in different scenes through different interaction modes, such as voice, gestures and the like, so that the visible interaction entrance is more and more. In the related scheme, a user only uses one interaction mode (such as a remote controller) to control the household appliance (such as an air conditioner), the control entrance of the user to the household appliance is single, but with the increase of the interaction modes, the user can use different interaction modes to control the same intelligent household appliance, so that the control entrance of the user to the household appliance is more diversified, but the operation habit data of the user only using the single interaction mode is differentiated, and the operation data of the user corresponding to the single interaction mode in the historical use data of the intelligent household appliance is less. For example: in the related scheme, a user only uses one interaction mode (such as a remote controller) to control the household appliance (such as an air conditioner), all operation habit data of the user can be collected by the remote controller, and as the mode of controlling the household appliance by the user increases, such as interaction modes of a mobile phone APP, voice, vision, a central control screen and the like are added, after the user uses the newly added interaction mode to control the household appliance, the operation habit data which should be collected by the remote controller is collected by the newly added interaction mode, and the operation habit data collected by the remote controller becomes smaller. Therefore, the single interaction mode cannot be dynamically optimized based on the historical usage data of the intelligent household appliance, and better control experience cannot be provided for users who only use the single interaction mode. Therefore, at least the problems that in the related scheme, the display form of the control function on the control interface (such as the air conditioner APP control interface on the air conditioner controller such as a mobile phone) of the equipment (such as the air conditioner controller) is single, the specialized terms of the names of the control functions are strong, the cognition and the use habit of different users on the control function of the air conditioner cannot be met, and the use experience of different users when using the control interface of the air conditioner controller to control the air conditioner is affected exist.

Therefore, at least in order to solve the problems that in the related scheme, the display form of the control function on the control interface (such as the air conditioner APP control interface on the air conditioner controller such as the mobile phone) of the equipment (such as the air conditioner controller) is single, the specialized terms of the names of the control functions are strong, the cognition and the use habit of different users on the control function of the air conditioner cannot be met, and the use experience of different users when using the control interface of the air conditioner controller to control the air conditioner is affected, the scheme of the invention provides a control method of the control interface, in particular to a control interface dynamic generation method based on the voice control habit, so that the display form and the names of the control function on the control interface of the air conditioner controller are adjusted and personalized customization at least by aiming at the cognition and the use habit of different users on the control function of the air conditioner controller, and the use experience of different users when using the control interface of the air conditioner controller to control the air conditioner is facilitated to be improved.

According to an embodiment of the present invention, a control method for a control interface is provided, as shown in fig. 1, which is a schematic flow chart of an embodiment of the method of the present invention. The control interface is a man-machine interaction interface of a device controller for controlling the device, such as a touch screen control interface of a remote controller of air conditioning equipment, a control interface of a mobile phone terminal APP of the air conditioning equipment and the like. The control interface has an initial presentation mode of names or buttons or icons of control functions of the equipment controlled by the control interface. The initial display mode of the control interface is that a basic interactive interface is provided with a plurality of functional sections, and different functional sections are fixedly arranged at different positions on the basic interactive interface for processing. And marking the commonly used commands according to the functional blocks on the basic interactive interface. For example: the air conditioning functions are classified according to the characteristics of the air conditioner to form functional blocks, such as a switching on/off function, a selection function of a common cooling and heating mode, and a set temperature function are divided into one functional block, an air speed adjusting function is separately divided into one functional block, a selection function of a health mode, a sleep mode, a wind sweeping mode, and the like are divided into one functional block, and the like. FIG. 7 is a schematic layout view of an embodiment of a home page of a control interface of an apparatus (e.g., an air conditioner) according to the present invention, wherein a mode board, a wind speed board and other functional boards are provided according to different functions in the control interface, and a common function button for setting an operation mode of the air conditioner is included in the mode board as shown in FIG. 7; the wind speed plate comprises a common function button for adjusting the wind speed of the air conditioner. The control method of the control interface shown in fig. 1 includes steps S110 to S140:

At step S110, for the control of the same device by the user to which the device controller belongs, in the case of the networking of the devices, usage data of control functions of the devices when the user controls the devices is collected.

When a user controls the equipment, the same equipment controller can generally control different equipment for the equipment of the same brand, at the moment, in order to collect more accurate use data, the use data are distinguished according to the different equipment, and the use data of the control function of the user when the user controls the equipment are collected aiming at the control of the user on the same equipment. The interaction mode between the user and the device is not limited in the process of collecting the usage data, namely, the usage data generated when the user uses the control function of the device through any interaction mode can be collected. And the time of collection may be a long term collection, as long as the device is in a networked condition, collection occurs when usage data is generated. That is, the collection of the usage data of the control function of the device when the user controls the device may be a long-term collection, that is, the usage data of the control function of the device may be collected by the user whenever the user uses the control function of the device in any interactive manner in which the identity of the user and the device can be recognized, in the case where the device is networked.

In some embodiments, usage data for a control function of a device when the device is controlled by a user includes: at least one instruction of voice instructions, key instructions and gesture instructions which are sent by a user when the user uses the control function of the equipment, and the sending times of each instruction. The voice command and the key command can be a command sent by a far field or a command sent by a near field.

In step S110, in the case of networking the device, usage data of a control function of the device when the user controls the device is collected, including at least one of the following:

the first collection mode is as follows: under the condition that the equipment receives the voice command, determining the identity of the sender of the voice command according to voiceprint information carried by the voice command, and if the identity of the sender of the voice command is identical to the identity of a user, collecting the voice command and the sending times thereof into the use data of the control function of the equipment when the user controls the equipment.

The second collection mode is as follows: under the condition that the equipment receives the key instruction, determining the identity of an issuer of the key instruction according to fingerprint information carried by the key instruction, and if the identity of the issuer of the key instruction is identical to the identity of a user, collecting the key instruction and the issuing times thereof into the use data of the control function of the equipment when the user controls the equipment.

Third collection mode: under the condition that the equipment receives the gesture instruction, determining the identity of an issuer of the gesture instruction according to image information or fingerprint information carried by the gesture instruction, and if the identity of the issuer of the gesture instruction is identical to the identity of a user, collecting the gesture instruction and the issuing times thereof into the use data of the control function of the equipment when the user controls the equipment.

In the above-mentioned collection mode, the identity of the instruction sender is determined according to the information carried by the control instruction, and the usage data is collected only when the identity of the instruction sender is identical to the identity of the user. The invalid use data can be effectively filtered through the process, so that the subsequent control method is more accurate.

Through the collection mode, the user can share interaction data between the interaction modes no matter what interaction mode is used, and then the interaction interface is dynamically optimized, so that the control effect is more intelligent, the functions required by the user can be accurately provided, and the control interaction experience of the user is improved. The shared interaction data is the basis for acquiring the user operation habit of the individual, and the control of the individual on the same air conditioner is realized by the pointer, whether the control is realized by the mobile phone APP, the direct control of the air conditioner by voice or the control of different control modes such as the air conditioner by a remote controller.

At step S120, usage habit data of a control function of the device during at least one set usage period before a start of a next set usage period is determined based on analysis of usage data of the control function of the device by a user collected during at least one set usage period before the start of the next set usage period. The set usage period may be set according to an actual scene, such as one day, one week, or longer.

In step S130, in the next set usage period, according to usage habit data of the control function of the device in at least one set usage period before the user starts the next set usage period, an initial display manner of the control function of the device on the control interface of the device controller is optimized, and an optimized display manner of the control function of the device on the control interface of the device controller is obtained.

In some embodiments, the usage habit data of the last set usage period by the user includes: the usage habit data of the user for all of the set usage periods in the one or more set usage periods of the history, or the usage habit data of the user for the control function of the device in at least one of the set usage periods in a period of time before at least a next set usage period of the one or more set usage periods of the history starts. Wherein the history of one or more of the set usage periods includes: the current set use period, the last set use period, and all set use periods before the last set use period. For example: the set usage period is one week, and the history of one or more set usage periods includes the present week, the last week, and each week before the last week.

In step S130, in the next set usage period, according to usage habit data of the control function of the device in at least one set usage period before the next set usage period starts, the optimizing an initial display manner of the control function of the device on the control interface of the device controller includes: and in the next set use period, optimizing the initial display mode of the control function of the equipment on the control interface of the equipment controller according to the use habit data of the control function of the equipment in at least one set use period before the user starts at least one next set use period in more than one set use periods of the history, so as to obtain the optimized display mode of the control function of the equipment on the control interface of the equipment controller. For example: and setting the service cycle as one week, and optimizing the display mode of the control function of the control interface according to the service habit data of the last week and each week before the last week.

The set usage period may also be dynamically changed, for example: the current setting service cycle is one day, the next day can optimize the display mode of the control function on the control interface according to the using habit data of the previous day, and the third day can further optimize the display mode of the control function on the control interface according to the using habit data of the previous two days, so that the display mode of the control function on the control interface is more accurately optimized according to the using habit data of the user, the personalized using habit of the user is more met, and the use of the user is more convenient.

At step S140, on the control interface of the device controller, the control functions of the device are displayed according to the optimized display mode of the control functions of the device, so as to implement personalized display of the control functions of the device on the control interface of the device controller based on the usage habit data.

According to the control interface dynamic generation method based on the voice control habit, aiming at the problem that different interaction modes cannot share data to cooperatively optimize an interaction interface, such as personalized customization cannot be performed on different user habits and cognition adjustment page layouts, the interaction interface of another operation mode is dynamically optimized based on the user operation habits of different interaction modes, so that a user can obtain dynamic interaction feeling based on the user habits (particularly personal user habits) no matter what interaction mode is used, and the interaction experience is improved; for example, statistical learning is performed based on the voice control habit of the user, the function control frequency, the function speaking skill and the like of the user are extracted, and then the function button layout, nouns and the like of the APP control interface of the air conditioner controller are adjusted in a personalized manner, so that a personalized custom interface of the user is realized.

In some embodiments, the initial presentation comprises: at least one section divided according to functions, wherein each section comprises a sorting mode and a display mode of names or buttons or icons of the control functions, the sorting mode is arranged according to a certain sequence, and the display mode is displayed according to a certain size, a certain color and a certain shape; usage habit data, including: the number of uses and the period of use of at least one of the control functions of the device by the user.

In step S130, in the next set usage period, according to usage habit data of the control function of the device in at least one set usage period before the user starts the next set usage period, an initial display manner of the control function of the device on the control interface of the device controller is optimized, so as to obtain a specific process of optimizing the display manner of the control function of the device on the control interface of the device controller, which can be described in the following exemplary manner.

In the following, in conjunction with the flowchart of an embodiment of the method of the present invention shown in fig. 2, which optimizes the initial display manner of the control function of the device on the control interface of the device controller according to the usage habit data, a specific process of optimizing the initial display manner of the control function of the device on the control interface of the device controller according to the usage habit data in step S130 is further described, including: step S210 to step S220.

Step S210, adjusting the arrangement sequence of names or buttons or icons of at least one function with the use times of a user being more than the set times in the control functions of the equipment to the queue head of the sequencing queue in the layout of each function in the at least one function; if the number of times of using more than one function in one section is larger than the set number of times, the more than one function is ordered according to the number of times of using the user in the queue head of the ordering queue of the section.

Step S220, for the name or button or icon of at least one function in the control functions of the device adjusted to the head of the queue in each section, if there is a function used in a set period of time closest to the current time and the period of time in which the current time is the same as the period of use of the function in the usage habit data, the name or button or icon of the function is displayed obviously according to the set display mode, for example, the display mode such as top display, thickening display, display with different colors, flashing display, etc., so that the name, button or icon of the function is displayed obviously, which is convenient for the user to find the function quickly and convenient for the user to operate.

In consideration of the fact that voice control is one of the convenient control modes of intelligent household appliances, the scheme of the invention can gradually count and analyze the use operation habits of users through the use of the voice control by the users. FIG. 7 is a layout diagram of a home control interface page of an apparatus (e.g., an air conditioner) according to an embodiment of the present invention. In the scheme of the invention, the control interface of the air conditioner controller is provided with a basic interaction interface, such as a control interface homepage shown in fig. 7.

In order to realize the scheme of the invention, a voice acquisition module, a voice analysis module, a behavior data storage server, a behavior data marking logic module and an interactive replacement logic module can be arranged.

The voice acquisition module acquires a voice instruction sent by a user, performs voice analysis through the voice analysis module in the voice server to obtain a voice analysis result, and stores the voice analysis result into the behavior data storage server.

And the behavior data marking logic module in the data storage server marks the received data in real time according to the functions so as to mark the received voice instructions as corresponding actual air conditioning instructions, for example, the received data are marked as the starting instructions for opening the air conditioner, starting the air conditioner and the like, the quantity of the functions is counted, the counted quantity of the functions corresponds to the use frequency of the functions, the received voice instructions correspond to the operation frequency of the function instructions of a certain air conditioner, and the behavior with higher use frequency is marked as the operation which can be replaced or is replaced next time. The fact that the action with higher frequency of use is marked as the operation to be replaced next is that some marks of the action with higher frequency of use have time attributes, such as the sleep mode is started at 10 pm, but the requirement is not met in daytime, so that the operation is not required to be replaced when the air conditioner is used in daytime, and the replacement of the action with higher frequency of use is performed when the control interface of the air conditioner controller such as a UI (user interface) is restarted next time and the starting time accords with the attributes of relevant time and the like.

The interactive replacement logic module is used for setting the period of periodically replacing the display forms and names of the functions on the control interface of the air conditioner controller, specifically, reading the number of marks of the data storage server and replacing or displaying the display forms and names of the behaviors with higher use frequency according to the replacement period. Wherein, the replacement means that the functions of the behaviors with higher frequency of use are arranged in the front position in the ordering rule with the function priority; the special display is a prominent expression form of a functional style of a behavior with high frequency of use among functions arranged according to a preset ordering rule. Such as: when the user starts sleeping at 11 pm, if the operation frequency reaches a certain value, the user can mark the operation frequency to replace, and when the UI interface is displayed for the user, the functional patterns and the positions are rearranged and displayed according to the replacement rules, so that the user can find a sleep switch conveniently, for example, the user can perform operations such as thickening, top setting and the like on sleeping. Fig. 8 is a layout diagram of an embodiment of a dynamic adjustment page of a control interface of a device (such as an air conditioner) according to the present invention, and the dynamic adjustment page of the control interface shown in fig. 8 may be referred to for a display interface for replacing or displaying names and display forms of behaviors with higher frequency of use.

Fig. 9 is a schematic diagram of an interaction flow between a device (such as an air conditioner), a device controller (such as a voice interaction end, a remote controller, a mobile phone APP, etc.) at a user side, and a cloud server according to the present invention. As shown in fig. 9, the air conditioner controller may be a voice interaction terminal, an air conditioner remote controller, a mobile phone APP (i.e., an air conditioner APP on a mobile phone), or the like. The user interacts with the air conditioner through the air conditioner controller, the air conditioner collects the using habit data of the user and uploads the using habit data to the cloud server, and the cloud server analyzes the using habit data of the user and dynamically adjusts the display mode and the name of each air conditioner function on a control interface of the air conditioner controller, such as a UI interface, according to the using frequency and the voice command word of the user using a certain air conditioner function in an analysis result.

Based on the scheme of the invention, the operation interface of the mobile phone APP can be adjusted according to the habit of a user, and the application situation of the scheme of the invention is exemplified by several embodiments.

Example 1

The control interface at the APP end of the mobile phone is provided with control functions which are ordered according to the priority, and by arranging commonly used air conditioning functions of a user, such as arranging the functions with high use frequency before arranging or displaying icons of the functions with high use frequency, preferably, the functions with higher use frequency are displayed before arranging, and the recently used functions are highlighted in the functions before arranging. For example: when a control function is input by a user, the device generates control parameters by recording and inquiring the control state and times of the control function, dynamically adjusts the device interface, and if the cooling mode is opened, the control interface can enlarge the cooling key and place the cooling key in a conspicuous position, and the user can conveniently see the control function to operate. Another example is: the user controls the air conditioner to open the sleep mode through the far-field voice of the air conditioner, or opens the sleep mode through the voice of the remote controller, or opens the sleep mode through the physical keys of the remote controller, the behaviors are converted into sleep instructions and recorded into the times of the behaviors, and if the frequency reaches a certain degree or exceeds the frequency of other air conditioner instructions, the frequency is marked, so that the priority display can be promoted.

Example 2

And according to the speech expression habit of the user, personalized adjustment is carried out on the names of the function buttons. For example: when the equipment (such as an air conditioner) is connected and the user is in voice control, the equipment records the voice control command word of the user at the moment, and dynamically adjusts the interface by counting and analyzing the corresponding command word when the user uses the mode, for example, the default noun of the refrigeration mode is refrigeration, and if the user frequently speaks cold air, the interface can name the function button as cold air blowing and the like. The statistics and analysis operations can be executed at the cloud server side, the cloud server performs generalization processing of voice commands on the air conditioning cooling function, the control command of cooling includes a set of voice commands of cooling air, and the user is identified to be associated with cooling after cooling air.

Example 3

And adjusting the layout of the function buttons according to the using habit of the user time period. For example: when the equipment (such as an air conditioner) is connected, the equipment inquires the time period of the current time when the user controls by voice, records the response state and the frequency of voice control in the time period at the moment, generates control parameters according to the response state and the frequency, dynamically adjusts an interface, such as the daytime habit of adjusting the wind speed and the evening habit of adjusting the temperature, so that the daytime wind speed button is more prominent, and the evening temperature button is more prominent; and if the regions are respectively north and south, the refrigerating and dehumidifying buttons are highlighted in the south, and the heating buttons in the north are highlighted. After the air conditioner is networked, the region can be determined according to the IP information of the air conditioner or the position information set by the user at the APP end of the mobile phone.

According to the scheme, based on user voice control habit statistics and learning, the function control frequency, the function speaking operation and the like of the user are extracted, and then the layout, nouns and the like of the function buttons of a control interface (such as a mobile phone APP interface) of the air conditioner controller are adjusted in a personalized mode, so that a personalized custom interface of the user is realized. Therefore, the control interface (such as a mobile phone APP interface) of the air conditioner controller can be functionally partitioned, functions requested by a user are analyzed and counted, voice data are collected and analyzed in a voice mode, and APP interface interaction adjustment is performed according to the use frequency and importance of the user. Aiming at users of different families, the APP terminal interfaces of the mobile phones of all air conditioner users are the same. By adopting the scheme of the invention, different control interfaces can be generated according to the voice control condition of each model; in addition, the voice air conditioner can recognize the ages of family members when performing voice recognition, so that APP can generate different control interfaces according to users with different ages by the same air conditioner according to the ages of login accounts. Therefore, the page layout of the control interface of the air conditioner controller is personalized and customized according to different user habits and cognition, the control effect is more intelligent, the function button icons required by the user can be accurately provided, and the control interaction experience of the user is improved.

In some embodiments, the usage habit data further comprises: at least one of a use sound environment, a use name, and age information of a user for at least one of control functions of the device.

In step S140, in the next set usage period, according to usage habit data of the control function of the device in at least one set usage period before the user starts the next set usage period, an initial display manner of the control function of the device on the control interface of the device controller is optimized, so as to obtain an optimized display manner of the control function of the device on the control interface of the device controller, and specifically further includes at least one of the following:

the first auxiliary optimizing display mode is as follows: for names or buttons or icons of at least one function of control functions of the device which are adjusted to the queue heads of the sequencing queues in each section and are obviously displayed, if the difference between the ambient noise intensity of the device and the sound intensity of the use sound environment in the use habit data is greater than a set noise threshold value, a reminding mark for improving or reducing the control parameters of the function is added at the name or button or icon of the function; for example: for the air conditioner, in the refrigeration mode, if the number of people speaking in the room is large, the television watching sound is large, the music listening sound is large, and the like, so that the environmental noise is large, if the target temperature is set by a user and the wind speed reaches the maximum in the automatic wind speed mode, a mark needing to further reduce the temperature is displayed at the temperature function button, for example, the mark is marked by a downward arrow; if the user has set the target temperature and the target wind speed, a mark requiring further reduction of the temperature is displayed at the temperature function button as marked with a downward arrow or a mark requiring further increase of the wind speed is displayed at the wind speed function button as marked with an upward arrow.

The second auxiliary optimizing display mode: displaying names of all functions in the control functions of the equipment which are adjusted to the head of the queue in each section according to the use names in the use habit data;

the third auxiliary optimizing display mode: buttons or icons of all functions among control functions of the devices adjusted to the head of the queue in each section are displayed by pressing buttons or icons corresponding to age information in the usage habit data.

Specifically, fig. 5 is a control flow diagram of an embodiment of a method for dynamically generating a control interface based on a voice control habit according to the present invention. As shown in fig. 5, the method for dynamically generating a control interface based on voice control habit includes:

step 11, under the condition that a user sends out a voice command word, a device controller (such as an air conditioner controller) recognizes the voice command word, analyzes a control function corresponding to the voice command word, records the state of the air conditioner after executing the control function, and inquires the voice command word and controls the response times and the state of the voice command word after accumulating for a period of time, such as the times of using the temperature setting function of the air conditioner for a period of time by the user; under the condition of changing ambient illumination, the air conditioner controller inquires about the current control time period, such as daytime or evening; in the case of a change in environmental sound, a background sound field of the environment is recognized, for example, in the case of an increase or decrease in the number of people in the environment, in the case of a user watching television or listening to music in the environment, the environmental sound is changed, and at this time, the background noise intensity of the environment needs to be recognized, and automatic control of a part of functions of the air conditioner is realized according to the background noise intensity of the environment. For example: in the refrigeration mode, the air speed of the air conditioner is automatically controlled under the condition that the target temperature of the air conditioner is fixed, and if the background noise intensity of the environment is higher than a certain noise intensity value, the air speed of the air conditioner is automatically improved under the condition that the target temperature of the air conditioner is fixed; if the background noise intensity of the environment is lower than a certain noise intensity value, the wind speed of the air conditioner is automatically reduced under the condition that the target temperature of the air conditioner is certain. Another example is: in the refrigeration mode, the temperature of the air conditioner is automatically controlled under the condition that the target wind speed of the air conditioner is fixed, and if the background noise intensity of the environment is higher than a certain noise intensity value, the temperature of the air conditioner is automatically reduced under the condition that the target wind speed of the air conditioner is fixed; if the background noise of the environment is lower than a certain noise intensity value, the temperature of the air conditioner is automatically increased under the condition that the target wind speed of the air conditioner is certain.

Step 12, generating control parameters based on at least one of the voice command words identified in step 11, the current control time period, and the response times and states of the control command words. The control parameters are used for controlling the priority ordering of the mobile phone APP terminal interface components.

And 13, based on the control parameters generated in the step 12, the air conditioner controller dynamically adjusts the display mode and the name of the function corresponding to the voice command word on the UI interface according to the current control time period and the response times of the current voice command word.

And 14, dynamically displaying the display mode and the name of the function corresponding to the voice command word on a UI interface of the air conditioner controller according to the dynamic adjustment result of the step 13.

Fig. 6 is a control flow diagram of an embodiment of a method for dynamically generating a control interface based on voice control habits after a device (e.g., an air conditioner) of the present invention is networked. As shown in fig. 6, the method for dynamically generating a control interface based on voice control habit after a device (such as an air conditioner) is networked includes:

step 21, in the case of networking of devices (such as air conditioners), steps 31, 41 and 51 are performed respectively.

Step 31, when the air conditioner controller detects a remote voice, for example, when the air conditioner controller detects a voice input through the air conditioner remote controller, the voice APP, the voice interaction end and the like, the control time period and the voice command word at the moment are recorded, the actual control state of the air conditioner at the moment (namely, the corresponding air conditioner control state after the voice command is analyzed) is recorded, and then step 31 is returned.

After recording the control time period and the voice command word in step 31, a control parameter may be generated, and the UI interface for UI interaction may be dynamically adjusted based on the control parameter, and then step 31 is returned.

Step 41, inquiring the time period of the current time in the control interface of the air conditioner controller, inquiring the response state and the response times of the voice control instruction in the time period, dynamically adjusting the UI interface of the UI interaction, and returning to the step 41.

Step 51, inquiring the voice command words input by the user when each function is actually controlled, dynamically adjusting the UI interface of UI interaction according to the use times of the voice command words under different functions, and returning to step 51. For example: and inquiring that the target temperature of the air conditioner is set to 26 degrees in the period of time by the user, and recommending the target temperature to be 26 degrees at the same time when the temperature setting function is highlighted. Another example is: in the refrigeration mode, under the condition that the environmental noise intensity is higher than a certain noise intensity, the air conditioner operates at a target temperature, and the air speed of the air conditioner is automatically adjusted to the highest air speed, but the environmental temperature still needs to be reduced based on the current environmental noise intensity, the temperature setting function of the air conditioner is highlighted, the temperature needs to be reduced, and the air speed reaches the highest air speed.

In steps 32, 41 and 51, the UI interface of the UI interaction is dynamically adjusted, and the layout of various air conditioning function buttons, display buttons, etc. on the UI interface is changed, such as the position, color, size, and initialization parameters, etc. attributes. Such as: the user can often start the sleep mode through voice control air conditioner at 11 pm, and when the user opens cell phone APP about 11 pm, the UI interface can show the sleep mode switch, such as arrange at top etc..

In some embodiments, the control method of the control interface according to the present invention further includes: and dynamically optimizing the display mode of the control function of the equipment on the control interface of the equipment controller.

The following is a schematic flow chart of an embodiment of dynamically optimizing a display manner of a control function of a device on a control interface of a device controller in the method of the present invention in connection with fig. 3, which further describes a specific process of dynamically optimizing a display manner of a control function of a device on a control interface of a device controller, and includes: step S310 to step S320.

Step S310, after the control functions of the equipment are displayed according to the optimized display mode of the control functions of the equipment on the control interface of the equipment controller, the optimized display mode of the control functions of the equipment is marked as the initial display mode of the control functions of the new equipment.

Step S320, in the next set usage period, optimizing an initial display manner of a new control function of the device on the control interface of the device controller according to usage habit data of the control function of the device in at least one set usage period before the user starts the next set usage period, so as to obtain an optimized display manner of the control function of the device on the control interface of the device controller.

By adopting the technical scheme of the embodiment, through a control interface of a device controller (such as an air conditioner controller) for controlling a device (such as an air conditioner), collecting usage habit data of a user to which the device controller (such as the air conditioner controller) belongs for controlling functions of the same device (such as the air conditioner), wherein the usage habit data comprises the usage times, the usage time period and the usage sound environment of at least one function in the control functions of the device (such as the air conditioner) by the user; optimizing the display mode of the control functions on the control interface of the equipment controller (such as an air conditioner controller) according to the using habit data at regular intervals, for example, arranging names or buttons or icons of the control functions with high using times in advance, highlighting names or buttons or icons of the control functions which are used in a near time period and have the same time period as the historical using time period in the control functions arranged in advance, and prompting the control mode or recommending control values at the names or buttons or icons of the control functions which are used in a near time period and have the same time period as the historical using time period and are required to be controlled in the current sound environment in order to realize personalized adjustment of the display mode of the control functions on the control interface of the equipment controller (such as the air conditioner controller); therefore, the display form and the name of the control function on the control interface of the air conditioner controller are adjusted and personalized customized according to the cognition and the use habit of different users on the control function of the air conditioner, and the use experience of different users when the control interface of the air conditioner controller is used for controlling the air conditioner is improved.

According to an embodiment of the present invention, there is also provided a control device of a control interface corresponding to a control method of the control interface. The control interface is a man-machine interaction interface of a device controller for controlling the device, such as a touch screen control interface of a remote controller of air conditioning equipment, a control interface of a mobile phone terminal APP of the air conditioning equipment and the like. The control interface has an initial presentation mode of names or buttons or icons of control functions of the equipment controlled by the control interface. The initial display mode of the control interface is that a basic interactive interface is provided with a plurality of functional sections, and different functional sections are fixedly arranged at different positions on the basic interactive interface for processing. And marking the commonly used commands according to the functional blocks on the basic interactive interface. For example: the air conditioning functions are classified according to the characteristics of the air conditioner to form functional blocks, such as a switching on/off function, a selection function of a common cooling and heating mode, and a set temperature function are divided into one functional block, an air speed adjusting function is separately divided into one functional block, a selection function of a health mode, a sleep mode, a wind sweeping mode, and the like are divided into one functional block, and the like. Referring to fig. 4, a schematic diagram of an embodiment of the apparatus of the present invention is shown. The control device of the control interface may include: a collection unit 102, a control unit 104 and a presentation unit 106.

The collection unit 102 is configured to collect, for control of the same device by a user to which the device controller belongs, usage data of a control function of the device when the user controls the device in a case of device networking. The specific function and processing of the collecting unit 102 is also referred to in step S110.

When a user controls the equipment, the same equipment controller can generally control different equipment for the equipment of the same brand, at the moment, in order to collect more accurate use data, the use data are distinguished according to the different equipment, and the use data of the control function of the user when the user controls the equipment are collected aiming at the control of the user on the same equipment. The interaction mode between the user and the device is not limited in the process of collecting the usage data, namely, the usage data generated when the user uses the control function of the device through any interaction mode can be collected. And the time of collection may be a long term collection, as long as the device is in a networked condition, collection occurs when usage data is generated. That is, the collection of the usage data of the control function of the device when the user controls the device may be a long-term collection, that is, the usage data of the control function of the device may be collected by the user whenever the user uses the control function of the device in any interactive manner in which the identity of the user and the device can be recognized, in the case where the device is networked.

In some embodiments, usage data for a control function of a device when the device is controlled by a user includes: at least one instruction of voice instructions, key instructions and gesture instructions which are sent by a user when the user uses the control function of the equipment, and the sending times of each instruction. The voice command and the key command can be a command sent by a far field or a command sent by a near field.

The collecting unit 102 collects usage data of control functions of the device when a user controls the device in the case of networking the device, including at least one of:

the first collection mode is as follows: the collecting unit 102 is specifically further configured to determine, when the device receives the voice command, an identity of an issuer of the voice command according to voiceprint information carried by the voice command, and if it is determined that the identity of the issuer of the voice command is the same as an identity of a user, collect the voice command and the number of times of issuing the voice command into usage data of a control function of the device when the user controls the device.

The second collection mode is as follows: the collecting unit 102 is specifically further configured to determine, when the device receives the key instruction, an identity of an issuer of the key instruction according to fingerprint information carried by the key instruction, and if it is determined that the identity of the issuer of the key instruction is the same as an identity of a user, collect the key instruction and the number of times of issuing the key instruction into usage data of a control function of the device when the user controls the device.

Third collection mode: the collecting unit 102 is specifically further configured to determine, when the device receives the gesture instruction, an identity of an issuer of the gesture instruction according to image information or fingerprint information carried by the gesture instruction, and if it is determined that the identity of the issuer of the gesture instruction is the same as an identity of a user, collect the gesture instruction and the number of times of issuing the gesture instruction into usage data of a control function of the device when the user controls the device.

In the above-mentioned collection mode, the identity of the instruction sender is determined according to the information carried by the control instruction, and the usage data is collected only when the identity of the instruction sender is identical to the identity of the user. The invalid use data can be effectively filtered through the process, so that the subsequent control method is more accurate.

Through the collection mode, the user can share interaction data between the interaction modes no matter what interaction mode is used, and then the interaction interface is dynamically optimized, so that the control effect is more intelligent, the functions required by the user can be accurately provided, and the control interaction experience of the user is improved. The shared interaction data is the basis for acquiring the user operation habit of the individual, and the control of the individual on the same air conditioner is realized by the pointer, whether the control is realized by the mobile phone APP, the direct control of the air conditioner by voice or the control of different control modes such as the air conditioner by a remote controller.

The control unit 104 is configured to determine usage habit data of the user for the control function of the device during at least one set usage period before the start of the next set usage period based on analysis of usage data of the control function of the device by the user collected during at least one set usage period before the start of the next set usage period. The set usage period may be set according to an actual scene, such as one day, one week, or longer. The specific function and process of the control unit 104 is also referred to as step S120.

The control unit 104 is further configured to optimize, in a next set usage period, an initial display manner of the control function of the device on the control interface of the device controller according to usage habit data of the control function of the device in at least one set usage period before the user starts the next set usage period, so as to obtain an optimized display manner of the control function of the device on the control interface of the device controller. The specific function and processing of the control unit 104 is also referred to in step S130.

In some embodiments, the usage habit data of the last set usage period by the user includes: the usage habit data of the user for all of the set usage periods in the one or more set usage periods of the history, or the usage habit data of the user for the control function of the device in at least one of the set usage periods in a period of time before at least a next set usage period of the one or more set usage periods of the history starts. Wherein the history of one or more of the set usage periods includes: the current set use period, the last set use period, and all set use periods before the last set use period. For example: the set usage period is one week, and the history of one or more set usage periods includes the present week, the last week, and each week before the last week.

The control unit 104 optimizes, in the next set usage period, an initial display manner of the control function of the device on the control interface of the device controller according to usage habit data of the control function of the device in at least one set usage period before the user starts the next set usage period, including: the control unit 104 is specifically further configured to optimize, in a next set usage period, an initial display manner of the control function of the device on the control interface of the device controller according to usage habit data of the control function of the device in at least one set usage period before at least one next set usage period of more than one set usage periods of the history by the user starts, so as to obtain an optimized display manner of the control function of the device on the control interface of the device controller. For example: and setting the service cycle as one week, and optimizing the display mode of the control function of the control interface according to the service habit data of the last week and each week before the last week.

The set usage period may also be dynamically changed, for example: the current setting service cycle is one day, the next day can optimize the display mode of the control function on the control interface according to the using habit data of the previous day, and the third day can further optimize the display mode of the control function on the control interface according to the using habit data of the previous two days, so that the display mode of the control function on the control interface is more accurately optimized according to the using habit data of the user, the personalized using habit of the user is more met, and the use of the user is more convenient.

The display unit 106 is configured to display the control functions of the device according to an optimized display mode of the control functions of the device on the control interface of the device controller, so as to realize personalized display of the control functions of the device on the control interface of the device controller based on the usage habit data. The specific function and process of the display unit 106 refer to step S140.

According to the control interface dynamic generation method based on the voice control habit, aiming at the problem that different interaction modes cannot share data to cooperatively optimize an interaction interface, such as personalized customization cannot be performed on different user habits and cognition adjustment page layouts, the interaction interface of another operation mode is dynamically optimized based on the user operation habits of different interaction modes, so that a user can obtain dynamic interaction feeling based on the user habits (particularly personal user habits) no matter what interaction mode is used, and the interaction experience is improved; for example, statistical learning is performed based on the voice control habit of the user, the function control frequency, the function speaking skill and the like of the user are extracted, and then the function button layout, nouns and the like of the APP control interface of the air conditioner controller are adjusted in a personalized manner, so that a personalized custom interface of the user is realized.

In some embodiments, the initial presentation comprises: at least one section divided according to functions, wherein each section comprises a sorting mode and a display mode of names or buttons or icons of the control functions, the sorting mode is arranged according to a certain sequence, and the display mode is displayed according to a certain size, a certain color and a certain shape; usage habit data, including: the number of uses and the period of use of at least one of the control functions of the device by the user.

The specific process of optimizing, by the control unit 104, the initial display manner of the control function of the device on the control interface of the device controller according to the usage habit data of the control function of the device in at least one set usage period before the user starts the next set usage period in the next set usage period, to obtain the optimized display manner of the control function of the device on the control interface of the device controller may be referred to the following exemplary description, and specifically includes:

the control unit 104 is specifically configured to adjust the name or the arrangement sequence of the buttons or the icons of at least one function with the use times of the user being greater than the set times in the control functions of the device to the queue head of the sequencing queue in the layout of each function in the at least one function; if the number of times of using more than one function in one section is larger than the set number of times, the more than one function is ordered according to the number of times of using the user in the queue head of the ordering queue of the section. The specific function and process of the control unit 104 also refer to step S210.

The control unit 104 is specifically further configured to perform, for at least one of the names or buttons or icons of the control functions of the devices that have been adjusted to the head of the queue in each section, if there is a function that has been used in a set period of time closest to the current time and the period of time in which the current time is the same as the period of use of the function in the usage habit data, a significant display of the name or button or icon of the function is performed in a set display manner, for example, in a prominent manner such as a top display, a bold display, a different color display, a blinking display, etc., so that the name, button or icon of the function is significantly displayed, which is convenient for the user to find the function quickly, and is convenient for the user to perform an operation. The specific function and process of the control unit 104 is also referred to as step S220.

In consideration of the fact that voice control is one of the convenient control modes of intelligent household appliances, the scheme of the invention can gradually count and analyze the use operation habits of users through the use of the voice control by the users. FIG. 7 is a layout diagram of a home control interface page of an apparatus (e.g., an air conditioner) according to an embodiment of the present invention. In the scheme of the invention, the control interface of the air conditioner controller is provided with a basic interaction interface, such as a control interface homepage shown in fig. 7.

In order to realize the scheme of the invention, a voice acquisition module, a voice analysis module, a behavior data storage server, a behavior data marking logic module and an interactive replacement logic module can be arranged.

The voice acquisition module acquires a voice instruction sent by a user, performs voice analysis through the voice analysis module in the voice server to obtain a voice analysis result, and stores the voice analysis result into the behavior data storage server.

And the behavior data marking logic module in the data storage server marks the received data in real time according to the functions so as to mark the received voice instructions as corresponding actual air conditioning instructions, for example, the received data are marked as the starting instructions for opening the air conditioner, starting the air conditioner and the like, the quantity of the functions is counted, the counted quantity of the functions corresponds to the use frequency of the functions, the received voice instructions correspond to the operation frequency of the function instructions of a certain air conditioner, and the behavior with higher use frequency is marked as the operation which can be replaced or is replaced next time. The fact that the action with higher frequency of use is marked as the operation to be replaced next is that some marks of the action with higher frequency of use have time attributes, such as the sleep mode is started at 10 pm, but the requirement is not met in daytime, so that the operation is not required to be replaced when the air conditioner is used in daytime, and the replacement of the action with higher frequency of use is performed when the control interface of the air conditioner controller such as a UI (user interface) is restarted next time and the starting time accords with the attributes of relevant time and the like.

The interactive replacement logic module is used for setting the period of periodically replacing the display forms and names of the functions on the control interface of the air conditioner controller, specifically, reading the number of marks of the data storage server and replacing or displaying the display forms and names of the behaviors with higher use frequency according to the replacement period. Wherein, the replacement means that the functions of the behaviors with higher frequency of use are arranged in the front position in the ordering rule with the function priority; the special display is a prominent expression form of a functional style of a behavior with high frequency of use among functions arranged according to a preset ordering rule. Such as: when the user starts sleeping at 11 pm, if the operation frequency reaches a certain value, the user can mark the operation frequency to replace, and when the UI interface is displayed for the user, the functional patterns and the positions are rearranged and displayed according to the replacement rules, so that the user can find a sleep switch conveniently, for example, the user can perform operations such as thickening, top setting and the like on sleeping. Fig. 8 is a layout diagram of an embodiment of a dynamic adjustment page of a control interface of a device (such as an air conditioner) according to the present invention, and the dynamic adjustment page of the control interface shown in fig. 8 may be referred to for a display interface for replacing or displaying names and display forms of behaviors with higher frequency of use.

Fig. 9 is a schematic diagram of an interaction flow between a device (such as an air conditioner), a device controller (such as a voice interaction end, a remote controller, a mobile phone APP, etc.) at a user side, and a cloud server according to the present invention. As shown in fig. 9, the air conditioner controller may be a voice interaction terminal, an air conditioner remote controller, a mobile phone APP (i.e., an air conditioner APP on a mobile phone), or the like. The user interacts with the air conditioner through the air conditioner controller, the air conditioner collects the using habit data of the user and uploads the using habit data to the cloud server, and the cloud server analyzes the using habit data of the user and dynamically adjusts the display mode and the name of each air conditioner function on a control interface of the air conditioner controller, such as a UI interface, according to the using frequency and the voice command word of the user using a certain air conditioner function in an analysis result.

Based on the scheme of the invention, the operation interface of the mobile phone APP can be adjusted according to the habit of a user, and the application situation of the scheme of the invention is exemplified by several embodiments.

Example 1

The control interface at the APP end of the mobile phone is provided with control functions which are ordered according to the priority, and by arranging commonly used air conditioning functions of a user, such as arranging the functions with high use frequency before arranging or displaying icons of the functions with high use frequency, preferably, the functions with higher use frequency are displayed before arranging, and the recently used functions are highlighted in the functions before arranging. For example: when a control function is input by a user, the device generates control parameters by recording and inquiring the control state and times of the control function, dynamically adjusts the device interface, and if the cooling mode is opened, the control interface can enlarge the cooling key and place the cooling key in a conspicuous position, and the user can conveniently see the control function to operate. Another example is: the user controls the air conditioner to open the sleep mode through the far-field voice of the air conditioner, or opens the sleep mode through the voice of the remote controller, or opens the sleep mode through the physical keys of the remote controller, the behaviors are converted into sleep instructions and recorded into the times of the behaviors, and if the frequency reaches a certain degree or exceeds the frequency of other air conditioner instructions, the frequency is marked, so that the priority display can be promoted.

Example 2

And according to the speech expression habit of the user, personalized adjustment is carried out on the names of the function buttons. For example: when the equipment (such as an air conditioner) is connected and the user is in voice control, the equipment records the voice control command word of the user at the moment, and dynamically adjusts the interface by counting and analyzing the corresponding command word when the user uses the mode, for example, the default noun of the refrigeration mode is refrigeration, and if the user frequently speaks cold air, the interface can name the function button as cold air blowing and the like. The statistics and analysis operations can be executed at the cloud server side, the cloud server performs generalization processing of voice commands on the air conditioning cooling function, the control command of cooling includes a set of voice commands of cooling air, and the user is identified to be associated with cooling after cooling air.

Example 3

And adjusting the layout of the function buttons according to the using habit of the user time period. For example: when the equipment (such as an air conditioner) is connected, the equipment inquires the time period of the current time when the user controls by voice, records the response state and the frequency of voice control in the time period at the moment, generates control parameters according to the response state and the frequency, dynamically adjusts an interface, such as the daytime habit of adjusting the wind speed and the evening habit of adjusting the temperature, so that the daytime wind speed button is more prominent, and the evening temperature button is more prominent; and if the regions are respectively north and south, the refrigerating and dehumidifying buttons are highlighted in the south, and the heating buttons in the north are highlighted. After the air conditioner is networked, the region can be determined according to the IP information of the air conditioner or the position information set by the user at the APP end of the mobile phone.

According to the scheme, based on user voice control habit statistics and learning, the function control frequency, the function speaking operation and the like of the user are extracted, and then the layout, nouns and the like of the function buttons of a control interface (such as a mobile phone APP interface) of the air conditioner controller are adjusted in a personalized mode, so that a personalized custom interface of the user is realized. Therefore, the control interface (such as a mobile phone APP interface) of the air conditioner controller can be functionally partitioned, functions requested by a user are analyzed and counted, voice data are collected and analyzed in a voice mode, and APP interface interaction adjustment is performed according to the use frequency and importance of the user. Aiming at users of different families, the APP terminal interfaces of the mobile phones of all air conditioner users are the same. By adopting the scheme of the invention, different control interfaces can be generated according to the voice control condition of each model; in addition, the voice air conditioner can recognize the ages of family members when performing voice recognition, so that APP can generate different control interfaces according to users with different ages by the same air conditioner according to the ages of login accounts. Therefore, the page layout of the control interface of the air conditioner controller is personalized and customized according to different user habits and cognition, the control effect is more intelligent, the function button icons required by the user can be accurately provided, and the control interaction experience of the user is improved.

In some embodiments, the usage habit data further comprises: at least one of a use sound environment, a use name, and age information of a user for at least one of control functions of the device.

The control unit 104 optimizes an initial display manner of the control function of the device on the control interface of the device controller according to the usage habit data of the control function of the device in at least one set usage period before the user starts the next set usage period in the next set usage period, so as to obtain an optimized display manner of the control function of the device on the control interface of the device controller, and specifically further includes at least one of the following:

the first auxiliary optimizing display mode is as follows: for names or buttons or icons of at least one function of control functions of the device which are adjusted to the queue heads of the sequencing queues in each section and are obviously displayed, if the difference between the ambient noise intensity of the device and the sound intensity of the use sound environment in the use habit data is greater than a set noise threshold value, a reminding mark for improving or reducing the control parameters of the function is added at the name or button or icon of the function; for example: for the air conditioner, in the refrigeration mode, if the number of people speaking in the room is large, the television watching sound is large, the music listening sound is large, and the like, so that the environmental noise is large, if the target temperature is set by a user and the wind speed reaches the maximum in the automatic wind speed mode, a mark needing to further reduce the temperature is displayed at the temperature function button, for example, the mark is marked by a downward arrow; if the user has set the target temperature and the target wind speed, a mark requiring further reduction of the temperature is displayed at the temperature function button as marked with a downward arrow or a mark requiring further increase of the wind speed is displayed at the wind speed function button as marked with an upward arrow.

The second auxiliary optimizing display mode: displaying names of all functions in the control functions of the equipment which are adjusted to the head of the queue in each section according to the use names in the use habit data;

the third auxiliary optimizing display mode: buttons or icons of all functions among control functions of the devices adjusted to the head of the queue in each section are displayed by pressing buttons or icons corresponding to age information in the usage habit data.

Specifically, fig. 5 is a control flow diagram of an embodiment of a method for dynamically generating a control interface based on a voice control habit according to the present invention. As shown in fig. 5, the method for dynamically generating a control interface based on voice control habit includes:

step 11, under the condition that a user sends out a voice command word, a device controller (such as an air conditioner controller) recognizes the voice command word, analyzes a control function corresponding to the voice command word, records the state of the air conditioner after executing the control function, and inquires the voice command word and controls the response times and the state of the voice command word after accumulating for a period of time, such as the times of using the temperature setting function of the air conditioner for a period of time by the user; under the condition of changing ambient illumination, the air conditioner controller inquires about the current control time period, such as daytime or evening; in the case of a change in environmental sound, a background sound field of the environment is recognized, for example, in the case of an increase or decrease in the number of people in the environment, in the case of a user watching television or listening to music in the environment, the environmental sound is changed, and at this time, the background noise intensity of the environment needs to be recognized, and automatic control of a part of functions of the air conditioner is realized according to the background noise intensity of the environment. For example: in the refrigeration mode, the air speed of the air conditioner is automatically controlled under the condition that the target temperature of the air conditioner is fixed, and if the background noise intensity of the environment is higher than a certain noise intensity value, the air speed of the air conditioner is automatically improved under the condition that the target temperature of the air conditioner is fixed; if the background noise intensity of the environment is lower than a certain noise intensity value, the wind speed of the air conditioner is automatically reduced under the condition that the target temperature of the air conditioner is certain. Another example is: in the refrigeration mode, the temperature of the air conditioner is automatically controlled under the condition that the target wind speed of the air conditioner is fixed, and if the background noise intensity of the environment is higher than a certain noise intensity value, the temperature of the air conditioner is automatically reduced under the condition that the target wind speed of the air conditioner is fixed; if the background noise of the environment is lower than a certain noise intensity value, the temperature of the air conditioner is automatically increased under the condition that the target wind speed of the air conditioner is certain.

Step 12, generating control parameters based on at least one of the voice command words identified in step 11, the current control time period, and the response times and states of the control command words. The control parameters are used for controlling the priority ordering of the mobile phone APP terminal interface components.

And 13, based on the control parameters generated in the step 12, the air conditioner controller dynamically adjusts the display mode and the name of the function corresponding to the voice command word on the UI interface according to the current control time period and the response times of the current voice command word.

And 14, dynamically displaying the display mode and the name of the function corresponding to the voice command word on a UI interface of the air conditioner controller according to the dynamic adjustment result of the step 13.

Fig. 6 is a control flow diagram of an embodiment of a method for dynamically generating a control interface based on voice control habits after a device (e.g., an air conditioner) of the present invention is networked. As shown in fig. 6, the method for dynamically generating a control interface based on voice control habit after a device (such as an air conditioner) is networked includes:

step 21, in the case of networking of devices (such as air conditioners), steps 31, 41 and 51 are performed respectively.

Step 31, when the air conditioner controller detects a remote voice, for example, when the air conditioner controller detects a voice input through the air conditioner remote controller, the voice APP, the voice interaction end and the like, the control time period and the voice command word at the moment are recorded, the actual control state of the air conditioner at the moment (namely, the corresponding air conditioner control state after the voice command is analyzed) is recorded, and then step 31 is returned.

After recording the control time period and the voice command word in step 31, a control parameter may be generated, and the UI interface for UI interaction may be dynamically adjusted based on the control parameter, and then step 31 is returned.

Step 41, inquiring the time period of the current time in the control interface of the air conditioner controller, inquiring the response state and the response times of the voice control instruction in the time period, dynamically adjusting the UI interface of the UI interaction, and returning to the step 41.

Step 51, inquiring the voice command words input by the user when each function is actually controlled, dynamically adjusting the UI interface of UI interaction according to the use times of the voice command words under different functions, and returning to step 51. For example: and inquiring that the target temperature of the air conditioner is set to 26 degrees in the period of time by the user, and recommending the target temperature to be 26 degrees at the same time when the temperature setting function is highlighted. Another example is: in the refrigeration mode, under the condition that the environmental noise intensity is higher than a certain noise intensity, the air conditioner operates at a target temperature, and the air speed of the air conditioner is automatically adjusted to the highest air speed, but the environmental temperature still needs to be reduced based on the current environmental noise intensity, the temperature setting function of the air conditioner is highlighted, the temperature needs to be reduced, and the air speed reaches the highest air speed.

In steps 32, 41 and 51, the UI interface of the UI interaction is dynamically adjusted, and the layout of various air conditioning function buttons, display buttons, etc. on the UI interface is changed, such as the position, color, size, and initialization parameters, etc. attributes. Such as: the user can often start the sleep mode through voice control air conditioner at 11 pm, and when the user opens cell phone APP about 11 pm, the UI interface can show the sleep mode switch, such as arrange at top etc..

In some embodiments, the control device of the control interface further comprises: the process of dynamically optimizing the display mode of the control function of the equipment on the control interface of the equipment controller is specifically as follows:

the control unit 104 is further configured to mark the optimized display mode of the control function of the device as an initial display mode of the control function of the new device after displaying the control function of the device according to the optimized display mode of the control function of the device on the control interface of the device controller. The specific function and process of the control unit 104 also refer to step S310.

The control unit 104 is further configured to optimize, in a next set usage period, an initial display manner of a control function of a new device on a control interface of the device controller according to usage habit data of the control function of the device in at least one set usage period before the user starts the next set usage period, so as to obtain an optimized display manner of the control function of the device on the control interface of the device controller. The specific function and process of the control unit 104 also refer to step S320.

Since the processes and functions implemented by the apparatus of the present embodiment substantially correspond to the embodiments, principles and examples of the foregoing methods, the descriptions of the embodiments are not exhaustive, and reference may be made to the descriptions of the foregoing embodiments and their descriptions are omitted herein.

By adopting the technical scheme of the invention, through aiming at the control interface of the equipment controller (such as the air conditioner controller) for controlling the equipment (such as the air conditioner), the use habit data of the control function of the same equipment (such as the air conditioner) by the user to which the equipment controller (such as the air conditioner controller) belongs is collected, wherein the use habit data comprises the use times, the use time period and the use sound environment of at least one function in the control functions of the equipment (such as the air conditioner) by the user; the display mode of the control functions on the control interface of the equipment controller (such as an air conditioner controller) is optimized according to the usage habit data at regular intervals, for example, names or buttons or icons of the control functions with high usage times are arranged forwards, names or buttons or icons of the control functions which are used in a near time period and have the same time period as the historical usage time period in the current time period are highlighted in the control functions arranged forwards, reminding control modes or recommended control values are carried out on the names or buttons or icons of the control functions which are used in the near time period and have the same time period as the historical usage time period in the current time period and are required to be controlled in the current sound environment, so that personalized adjustment of the display mode of the control functions on the control interface of the equipment controller (such as the air conditioner controller) is realized, the function button icons required by a user can be accurately provided, and the control interaction experience of the user can be improved.

According to an embodiment of the present invention, there is also provided an air conditioner controller corresponding to a control device of a control interface. The air conditioner controller may include: the control device of the control interface.

Since the processes and functions implemented by the air conditioner controller of the present embodiment basically correspond to the embodiments, principles and examples of the foregoing apparatus, the descriptions of the present embodiment are not exhaustive, and reference may be made to the related descriptions of the foregoing embodiments, which are not repeated herein.

By adopting the technical scheme of the invention, through aiming at the control interface of the equipment controller (such as the air conditioner controller) for controlling the equipment (such as the air conditioner), the use habit data of the control function of the same equipment (such as the air conditioner) by the user to which the equipment controller (such as the air conditioner controller) belongs is collected, wherein the use habit data comprises the use times, the use time period and the use sound environment of at least one function in the control functions of the equipment (such as the air conditioner) by the user; the display mode of the control functions on the control interface of the equipment controller (such as the air conditioner controller) is optimized according to the usage habit data at regular intervals, for example, names or buttons or icons of the control functions with high usage times are arranged forwards, names or buttons or icons of the control functions which are used in a near time period and have the same time period as the historical usage time period in the current time period are highlighted in the control functions arranged forwards, reminding control modes or recommended control values are carried out on the names or buttons or icons of the control functions which are used in the near time period and have the same time period as the historical usage time period in the current time period and are required to be controlled in the current sound environment, so that personalized adjustment of the display mode of the control functions on the control interface of the equipment controller (such as the air conditioner controller) is realized, personalized customization can be carried out on page layout of the control interface of the air conditioner controller according to different user habits and cognitively adjusted control effects, and the control effects are more intelligent.

According to an embodiment of the present invention, there is also provided a storage medium corresponding to a control method of a control interface, where the storage medium includes a stored program, and when the program runs, the device where the storage medium is controlled to execute the control method of the control interface described above.

Since the processes and functions implemented by the storage medium of the present embodiment substantially correspond to the embodiments, principles and examples of the foregoing methods, the descriptions of the present embodiment are not exhaustive, and reference may be made to the related descriptions of the foregoing embodiments, which are not repeated herein.

By adopting the technical scheme of the invention, through aiming at the control interface of the equipment controller (such as the air conditioner controller) for controlling the equipment (such as the air conditioner), the use habit data of the control function of the same equipment (such as the air conditioner) by the user to which the equipment controller (such as the air conditioner controller) belongs is collected, wherein the use habit data comprises the use times, the use time period and the use sound environment of at least one function in the control functions of the equipment (such as the air conditioner) by the user; the display mode of the control functions on the control interface of the equipment controller (such as an air conditioner controller) is optimized according to the usage habit data at regular intervals, for example, names or buttons or icons of the control functions with high usage times are arranged forwards, names or buttons or icons of the control functions which are used in a near time period and have the same time period as the historical usage time period in the current time period are highlighted in the control functions arranged forwards, and reminding control modes or recommended control values are carried out on the names or buttons or icons of the control functions which are used in the near time period and have the same time period as the historical usage time period in the current time period and are required to be controlled in the current sound environment, so that personalized adjustment of the display mode of the control functions on the control interface of the equipment controller (such as the air conditioner controller) is realized, the interactive interface can be dynamically optimized, the control effect is more intelligent, the functions required by the user can be accurately provided, and the control interactive experience of the user is improved.

In summary, it is readily understood by those skilled in the art that the above-described advantageous ways can be freely combined and superimposed without conflict.

The above description is only an example of the present invention and is not intended to limit the present invention, but various modifications and variations can be made to the present invention by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (14)

1. The control interface is a man-machine interaction interface for controlling a device controller of a device; the control interface is provided with an initial display mode of a name or a button or an icon of a control function of the controlled equipment; the control method of the control interface comprises the following steps:

for the control of the same equipment by a user to which the equipment controller belongs, collecting the use data of the control function of the equipment when the user controls the equipment under the condition that the equipment is networked;

determining usage habit data of the user for the control function of the device during at least one set usage period before the start of the next set usage period based on analysis of usage data of the control function of the device by the user collected during at least one set usage period before the start of the next set usage period;

In the next set use period, optimizing an initial display mode of the control function of the device on the control interface of the device controller according to the use habit data of the control function of the device in at least one set use period before the user starts the next set use period, so as to obtain an optimized display mode of the control function of the device on the control interface of the device controller;

and displaying the control functions of the equipment on a control interface of the equipment controller according to an optimized display mode of the control functions of the equipment so as to realize personalized display of the control functions of the equipment on the control interface of the equipment controller based on the using habit data.

2. The control method of a control interface according to claim 1, wherein the usage data of the control function of the device when the user controls the device includes: at least one instruction of a voice instruction, a key instruction and a gesture instruction which are sent when the user uses the control function of the equipment, and the sending times of each instruction;

Collecting usage data of control functions of the device when the user controls the device, including at least one of:

under the condition that the equipment receives the voice command, determining the identity of the sender of the voice command according to voiceprint information carried by the voice command, and if the identity of the sender of the voice command is identical to the identity of the user, collecting the voice command and the sending times thereof into use data of a control function of the equipment when the user controls the equipment;

under the condition that the equipment receives a key instruction, determining the identity of an issuer of the key instruction according to fingerprint information carried by the key instruction, and if the identity of the issuer of the key instruction is identical to the identity of the user, collecting the key instruction and the issuing times thereof into use data of control functions of the equipment when the user controls the equipment;

under the condition that the equipment receives the gesture instruction, determining the identity of the sender of the gesture instruction according to the image information or the fingerprint information carried by the gesture instruction, and if the identity of the sender of the gesture instruction is identical to the identity of the user, collecting the gesture instruction and the sending times thereof into the use data of the control function of the equipment when the user controls the equipment.

3. The control method of a control interface according to claim 1, wherein the usage habit data of the control function of the device by the user in at least one of the set usage periods before the start of the next set usage period includes: the usage habit data of the user for all of the set usage periods in one or more of the set usage periods of the history, or the usage habit data of the user for the control function of the device in at least one of the set usage periods in a period of time before the start of at least the next set usage period in the one or more set usage periods of the history; wherein the history of one or more of the set usage periods includes: the current set use period, the last set use period, and all the set use periods before the last set use period;

in the next set use period, optimizing an initial display manner of the control function of the device on the control interface of the device controller according to the use habit data of the control function of the device in at least one set use period before the user starts the next set use period, including:

And in the next set use period, optimizing an initial display mode of the control function of the equipment on the control interface of the equipment controller according to the use habit data of the control function of the equipment in at least one set use period before at least one next set use period of more than one historical set use periods of the user starts, so as to obtain an optimized display mode of the control function of the equipment on the control interface of the equipment controller.

4. The method for controlling a control interface according to claim 1, wherein the initial presentation mode includes: at least one section divided according to functions, wherein each section comprises a sorting mode and a display mode of names or buttons or icons of the control functions; the usage habit data includes: the number of uses and the period of use of at least one of the control functions of the device by the user;

in the next set use period, according to the usage habit data of the control function of the device in at least one set use period before the user starts the next set use period, optimizing an initial display manner of the control function of the device on a control interface of the device controller to obtain an optimized display manner of the control function of the device on the control interface of the device controller, wherein the method specifically comprises the following steps:

Adjusting the arrangement sequence of names or buttons or icons of at least one function with the use times of the user being greater than the set times in the control functions of the equipment to the queue head of the sequencing queue in the layout of each function in the at least one function; if the number of times of using more than one function in one section is greater than the set number of times, sequencing the more than one function in the queue head of the sequencing queue of the section according to the number of times of using the user;

and for the name or button or icon of at least one function in the control functions of the equipment which is adjusted to the head of the queue in each section, if the function which is used in a set time period closest to the current time and the time period in which the current time is located is the same as the use time period of the function in the use habit data, the name or button or icon of the function is obviously displayed in a set display mode so as to obviously display the name or button or icon of the function.

5. The control method of a control interface according to claim 4, characterized in that the usage habit data further comprises: at least one of a use sound environment, a use name, and age information of the user for at least one of control functions of the apparatus;

In the next set use period, according to the usage habit data of the control function of the device in at least one set use period before the user starts the next set use period, optimizing an initial display mode of the control function of the device on a control interface of the device controller to obtain an optimized display mode of the control function of the device on the control interface of the device controller, and specifically further including at least one of the following:

for the names or buttons or icons of at least one function in the control functions of the device which are adjusted to the queue heads of the sequencing queues in each section and are obviously displayed, if the difference between the ambient noise intensity of the device and the sound intensity of the use sound environment in the use habit data is greater than a set noise threshold value, a reminding mark for improving or reducing the control parameters of the function is added at the name or button or icon of the function;

the names of all functions in the control functions of the equipment which are adjusted to the head of the queue in each section are displayed according to the use names in the use habit data;

And pressing buttons or icons corresponding to the age information in the usage habit data for all the control functions of the equipment which are adjusted to the head of the queue in each section to display.

6. The control method of a control interface according to any one of claims 1 to 5, characterized by further comprising:

on a control interface of the equipment controller, after the control functions of the equipment are displayed according to the optimized display mode of the control functions of the equipment, marking the optimized display mode of the control functions of the equipment as a new initial display mode of the control functions of the equipment;

and in the next set use period, optimizing an initial display mode of the new control function of the equipment on the control interface of the equipment controller according to the use habit data of the control function of the equipment in at least one set use period before the next set use period starts by the user, so as to obtain an optimized display mode of the control function of the equipment on the control interface of the equipment controller.

7. The control device of the control interface is characterized in that the control interface is a man-machine interaction interface for controlling a device controller of a device; the control interface is provided with an initial display mode of a name or a button or an icon of a control function of the controlled equipment; the control device of the control interface comprises:

A collection unit configured to collect, for control of the same device by a user to which the device controller belongs, usage data of a control function of the device when the user controls the device, in a case where the device is networked;

a control unit configured to determine usage habit data of the control function of the device in at least one set usage period before a start of a next set usage period based on analysis of usage data of the control function of the device by the user collected in at least one set usage period before the start of the next set usage period;

the control unit is further configured to optimize an initial display manner of the control function of the device on the control interface of the device controller according to the usage habit data of the control function of the device in at least one set usage period before the user starts the next set usage period in the next set usage period, so as to obtain an optimized display manner of the control function of the device on the control interface of the device controller;

The display unit is configured to display the control functions of the equipment according to an optimized display mode of the control functions of the equipment on the control interface of the equipment controller so as to realize personalized display of the control functions of the equipment on the control interface of the equipment controller based on the using habit data.

8. The control device of claim 7, wherein the usage data of the control function of the apparatus when the user controls the apparatus comprises: at least one instruction of a voice instruction, a key instruction and a gesture instruction which are sent when the user uses the control function of the equipment, and the sending times of each instruction;

the collecting unit collects the use data of the control function of the equipment when the user controls the equipment under the condition that the equipment is networked, and the collecting unit comprises at least one of the following components:

under the condition that the equipment receives the voice command, determining the identity of the sender of the voice command according to voiceprint information carried by the voice command, and if the identity of the sender of the voice command is identical to the identity of the user, collecting the voice command and the sending times thereof into use data of a control function of the equipment when the user controls the equipment;

Under the condition that the equipment receives a key instruction, determining the identity of an issuer of the key instruction according to fingerprint information carried by the key instruction, and if the identity of the issuer of the key instruction is identical to the identity of the user, collecting the key instruction and the issuing times thereof into use data of control functions of the equipment when the user controls the equipment;

under the condition that the equipment receives the gesture instruction, determining the identity of the sender of the gesture instruction according to the image information or the fingerprint information carried by the gesture instruction, and if the identity of the sender of the gesture instruction is identical to the identity of the user, collecting the gesture instruction and the sending times thereof into the use data of the control function of the equipment when the user controls the equipment.

9. The control device of claim 7, wherein the usage habit data of the control function of the equipment in at least one of the set usage periods before the start of the next set usage period by the user comprises: the usage habit data of the user for all of the set usage periods in one or more of the set usage periods of the history, or the usage habit data of the user for the control function of the device in at least one of the set usage periods in a period of time before the start of at least the next set usage period in the one or more set usage periods of the history; wherein the history of one or more of the set usage periods includes: the current set use period, the last set use period, and all the set use periods before the last set use period;

The control unit optimizes, in a next set usage period, an initial display manner of the control function of the device on the control interface of the device controller according to usage habit data of the control function of the device in at least one set usage period before the user starts the next set usage period, including:

and in the next set use period, optimizing an initial display mode of the control function of the equipment on the control interface of the equipment controller according to the use habit data of the control function of the equipment in at least one set use period before at least one next set use period of more than one historical set use periods of the user starts, so as to obtain an optimized display mode of the control function of the equipment on the control interface of the equipment controller.

10. The control device of the control interface according to claim 7, wherein the initial presentation means comprises: at least one section divided according to functions, wherein each section comprises a sorting mode and a display mode of names or buttons or icons of the control functions; the usage habit data includes: the number of uses and the period of use of at least one of the control functions of the device by the user;

The control unit optimizes an initial display manner of the control function of the device on the control interface of the device controller according to usage habit data of the control function of the device in at least one set usage period before the user starts the next set usage period in the next set usage period, so as to obtain an optimized display manner of the control function of the device on the control interface of the device controller, and specifically includes:

adjusting the arrangement sequence of names or buttons or icons of at least one function with the use times of the user being greater than the set times in the control functions of the equipment to the queue head of the sequencing queue in the layout of each function in the at least one function; if the number of times of using more than one function in one section is greater than the set number of times, sequencing the more than one function in the queue head of the sequencing queue of the section according to the number of times of using the user;

and for the name or button or icon of at least one function in the control functions of the equipment which is adjusted to the head of the queue in each section, if the function which is used in a set time period closest to the current time and the time period in which the current time is located is the same as the use time period of the function in the use habit data, the name or button or icon of the function is obviously displayed in a set display mode so as to obviously display the name or button or icon of the function.

11. The control device of the control interface according to claim 10, wherein the usage habit data further comprises: at least one of a use sound environment, a use name, and age information of the user for at least one of control functions of the apparatus;

the control unit optimizes an initial display manner of the control function of the device on the control interface of the device controller according to the usage habit data of the control function of the device in at least one set usage period before the user starts the next set usage period in the next set usage period, so as to obtain an optimized display manner of the control function of the device on the control interface of the device controller, and specifically further comprises at least one of the following steps:

for the names or buttons or icons of at least one function in the control functions of the device which are adjusted to the queue heads of the sequencing queues in each section and are obviously displayed, if the difference between the ambient noise intensity of the device and the sound intensity of the use sound environment in the use habit data is greater than a set noise threshold value, a reminding mark for improving or reducing the control parameters of the function is added at the name or button or icon of the function;

The names of all functions in the control functions of the equipment which are adjusted to the head of the queue in each section are displayed according to the use names in the use habit data;

and pressing buttons or icons corresponding to the age information in the usage habit data for all the control functions of the equipment which are adjusted to the head of the queue in each section to display.

12. The control device of a control interface according to any one of claims 7 to 11, characterized by further comprising:

the control unit is further configured to mark the optimized display mode of the control function of the device as a new initial display mode of the control function of the device after displaying the control function of the device according to the optimized display mode of the control function of the device on the control interface of the device controller;

and the control unit is further configured to optimize an initial display mode of the new control function of the device on the control interface of the device controller according to the usage habit data of the control function of the device in at least one set usage period before the user starts the next set usage period in the next set usage period, so as to obtain an optimized display mode of the control function of the device on the control interface of the device controller.

13. An air conditioner controller, comprising: a control device for a control interface according to any one of claims 7 to 12.

14. A storage medium comprising a stored program, wherein the program, when run, controls a device in which the storage medium is located to perform the control method of the control interface of any one of claims 1 to 6.