CN115268293B - Touch screen control panel based on control of whole house intelligent household appliances - Google Patents

Abstract

The invention provides a touch screen control panel based on full-house intelligent household appliance control, which comprises a touch screen control panel and a control panel, wherein the touch screen control panel comprises a touch screen control panel body and a control panel body, wherein the control panel body comprises a touch screen control panel and a control panel body, and the control panel body: the image processing module converts information acquired by the touch screen into a first user instruction and sends the first user instruction to the microprocessor; the voice processing module converts the information acquired by the microphone into a second user instruction and sends the second user instruction to the microprocessor; the microprocessor sends corresponding operation interface display information to the image processing module according to the user instruction, and simultaneously sends corresponding voice information to the voice processing module, the voice information is converted into a touch screen display instruction by the image processing module, and the touch screen display instruction is converted into a voice playing instruction by the voice processing module; simultaneously, the microprocessor sends control instructions of corresponding household appliances to the data transmission module according to the household appliance control information in the user instructions; the operation interface display information comprises a whole house structure diagram containing a household appliance virtual image. The invention improves the experience of the user and makes the operation interface more friendly and humanized.

Description

Touch screen control panel based on control of whole house intelligent household appliances

Technical Field

The invention relates to the field of intelligent household appliance control, in particular to a touch screen control panel based on full-house intelligent household appliance control.

Background

Most of the household appliances in the prior art are provided with control panels, however, most of the control panels adopt physical keys to be in one-to-one correspondence with corresponding functions or components, or adopt virtual keys to be in one-to-one correspondence with corresponding functions or components, and the use of a touch screen to realize virtual keys reduces the cost problem caused by the physical keys to a certain extent, however, the advantages of the touch screen control panels are not exerted, even though the more advanced patent applications EP3086700A1, US08797276B2 and CN2747496Y can only control one object, and the control requirement of the intelligent household appliances in the whole house is difficult to meet.

Along with the high-speed development of technologies such as computers, electronics and networks, and pursuit of people on life quality, the intellectualization of the whole house household appliances becomes a development trend in the future, and at present, various types of intelligent household products at home and abroad are more and more, and the traditional intelligent household depends on mobile phones, voices or simple touch screen control panels, so that the demands of people on intellectualization are difficult to meet.

Disclosure of Invention

The invention aims to overcome the defects in the prior art, and provides a touch screen control panel based on full-house intelligent household appliance control.

In order to overcome the defects in the prior art, the invention adopts the following technical scheme:

touch-screen control panel based on control of whole house intelligent household electrical appliances, its characterized in that: the device comprises a microprocessor, a touch screen, a loudspeaker, a microphone, a data transmission module, an image processing module and a voice processing module which are arranged on a control panel; the data transmission module is in data connection with the microprocessor, the microphone and the loudspeaker are in data connection with the microprocessor through the voice processing module, and the touch screen is in data connection with the microprocessor through the image processing module; the microprocessor is used for controlling the display content of the touch screen and the working state of the household appliance, and specifically comprises the following steps: the information acquired by the touch screen is input to an image processing module, and is converted into a first user instruction by the image processing module and is sent to the microprocessor; the information collected by the microphone is input into a voice processing module, and is converted into a second user instruction by the voice processing module and sent to the microprocessor; the microprocessor sends corresponding operation interface display information to the image processing module according to the first user instruction or the second user instruction, and simultaneously sends corresponding voice information to the voice processing module, the voice processing module converts the voice information into a touch screen display instruction and sends the touch screen display instruction to the touch screen, and the voice processing module converts the touch screen display instruction into a voice playing instruction and sends the voice playing instruction to the loudspeaker; simultaneously, the microprocessor sends control instructions of corresponding household appliances to the data transmission module according to household appliance control information in the first user instruction or the second user instruction; the operation interface display information comprises a whole house structure diagram containing a household appliance virtual image; the microprocessor correspondingly adjusts the whole house structure diagram displayed by the touch screen based on the adjustment information of the user terminal on the whole house structure diagram and the household appliance layout; the touch screen control panel also comprises a human body sensor connected with the microprocessor, and the microprocessor controls the touch screen to enter a bright screen state based on human body signals detected by the human body sensor; when a user touches a position corresponding to a virtual image of the household appliance in the whole-house structure diagram for a single time more than a first preset time or gives a voice command for starting the corresponding household appliance, the microprocessor sends a starting command to the electric appliance in the corresponding position, and when the user touches the position corresponding to the virtual image of the household appliance for a double time more than the first preset time or gives a voice command for closing the corresponding household appliance, the microprocessor sends a closing command to the electric appliance in the corresponding position; when the residence time of the user at the position corresponding to the virtual image of the household appliance in the whole house structure diagram is longer than the preset time, the microprocessor controls the touch screen to display the virtual control panel of the corresponding household appliance.

Further, when the residence time of the user at the position corresponding to the non-home appliance virtual image in the whole room structure diagram is longer than the preset time, the microprocessor controls the touch screen to display the enlarged image of the corresponding area.

Further, the touch screen control panels to which different areas belong are different in the whole house structure diagram correspondingly displayed, and specifically include: and according to the region position, displaying the corresponding part of the region in an enlarged mode in the whole house structure diagram, and displaying the rest part in a reduced mode.

Further, the microprocessor sends operation interface update display information to the image processing module according to the home appliance state information fed back by the data transmission module, the operation interface update display information is converted into a first update display instruction of the touch screen by the image processing module and sent to the touch screen for update display, and the operation interface update display information comprises update of a corresponding home appliance virtual image on the whole house structure diagram.

Further, the microprocessor dynamically adjusts the display content of the touch screen according to the history of the user use, including: the microprocessor inputs the temperature, humidity and brightness data provided by the current time and data transmission module into the algorithm model based on a preset algorithm model, and sends the obtained display content information of the current touch screen to the image processing module, and the image processing module converts the display content information into a second update display instruction of the touch screen and sends the second update display instruction to the touch screen for update display.

The beneficial effects obtained by the invention are as follows:

the image processing module is used for processing the display content of the touch screen into a simple first user instruction to the microprocessor, and converting the user instruction provided by the microprocessor into the display instruction of the touch screen, so that the processing pressure of the microprocessor on image processing is reduced. The voice processing module is used for converting the information acquired by the microphone into a simple second user instruction to the microprocessor, converting the voice information provided by the microprocessor into a voice playing instruction and sending the voice playing instruction to the loudspeaker, so that the processing pressure of the microprocessor on voice recognition and processing is reduced. Therefore, the data processing efficiency of the microprocessor is improved, and a good hardware basis is provided for the intellectualization of the touch screen control panel. In addition, the control panel combines touch screen control and voice control, and can inform the user of the situation after the task is executed by voice, so that the experience of the user is greatly improved. Furthermore, the operation interface is displayed in the form of a whole-house structure diagram containing the virtual images of the household appliances, so that a user can quickly and globally control the control condition of the whole-house household appliances, the operation interface is more friendly and humanized, and the defect that the control panel interface is single and the running state of the whole-house household appliances is difficult to quickly control in the prior art is overcome.

Drawings

The invention will be further understood from the following description taken in conjunction with the accompanying drawings. The components in the figures are not necessarily to scale, emphasis instead being placed upon illustrating the principles of the embodiments. Like reference numerals designate corresponding parts throughout the different views.

FIG. 1 is a schematic diagram of the relationship of the various modules of the present invention.

FIG. 2 is a schematic diagram of the data flow between the modules of the present invention.

Fig. 3 is a schematic diagram of a whole house structure including a virtual image of a home appliance according to the present invention.

Fig. 4 is a schematic diagram of an operation interface of the air conditioner after being triggered.

Fig. 5 is an enlarged schematic view of a partial area of the present invention.

Detailed Description

In order to make the technical scheme and advantages of the present invention more apparent, the present invention will be further described in detail with reference to the following examples thereof; it should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention. Other systems, methods, and/or features of the present embodiments will be or become apparent to one with skill in the art upon examination of the following detailed description. The following description is intended to include all such additional systems, methods, features and advantages within the scope of the present invention, and be protected by the accompanying claims. Additional features of the disclosed embodiments are described in, and will be apparent from, the following detailed description.

The same or similar reference numbers in the drawings of embodiments of the invention correspond to the same or similar components; in the description of the present invention, it should be understood that, if there is an azimuth or positional relationship indicated by terms such as "upper", "lower", "left", "right", etc., based on the azimuth or positional relationship shown in the drawings, it is only for convenience of describing the present invention and simplifying the description, but it is not indicated or implied that the apparatus or component referred to must have a specific azimuth, construction and operation in which the term is described in the drawings is merely illustrative, and it is not to be construed that the term is limited to the patent, and specific meanings of the term may be understood by those skilled in the art according to specific circumstances.

Embodiment one, a touch-sensitive screen control panel based on control of whole house intelligent household electrical appliances, its characterized in that: the device comprises a microprocessor, a touch screen, a loudspeaker, a microphone, a data transmission module, an image processing module and a voice processing module which are arranged on a control panel; the data transmission module is in data connection with the microprocessor, the microphone and the loudspeaker are in data connection with the microprocessor through the voice processing module, and the touch screen is in data connection with the microprocessor through the image processing module; see fig. 1 for specific connection relationships. The microprocessor is used for controlling the display content of the touch screen and the working state of the household appliance, and specifically comprises the following steps: the information acquired by the touch screen is input to an image processing module, and is converted into a first user instruction by the image processing module and is sent to the microprocessor; the information collected by the microphone is input into a voice processing module, and is converted into a second user instruction by the voice processing module and sent to the microprocessor; the microprocessor sends corresponding operation interface display information to the image processing module according to the first user instruction or the second user instruction, and simultaneously sends corresponding voice information to the voice processing module, including but not limited to operation interface prompt information and household appliance execution state information, for example, when a user lights a living room lamp, the control panel plays through a loudspeaker: the living room lamp is lightened, and when a user activates the virtual operation panel of the living room air conditioner, the control panel plays through a loudspeaker: a living room air conditioner remote controller. The image processing module converts the display instruction into a touch screen display instruction and sends the touch screen display instruction to the touch screen, and the voice processing module converts the display instruction into a voice playing instruction and sends the voice playing instruction to the loudspeaker; simultaneously, the microprocessor sends control instructions of corresponding household appliances to the data transmission module according to household appliance control information in the first user instruction or the second user instruction; the information flow diagram between the modules is shown in fig. 2. The operation interface display information includes a whole house structure diagram including a virtual image of the home appliance, and fig. 3 is a schematic diagram of the whole house structure diagram, which is only referred to, and is not meant to be limiting.

The microprocessor correspondingly adjusts the whole house structure diagram displayed by the touch screen based on the adjustment information of the user terminal on the whole house structure diagram and the household appliance layout. The user terminals include, but are not limited to: cell phone, tablet, computer, server. The user can set the adjustment information through the APP software, and the control panel obtains the adjustment information through the data transmission module to update the displayed whole house structure diagram, including but not limited to: household patterns, household appliance configuration, household appliance positions and the like, so that the control panel can be set individually according to different families, and the use requirements of the different families are met.

The touch screen control panel also comprises a human body sensor connected with the microprocessor, and the microprocessor controls the touch screen to enter a bright screen state based on human body signals detected by the human body sensor. When the touch screen is not used for more than the preset time, the microprocessor controls the touch screen to enter a dormant state, so that the power consumption of the control panel is reduced.

When a user touches a position corresponding to a virtual image of the household appliance in the whole house structure diagram for a single time more than a first preset time or gives a voice command for starting the corresponding household appliance, the microprocessor sends a starting command to the electric appliance in the corresponding position, and when the user touches the position corresponding to the virtual image of the household appliance for a double time more than the first preset time or gives a voice command for closing the corresponding household appliance, the microprocessor sends a closing command to the electric appliance in the corresponding position. Through combining the voice with touch screen control, improved control panel's use convenience, let the old man of eyesight weak or high child's that is not enough also can realize household electrical appliances intelligent control.

When the residence time of the user at the position corresponding to the virtual image of the household appliance in the whole room structure diagram is longer than the preset time, the microprocessor controls the touch screen to display the virtual control panel of the corresponding household appliance, and fig. 4 is a virtual control panel of the air conditioner, and only an example is given. According to the invention, the household appliance controller is designed in the whole house structure diagram in a virtual control panel mode, and the display can be activated when the user operation meets the requirement that the residence time is longer than the preset time, so that the operation interface displayed by the touch screen is more humanized, the information capacity is larger, and the remote control requirement on various household appliances is met under the condition of a concise whole house interface.

In the prior art, the control interface of the whole house household appliance generally displays various modes on the touch screen in a centralized way, and when the content cannot be displayed on the interface, the control interface is solved in a main menu mode or a screen sliding mode, the display content is too complex or is closer to an interface used by a developer, and the control interface is more visual and more suitable for the use habit of a user.

Further, when the residence time of the user at the position corresponding to the non-home appliance virtual image in the whole house structure diagram is longer than the preset time, the microprocessor controls the touch screen to display an enlarged view of the corresponding area, and fig. 5 is a schematic diagram of one of the child houses after being enlarged, and only reference is made. In order to facilitate the user to more intuitively see the control object, the touch screen is enlarged under the condition of user activation, so that the user experience can be improved.

Further, the touch screen control panels to which different areas belong are different in the whole house structure diagram correspondingly displayed, and specifically include: and according to the region position, displaying the corresponding part of the region in an enlarged mode in the whole house structure diagram, and displaying the rest part in a reduced mode.

The control panel is arranged at one position of the whole house, so that the actual requirements of users are difficult to meet, however, the use requirements of users in different areas are different, for example, a child house generally only has control requirements on household appliances in and around the child house, the corresponding area of the child house is enlarged, other areas are reduced, the users can more intuitively see control objects, and the display area of the control panel can be effectively utilized on a touch screen with a limited size.

The embodiment reduces the processing pressure of the microprocessor on voice recognition and processing by adopting the image processing module and the voice processing module. Therefore, the data processing efficiency of the microprocessor is improved, and a good hardware basis is provided for the intellectualization of the touch screen control panel. In addition, the control panel combines touch screen control and voice control, and can inform the user of the situation after the task is executed by voice, so that the experience of the user is greatly improved. Furthermore, the operation interface is displayed in the form of a whole-house structure diagram containing the virtual images of the household appliances, so that a user can quickly and globally control the control condition of the whole-house household appliances, the operation interface is more friendly and humanized, and the defect that the control panel interface is single and the running state of the whole-house household appliances is difficult to quickly control in the prior art is overcome.

Second embodiment, this embodiment is a further description of the foregoing embodiment, and it should be understood that this embodiment includes all the foregoing technical features and is further specifically described:

further, the microprocessor sends operation interface update display information to the image processing module according to the home appliance state information fed back by the data transmission module, the operation interface update display information is converted into a first update display instruction of the touch screen by the image processing module and sent to the touch screen for update display, and the operation interface update display information comprises update of a corresponding home appliance virtual image on the whole house structure diagram. For example, when the restaurant lamp is turned on, the restaurant lamp on the full house structure chart turns from gray to orange-red. Thus, the user can know the working condition of any household appliance on the control panel at any position of the whole house.

Further, the microprocessor dynamically adjusts the display content of the touch screen according to the history of the user use, including: the microprocessor inputs the temperature, humidity and brightness data provided by the current time and data transmission module into the algorithm model based on a preset algorithm model, and sends the obtained display content information of the current touch screen to the image processing module, and the image processing module converts the display content information into a second update display instruction of the touch screen and sends the second update display instruction to the touch screen for update display. For example, the user often turns on the air conditioner for refrigeration and the water dispenser for heating after going home, that is, the air conditioner refrigeration button and the water dispenser heating button are displayed on the touch screen together with the whole room structure diagram, so that the user is prevented from activating the remote controller of the air conditioner and the water dispenser for the second time to perform the refrigeration and heating operation, and the algorithm model can be realized by using an SVM algorithm model, a BP algorithm model, an ELM algorithm model and the like based on the historical data collected by the user historical operation record and the data transmission module, and is not repeated here.

The operation interface display information also comprises a joint debugging shortcut key icon through which a user can simultaneously conduct joint debugging on a plurality of household appliances. For example, when the guest-welcoming mode is started, the central air conditioner, the fresh air system, the television and the headlight can be started at the same time, and when the rest mode is started, the central air conditioner is automatically adjusted to be in a sleep state, the television and the headlight are turned off, and the small night lamp is turned on.

According to the embodiment, the related scheme of the updating mode is provided for the display content of the control panel, so that a user can intuitively know the working state of the household appliances in the whole house, the common control function of the user is known through the algorithm model, the common control function is displayed on the touch screen in a shortcut mode, the user can quickly perform related control, and the user experience is improved.

Third embodiment, this embodiment is a further description of the above embodiment, and it should be understood that this embodiment includes all the foregoing technical features and is further specifically described:

further, the process of inputting the temperature, humidity and brightness data provided by the current time and data transmission module into the algorithm model by the microprocessor based on a preset algorithm model and sending the display content information of the current touch screen to the image processing module comprises the following steps:

step 1, dividing each day in the operation time of the user history into 24 hours, acquiring temperature and humidity, brightness data, control objects and control parameters of each area in each day in the same quarter, and dividing the operation time into 24 parts according to the acquisition time sequence of the same day after normalization processing, wherein the operation time of the user history is equal to the acquisition time sequence of the same dayThe j-th temperature value acquired for the current hour,>the j-th humidity value acquired for the current hour period,/->The j-th brightness value acquired for the current epoch,>for the control object with the highest control frequency in the current small period,for the control object with the second highest control frequency in the current small period, when the first control object and the second control object are not acquired in the current small period, the first control object acquired in the previous small period is taken as the first control object in the current small period, and the second control object acquired in the previous small period is taken as the second control object in the current small period, wherein->、/>、/>、/>The current time period is the ith time period in the day;

step 2. WillSubstituting the following to find the corresponding +.>：/>Will->Substituting the following to find the corresponding +.>：/>Will->Substituting the following to find the corresponding +.>：/>Then find +.>+b/>+c/>The method comprises the steps of carrying out a first treatment on the surface of the Wherein->、/>Is->Weights within the current epoch, +.>Is->Weights within the current epoch, +.>Is->Weights in the current period of time, a, b, c are in order +.>Corresponding to->、/>、Weight of (2); and then->Substituted into the following formula to find->，、/>All are->And->The distribution parameter in the current small time period, e is a natural constant;

step 3, calculating the current time periodAnd->Error of->N is the total collection times of the current small period; calculating the +.>And->Error of->；

Step 4, judging whether the method meetsOtherwise, step 5 is executed, if yes, step 6 is skipped, wherein +.>Andall are experience values;

step 5, judging whether the iteration times reach a preset value, if so, jumping to step 6, otherwise, updating the weight and the distribution parameters based on the calculated error:，，/>in order to update the weights to be used,/>n is the total collection times in the current small time period for the updated distribution parameters; returning to the step 2 to continue execution after updating;

step 6, finishing the training of the algorithm model of the ith small period in the same quarter;

and inputting the acquired temperature, humidity and brightness data acquired in the ith small period into an algorithm model corresponding to the ith small period of the quarter, inversely normalizing the obtained result, further obtaining values corresponding to the first control object and the second control object, and sending small icons and position information corresponding to the first control object and the second control object to an image processing module. For example, the current time is between 5 and 6 points in the evening of summer (6-8 months), and the algorithm model used is a model based on data acquired for a period of 5 to 6 points in the evening of the entire summer (6-8 months) in the past year as a training sample.

Further, when the data in the small period is insufficient to build an algorithm model, initial experimental data are used for building an initial algorithm model, and the experimental data are replaced one by the historical record of the user which is collected regularly to update the algorithm model.

Further, the control information contained in the small icon corresponding to the control object is: and when the user triggers the small icon, starting the control object corresponding to the small icon in the working state with the highest use frequency. For example, in fig. 4, when the working state with the highest frequency of use of the fresh air system in the small period is that the air volume is low, the working state with the highest frequency of use of the air conditioner corresponding to the central air conditioner temperature is 26 ℃ in the cooling mode, the low air volume mode of the fresh air system is automatically started when the user triggers the shortcut key small icon of the fresh air system, and the 26 ℃ working mode in the central air conditioner cooling mode is automatically started when the user triggers the shortcut key small icon of the central air conditioner.

According to the method and the device, different algorithm models are set according to different time periods of different quarters to serve as selection bases of the shortcut keys, so that the acquisition of the shortcut keys is more in line with the use habit of a user, personalized setting of the user is achieved, and experience of the user is improved.

The control panel of the invention can be connected with the controlled household appliance in a networking communication way by using WIFI, zigBee and other modes, and is not limited herein.

While the invention has been described above with reference to various embodiments, it should be understood that many changes and modifications can be made without departing from the scope of the invention. That is, the methods, systems and devices discussed above are examples. Various configurations may omit, replace, or add various procedures or components as appropriate. For example, in alternative configurations, the methods may be performed in a different order than described, and/or various components may be added, omitted, and/or combined. Moreover, features described with respect to certain configurations may be combined in various other configurations, such as different aspects and elements of the configurations may be combined in a similar manner. Furthermore, as the technology evolves, elements therein may be updated, i.e., many of the elements are examples, and do not limit the scope of the disclosure or the claims.

Specific details are given in the description to provide a thorough understanding of exemplary configurations involving implementations. However, configurations may be practiced without these specific details, e.g., well-known circuits, processes, algorithms, structures, and techniques have been shown without unnecessary detail in order to avoid obscuring configurations. This description provides only an example configuration and does not limit the scope, applicability, or configuration of the claims. Rather, the foregoing description of the configuration will provide those skilled in the art with an enabling description for implementing the described techniques. Various changes may be made in the function and arrangement of elements without departing from the spirit or scope of the disclosure.

It is intended that the foregoing detailed description be regarded as illustrative rather than limiting, and that it be understood that it is intended that it be regarded as illustrative rather than limiting. Various changes and modifications to the present invention may be made by one skilled in the art after reading the teachings herein, and such equivalent changes and modifications are intended to fall within the scope of the invention as defined in the appended claims.

Claims (6)

1. Touch-screen control panel based on control of whole house intelligent household electrical appliances, its characterized in that: the device comprises a microprocessor, a touch screen, a loudspeaker, a microphone, a data transmission module, an image processing module and a voice processing module which are arranged on a control panel; the data transmission module is in data connection with the microprocessor, the microphone and the loudspeaker are in data connection with the microprocessor through the voice processing module, and the touch screen is in data connection with the microprocessor through the image processing module; the microprocessor is used for controlling the display content of the touch screen and the working state of the household appliance, and specifically comprises the following steps: the information acquired by the touch screen is input to an image processing module, and is converted into a first user instruction by the image processing module and is sent to the microprocessor; the information collected by the microphone is input into a voice processing module, and is converted into a second user instruction by the voice processing module and sent to the microprocessor; the microprocessor sends corresponding operation interface display information to the image processing module according to the first user instruction or the second user instruction, and simultaneously sends corresponding voice information to the voice processing module, the voice processing module converts the voice information into a touch screen display instruction and sends the touch screen display instruction to the touch screen, and the voice processing module converts the touch screen display instruction into a voice playing instruction and sends the voice playing instruction to the loudspeaker; simultaneously, the microprocessor sends control instructions of corresponding household appliances to the data transmission module according to household appliance control information in the first user instruction or the second user instruction; the operation interface display information comprises a whole house structure diagram containing a household appliance virtual image; the microprocessor correspondingly adjusts the whole house structure diagram displayed by the touch screen based on the adjustment information of the user terminal on the whole house structure diagram and the household appliance layout; the touch screen control panel also comprises a human body sensor connected with the microprocessor, and the microprocessor controls the touch screen to enter a bright screen state based on human body signals detected by the human body sensor; when a user touches a position corresponding to a virtual image of the household appliance in the whole-house structure diagram for a single time more than a first preset time or gives a voice command for starting the corresponding household appliance, the microprocessor sends a starting command to the electric appliance in the corresponding position, and when the user touches the position corresponding to the virtual image of the household appliance for a double time more than the first preset time or gives a voice command for closing the corresponding household appliance, the microprocessor sends a closing command to the electric appliance in the corresponding position;

the microprocessor inputs the temperature, humidity and brightness data provided by the current time and data transmission module into the algorithm model based on a preset algorithm model, and the process of sending the display content information of the current touch screen to the image processing module comprises the following steps:

step 1, dividing each day in the operation time of the user history into 24 hours, acquiring temperature and humidity, brightness data, control objects and control parameters of each area in each day in the same quarter, and dividing the operation time into 24 parts according to the acquisition time sequence of the same day after normalization processing, wherein the operation time of the user history is equal to the acquisition time sequence of the same dayThe j-th temperature value acquired for the current hour,>the j-th humidity value acquired for the current hour period,/->The j-th brightness value acquired for the current epoch,>for the control object whose current period of time controls the frequency highest, +.>For the control object with the second highest control frequency in the current small period, when the first control object and the second control object are not acquired in the current small period, the first control object acquired in the previous small period is taken as the first control object in the current small period, and the second control object acquired in the previous small period is taken as the second control object in the current small period, wherein->、/>、/>、/>The current time period is the ith time period in the day;

step 2. WillSubstituting the following to find the corresponding +.>：/>Will->Substituting the following to find the corresponding +.>：/>Will->Substituting the following to find the corresponding +.>：/>Then find +.>：/>+b/>+c/>The method comprises the steps of carrying out a first treatment on the surface of the Wherein->、/>Is->Weights within the current epoch, +.>Is->Weights within the current epoch, +.>Is->Weights in the current period of time, a, b, c are in order +.>Corresponding to->、/>、Weight of (2); and then->Substituting the following formula to calculate

，/>、/>All are->And->The distribution parameter in the current small time period, e is a natural constant;

step 3, calculating the current time periodAnd->Error of->N is the total collection times of the current small period; calculating the +.>And->Error of (2)

；

Step 4, judging whether the method meetsOtherwise, step 5 is executed, if yes, step 6 is skipped, wherein +.>And->All are experience values;

step 5, judging whether the iteration times reach a preset value, if so, jumping to step 6, otherwise, updating the weight and the distribution parameters based on the calculated error:，

，/>for updated weights, +.>N is the total collection times in the current small time period for the updated distribution parameters; returning to the step 2 to continue execution after updating;

and 6, finishing the training of the algorithm model of the ith small period in the same quarter.

2. The touch screen control panel based on full-house intelligent home appliance control as claimed in claim 1, wherein: when the residence time of the user at the position corresponding to the virtual image of the household appliance in the whole house structure diagram is longer than the preset time, the microprocessor controls the touch screen to display the virtual control panel of the corresponding household appliance.

3. The touch screen control panel based on full-house intelligent home appliance control as claimed in claim 2, wherein: and when the residence time of the user at the position corresponding to the non-home appliance virtual image in the whole house structural diagram is longer than the preset time, the microprocessor controls the touch screen to display the enlarged image of the corresponding area.

4. A touch screen control panel based on control of a full house intelligent appliance as claimed in claim 3, wherein: the touch screen control panel that different regions belonged to corresponds the full room structure diagram difference that shows, specifically includes: and according to the region position, displaying the corresponding part of the region in an enlarged mode in the whole house structure diagram, and displaying the rest part in a reduced mode.

5. The touch screen control panel based on control of a full-house intelligent home appliance of claim 4, wherein: the microprocessor sends operation interface update display information to the image processing module according to the home appliance state information fed back by the data transmission module, the operation interface update display information is converted into a first update display instruction of the touch screen by the image processing module and sent to the touch screen for update display, and the operation interface update display information comprises a corresponding home appliance virtual image updated on the whole house structure diagram.

6. The touch screen control panel based on control of a full-house intelligent home appliance of claim 5, wherein: the microprocessor dynamically adjusts the display content of the touch screen according to the history record of the use of the user, and the method comprises the following steps: the microprocessor inputs the temperature, humidity and brightness data provided by the current time and data transmission module into the algorithm model based on a preset algorithm model, and sends the obtained display content information of the current touch screen to the image processing module, and the image processing module converts the display content information into a second update display instruction of the touch screen and sends the second update display instruction to the touch screen for update display.