CN114237071A - Sharing method of scene control scheme and scene control equipment - Google Patents

Abstract

The application provides a sharing method of a scene control scheme and scene control equipment, wherein the sharing method of the scene control scheme comprises the following steps: generating a scene control scheme according to an operation instruction of a first user on at least one piece of intelligent home equipment; acquiring an intelligent home equipment list of a second user; according to the smart home equipment list, carrying out adaptive adjustment on the scene control scheme to obtain an adjustment control scheme; and sharing the adjustment control scheme to the second user's scene control device. Therefore, by implementing the implementation mode, the corresponding scene control scheme can be generated based on the operation of the user, and when the scene control scheme is required to be used in other user environments, the scene control scheme is automatically adjusted and shared, so that the user can realize a good control effect of the intelligent home equipment without operating again, the use convenience of the intelligent home equipment is greatly improved, and the use experience of the user is improved.

Description

Sharing method of scene control scheme and scene control equipment

Technical Field

The application relates to the field of smart homes, in particular to a sharing method of a scene control scheme and scene control equipment.

Background

With the popularization of smart homes, the daily life of people becomes more and more convenient. At present, when a user uses the intelligent home equipment daily, the user generally controls the intelligent home equipment by one instruction through the mobile terminal, so that the effect of accurately controlling the intelligent home equipment is realized. However, in practice, it is found that although the current control method of the smart home device can achieve intelligence to a certain extent, if a user wants to help other users to set the smart home device in the environment, the user still needs to be in person, so that the user has to repeat his own behavior once, and further unnecessary burden is caused to the user, and the user experience is affected.

Disclosure of Invention

An object of the embodiment of the application is to provide a sharing method for a scenario-based control scheme and a scenario-based control device, which can generate a corresponding scenario-based control scheme based on user operations, and automatically adjust and share the scenario-based control scheme when the scenario-based control scheme is desired to be used in other user environments, so that a user can achieve a good control effect of an intelligent home device without performing operations again, thereby greatly improving the use convenience of the intelligent home device and improving the use experience of the user.

A first aspect of an embodiment of the present application provides a sharing method for a scenario-based control scheme, where the method is applied to a scenario-based control device of a first user, and the method includes:

generating a scene control scheme according to the operation instruction of the first user on at least one piece of intelligent household equipment;

acquiring an intelligent home equipment list of a second user;

according to the smart home equipment list, performing adaptive adjustment on the scene control scheme to obtain an adjustment control scheme;

sharing the adjustment control scheme to the second user's scenarized control device.

In the implementation process, the method can preferentially complete generation of the scene control scheme according to the operation of the user, and then determine the destination shared by the scene control scheme according to the requirement of the user, wherein the second user is the user at the destination, and the corresponding list of the smart home devices corresponds to the list of all the smart home devices in the smart home local area network. At this time, the scene control device can perform adaptive adjustment according to the smart home devices in the smart home device list, so that the adjusted control scheme can be adapted to the new scene, and finally, the scene control device shares the adjusted control scheme with the scene control device in the new scene to complete the intelligent control in the scene in real time. Therefore, by implementing the implementation mode, the scene control scheme corresponding to the scene can be automatically generated, and the localization work is completed through a proper self-adaption method, so that the shared adjustment control scheme can be adapted to the new scene where the second user is located, the secondary operation of the user can be avoided, the use convenience of the intelligent household equipment can be improved, and the use experience of the user can be improved.

Further, the step of adaptively adjusting the scene control scheme according to the smart home device list to obtain an adjusted control scheme includes:

acquiring first personal preference information of the first user;

homogenizing the scene control scheme according to the first person preference information to obtain a homogenized control scheme;

and carrying out adaptive adjustment on the homogenization control scheme according to the smart home equipment list to obtain an adjustment control scheme.

Further, the step of adaptively adjusting the homogenization control scheme according to the smart home device list to obtain an adjustment control scheme includes:

acquiring second person preference information of the second user;

and adaptively adjusting the homogenization control scheme according to the second person preference information and the intelligent home equipment list to obtain an adjustment control scheme.

Further, the step of adaptively adjusting the scene control scheme according to the smart home device list to obtain an adjusted control scheme includes:

in the list of the intelligent home devices, matching is carried out according to the type of the intelligent home devices corresponding to the at least one intelligent home device, so as to obtain at least one user device corresponding to the at least one intelligent home device;

acquiring device difference information between the at least one piece of smart home equipment and the at least one piece of user equipment;

and carrying out adaptive adjustment on the scene control scheme according to the equipment difference information to obtain an adjustment control scheme.

Further, the step of obtaining device difference information between the at least one smart home device and the at least one user device includes:

acquiring an intelligent home device function, an intelligent home device parameter and an intelligent home device position corresponding to the at least one intelligent home device;

acquiring a user equipment function, a user equipment parameter and a user equipment position corresponding to the at least one user equipment;

determining first difference information between the intelligent home device function and the user device function, determining second difference information between the intelligent home device parameter and the user device parameter, and determining third difference information between the intelligent home device position and the user device position;

and determining device difference information between the at least one smart home device and the at least one user device according to the first difference information, the second difference information and the third difference information.

A second aspect of the embodiments of the present application provides a scene control device, where the scene control device includes:

the generating unit is used for generating a scene control scheme according to an operation instruction of a first user on at least one piece of intelligent household equipment;

the acquisition unit is used for acquiring an intelligent home equipment list of a second user;

the adjusting unit is used for adaptively adjusting the scene control scheme according to the smart home device list to obtain an adjusting control scheme;

and the sharing unit is used for sharing the adjustment control scheme to the scene control equipment of the second user.

In the implementation process, the scene control equipment can realize three functions of automatically generating a scene control scheme, automatically adjusting the scene control scheme and automatically sharing the adaptive adjustment, so that sharing linkage among a plurality of scene control equipment is realized, each scene control equipment can be intelligently controlled according to the situation of the intelligent home equipment in an actual home, and the use intelligence of the intelligent home equipment is improved.

Further, the adjusting unit includes:

the acquiring subunit is used for acquiring first personal preference information of the first user;

the processing subunit is used for carrying out homogenization processing on the scene control scheme according to the first personal preference information to obtain a homogenization control scheme;

and the adjusting subunit is used for performing adaptive adjustment on the homogenization control scheme according to the smart home equipment list to obtain an adjustment control scheme.

Further, the adjusting subunit includes:

the acquisition module is used for acquiring second person preference information of the second user;

and the adjusting module is used for adaptively adjusting the homogenization control scheme according to the second person preference information and the intelligent home equipment list to obtain an adjusting control scheme.

A third aspect of an embodiment of the present application provides an electronic device, including a memory and a processor, where the memory is used to store a computer program, and the processor runs the computer program to enable the electronic device to execute the sharing method of the scenized control scheme according to any one of the first aspect of the embodiment of the present application.

A fourth aspect of the embodiments of the present application provides a computer-readable storage medium, where computer program instructions are stored, and when the computer program instructions are read and executed by a processor, the method for sharing a scenario-based control scheme according to any one of the first aspect of the embodiments of the present application is executed.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are required to be used in the embodiments of the present application will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered as limiting the scope, and that those skilled in the art can also obtain other related drawings based on the drawings without inventive efforts.

Fig. 1 is a schematic flowchart of a method for generating a scenario control scheme according to an embodiment of the present application;

fig. 2 is a schematic structural diagram of a scene control device according to an embodiment of the present application;

fig. 3 is a schematic flowchart of an application method of a scenario control scheme according to an embodiment of the present application;

fig. 4 is a schematic flowchart of a method for generating a scenario control scheme according to an embodiment of the present application;

fig. 5 is a schematic flowchart of a method for generating a scenario control scheme according to an embodiment of the present application;

fig. 6 is a schematic structural diagram of a scene control device according to an embodiment of the present application;

fig. 7 is a schematic structural diagram of a scene control device according to an embodiment of the present application;

fig. 8 is a schematic flowchart of a sharing method of a scene control scheme according to an embodiment of the present application;

fig. 9 is a schematic structural diagram of a scene control device according to an embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be described below with reference to the drawings in the embodiments of the present application.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures. Meanwhile, in the description of the present application, the terms "first", "second", and the like are used only for distinguishing the description, and are not to be construed as indicating or implying relative importance.

Example 1

Referring to fig. 1, fig. 1 provides a method for generating a scenario control scheme according to an embodiment of the present application. The method is applied to scene control equipment and comprises the following steps:

s101, when an operation instruction of a user on at least one piece of intelligent household equipment is detected, recording a plurality of operation instructions in a detection time window.

In this embodiment, one local area network may include many smart home devices. The local area network may be a home local area network or an outdoor local area network.

In this embodiment, when the user operates at least one smart home device, the user may send an operation instruction through the control device, and at this time, the scene control device may capture the operation instruction sent by the control device and record the operation instruction.

In this embodiment, the control device sending the operation instruction may be a mobile phone of the user, or a controller of the smart home device (e.g., a remote controller of a smart air conditioner, a remote controller of a smart television).

In this embodiment, the signal type of the operation instruction is not limited at all.

In this embodiment, the scene control device has a plurality of communication functions, and the communication functions are used for indicating a wifi communication function, a bluetooth communication function, an infrared communication function, and the like.

In this embodiment, the scenarized control device captures all the operation instructions that can be captured in real time, and the operation instructions are operation instructions when the user normally operates the smart home device. Therefore, the scene control equipment can finish the capture and recording of the operation instruction in the process of not interfering the normal use of the intelligent household equipment.

In this embodiment, when a user turns on a television, a sound box, and other related smart home devices, the user may turn on the television through a television remote controller and set a signal source of the television, and then the user sends a signal for controlling the sound box to be turned on through a mobile phone. In such a scenario, the scenized control device may capture an operation instruction sent by the remote controller, or capture an operation instruction sent by the mobile phone. Therefore, the scene control device can capture all instructions and record the instructions in the normal use process of the user.

In this embodiment, all the operation instructions can be effectively obtained by using the scenario control device, so that the subsequent steps can be customized based on all the operation instructions, and the scenario control scheme can be effectively generated.

In this embodiment, the operation instruction includes a switch instruction, a volume adjustment instruction, a signal source adjustment instruction, and the like. The operation instructions for different intelligent household devices may be different, and for the different operation instructions, the scenarized control device may capture all the records, and correspondingly mark or number the records according to the different intelligent household devices. If a certain operation instruction is an instruction which is sent to the refrigerator with the model XXX and is used for controlling the refrigerator to execute the operation of YYY; the operation instruction may be "XXX: YYY ".

In this embodiment, the operation instruction may also be a voice instruction, and the scenario control device has a voice recognition function and also has a voice conversion function.

In this embodiment, the detection time window is a preset detection duration.

In this embodiment, when an operation instruction of a user for controlling the smart home is detected, the method considers that the user starts to control the smart home, starts a detection time window with the time as a time starting point, and records all operation instructions of the user in the detection time window.

In this embodiment, the length of the detection time window may be Δ T, and the time when the first operation command is received is T1, at which time the detection end time T2 may be calculated as T1+ Δ T. As can be seen, the operation commands from t1 to t2 are recorded.

In this embodiment, the detection time window is preset, and the general operation duration is not greater than the detection time window, so if a plurality of operation instructions corresponding to the operation duration exceeding the detection time window are received, the general operation duration may include a plurality of invalid operation instructions.

In this embodiment, the method can detect the effectiveness of the operation instruction in real time, and if 80% of the operation instructions are effective, the detection time window is dynamically adjusted at this time, so that the operation instruction can be completely recorded, and the situation that the operation instruction is incompletely recorded due to a short detection time window is avoided.

In this embodiment, the multiple operation instructions may include repeated operation instructions, and the analysis process is performed in subsequent steps after the scenized control device receives the order and receives the order.

And S102, determining the operation sequence among the plurality of operation instructions.

In this embodiment, the plurality of operation instructions are not issued at the same time, because the plurality of operation instructions have the operation sequence.

In this embodiment, the method may perform a validity check on a plurality of operation instructions, and after an invalid instruction is proposed, determine the operation sequence of all valid instructions.

In this embodiment, the operation sequence refers to a sequence of each of the plurality of operation instructions. For example, the method may number all the operation instructions, where the number received first is small and the number received later is gradually increased.

S103, judging whether the operation sequence is not violated with a preset logic operation sequence, if so, executing steps S104-S105; if not, the flow is ended.

In this embodiment, after the operation sequence is determined, the method may determine whether the normal logical operation sequence is met according to the specific operation content of the operation instruction.

In this embodiment, the normal logical operation sequence is the preset logical operation sequence, but the method encapsulates the normal logical operation sequence into the scene control device.

For example, when operating a television, a user usually starts the television first and then performs subsequent operations. This sequence of operations conforms to normal logic and is therefore a normal logical sequence of operations. However, the operation sequence of the user turning off the television first and then performing the subsequent operations is not considered to be the normal logical operation sequence.

In this embodiment, as can be seen from the above example, the logic operation sequence stored in the scenario control device conforms to the behavior awareness of the normal user. When the operation sequence of a plurality of users is detected to accord with the logic operation sequence, the user operation is normal and ordered forward operation; otherwise, the operation of the user is considered to be invalid, and the process of generating the scene control scheme is ended.

And S104, determining a plurality of operation time intervals among the plurality of operation instructions.

In this embodiment, the operation time interval includes various hierarchical meanings. It essentially refers to the operation time interval between each operation instruction, since normally the operation time interval between each operation instruction is neither too small nor too large.

In this embodiment, the first level in the above-mentioned multi-level meaning is used to indicate that the operation of the user is normal, and an operation instruction is sent every few seconds. The second level in the above multi-level meaning is used to indicate that the operation is based on an actual operation object, for example, when the television is turned on, the television is turned on for 5s, the operation time interval is 5s, and the operation time interval for broadcasting and adjusting the volume of the television is 1 s. Thus, the method may determine the validity of an operation by a plurality of operation time intervals, and if valid, perform subsequent steps.

S105, judging whether the operation time intervals are all larger than a preset time interval threshold value, if so, executing the steps S106 to S107; if not, the flow is ended.

In this embodiment, step S105 emphasizes the validity determination of the time interval between the operation commands in the first level meaning. The effect of implementing this embodiment is that it is possible to avoid the occurrence of the continuous shuffle, and to prohibit the generation of the scenized control scheme in the case where the operation instruction is considered to be the continuous shuffle.

In this embodiment, the time interval threshold may be 200ms or 500ms, and this threshold may be determined according to actual situations.

S106, calculating first appearance frequencies of a plurality of operation instructions in a preset instruction record database; the instruction database comprises all recorded operation instructions.

In this embodiment, the instruction database includes all the operation instructions, where the operation instructions generally correspond to a plurality of smart home devices, and in this case, refer to the operation instructions for the controlled smart home devices. It can be understood that the user performs multiple operations on the smart home device, and the scene control device has recorded multiple operation instructions that meet the detection time window.

In the present embodiment, the first appearance frequency represents a ratio between the number of occurrences of the plurality of operation instructions captured this time and the number of all the operation instructions. In the case of drama, the first frequency of occurrence is used to indicate that a set of operation instructions used for controlling the same tv set appears more frequently; specifically, after the user has operated 50 times, wherein 20 times all use the set of operation instructions, the first occurrence probability is calculated 20/50-40%.

S107, judging whether the first occurrence frequency is greater than a preset first frequency threshold value, if so, executing the steps S108-S109; if not, the flow is ended.

In this embodiment, the preset first frequency threshold is used to determine whether the operation instructions corresponding to the first occurrence frequency are a group of commonly used operation instructions.

For example, the method has determined that the first probability of occurrence is 40%, and the first frequency threshold is 25%, then it is indicated that the set of operation instructions is frequently used, and the subsequent process is performed.

As an optional implementation, the method further comprises:

when the first frequency of occurrence is not greater than a first frequency threshold, extracting a continuous correlation instruction from the plurality of operation instructions;

counting a second frequency of occurrence of consecutive associated instructions in an instruction record database;

and when the second occurrence frequency is greater than a preset second frequency threshold, generating a scene control scheme according to the continuous correlation instruction.

In this embodiment, when it is determined that the plurality of operation instructions are not a group of operation instructions that are commonly used, the method may extract a continuous association instruction having strong correlation among the plurality of operation instructions, and determine whether the continuous association instruction frequently appears.

In the present embodiment, the successive association instruction is determined by instruction association.

In this embodiment, the consecutive associated instruction also includes a plurality of operation instructions, but the number of operation instructions in the consecutive associated instruction is smaller than the number of the plurality of operation instructions originally.

In this embodiment, the method may further determine whether there are multiple operation instructions capable of generating the scenized control scheme by a smaller instruction number.

In this embodiment, the second frequency threshold is typically greater than the first frequency threshold.

And S108, counting a third occurrence frequency of the plurality of operation instructions in the instruction record database at the appointed time.

In this embodiment, when a group of operation instructions is formed by a plurality of operation instructions, and the group of operation instructions has occurred for a plurality of times, the method may further determine whether the group of operation instructions occurred within a fixed time period.

For example, when the set of operation commands is a plurality of operation commands for controlling the air conditioner to be turned on, adjusting the temperature, adjusting the air supply, and adjusting the wind direction, it is determined whether the set of operation commands is frequently input eight times late. And the ratio of the number of times of inputting the group of operation instructions at eight late points to the number of detection days is the third occurrence frequency.

S109, judging whether the third occurrence frequency is greater than a preset third frequency threshold, if so, executing a step S110; if not, steps S111 to S113 are executed.

In this embodiment, the third frequency of occurrence is greater than the third frequency threshold, which means that the group of multiple operation commands actually occur at the same time with high frequency.

And S110, generating a scene control scheme according to the plurality of operation instructions.

In this embodiment, the scenario control scheme is a scenario control scheme that is often used by a user at a specified time every day.

As an optional implementation, the step of generating the scenized control plan according to the plurality of operation instructions includes:

and generating a household appliance control scene based on the plurality of operation instructions.

In this embodiment, the plurality of operation instructions include a corresponding household appliance combination relationship between the operation instructions and a time interval relationship between the operation instructions.

As a further optional implementation manner, the determining that the operation times of the plurality of operation instructions match a preset operation time, and the generating a home appliance control scene based on the plurality of operation instructions includes:

determining that the household appliance combination relation corresponding to the multiple operation instructions and the time interval relation among the operation instructions are matched with a preset scene, and generating a household appliance control scene based on the multiple operation instructions;

wherein the plurality of operation commands are input by more than 2 input devices.

In this embodiment, the input device includes a button of the appliance control panel, an application program, a remote controller, and a speaker.

And S111, extracting continuous associated instructions from the plurality of operation instructions.

In this embodiment, the continuous associated instruction is a plurality of operation instructions, and the number of the plurality of operation instructions is smaller than that of the original plurality of operation instructions.

And S112, counting the fourth frequency of occurrence of the continuous correlation instructions in the instruction record database.

In this embodiment, the fourth occurrence frequency is an occurrence frequency of the consecutive correlation instruction in the database.

And S113, when the fourth occurrence frequency is greater than a preset fourth frequency threshold, generating a scene control scheme according to the continuous correlation instruction.

In this embodiment, if the fourth frequency of occurrence is greater than the fourth frequency threshold, it means that the consecutive associated instructions are an instruction set that the user will use every day.

In this embodiment, generating the scenized control scheme according to the continuous correlation instruction can greatly improve the effectiveness and the control accuracy of the scenized control scheme.

In this embodiment, the main execution body of the method is a scenario control device, and the scenario control device may be a computer device with multiple communication functions or other intelligent devices such as a smart phone and a tablet computer, which is not limited in this embodiment.

In this embodiment, the scenario control device may be one of the at least one smart home device, that is, one of the at least one smart home device is the scenario control device.

It can be seen that, by implementing the application method of the scenarized control scheme described in this embodiment, all the operation instructions within a preset time period can be recorded by the scenarized control device when the user operates the smart home device, and whether the automatically recorded operation instructions can generate the scenarized control scheme or not can be determined in real time, and the scenarized control scheme is automatically generated when the operation instructions meet conditions, so that the intelligent home device can directly call the scenarized control scheme in a future use process.

Example 2

Referring to fig. 2, fig. 2 is a schematic structural diagram of a scene control device according to an embodiment of the present application. Specifically, the scenario control device is specifically configured to automatically generate a scenario control scheme, as shown in fig. 2, and the scenario control device includes:

the recording unit 210 is configured to start recording a plurality of operation instructions in a detection time window when an operation instruction of a user on at least one piece of smart home equipment is detected;

a first determining unit 220, configured to determine whether the multiple operation instructions meet a preset scene generation condition;

a first generating unit 230, configured to generate a scenario control scheme according to the plurality of operation instructions when the plurality of operation instructions meet the scenario generation condition.

As an alternative implementation, the first determining unit 220 includes:

the determining subunit 221 is configured to determine an operation order among the plurality of operation instructions;

a first determining subunit 222, configured to determine whether the operation sequence is not violated from a preset logical operation sequence;

the determining subunit 221 is configured to determine that the plurality of operation instructions meet the scene generation condition when the operation sequence does not violate the logical operation sequence.

As an alternative implementation, the first determining unit 220 includes:

a determining subunit 221, configured to determine a plurality of operation time intervals between a plurality of operation instructions;

a first determining subunit 222, configured to determine whether each of the plurality of operation time intervals is greater than a preset time interval threshold;

the determining subunit 221 is configured to determine that the plurality of operation instructions meet the scene generation condition when the plurality of operation time interval operations are all greater than the time interval threshold.

As an alternative embodiment, the first generating unit 230 includes:

a counting subunit 231, configured to count, when the plurality of operation instructions meet the scene generation condition, a first frequency of occurrence of the plurality of operation instructions in a preset instruction record database; the instruction database comprises all recorded operation instructions;

a second determining subunit 232, configured to determine whether the first occurrence frequency is greater than a preset first frequency threshold;

the generating subunit 233 is configured to generate the scenized control scheme according to the plurality of operation instructions when the first frequency of occurrence is greater than the first frequency threshold.

As an optional implementation, the first generating unit 230 further includes:

a first extracting subunit 234, configured to extract a continuous associated instruction from the plurality of operation instructions when the first frequency of occurrence is not greater than the first frequency threshold;

a statistics subunit 231, configured to count a second frequency of occurrence of the consecutive associated instructions in the instruction record database;

the generating subunit 233 is configured to generate the scenized control scheme according to the continuous association instruction when the second occurrence frequency is greater than a preset second frequency threshold.

As an alternative embodiment, the generating subunit 233 includes:

the counting module is used for counting a third occurrence frequency of a plurality of operation instructions in the instruction record database at the appointed time when the first occurrence frequency is greater than a first frequency threshold;

the judging module is used for judging whether the third occurrence frequency is greater than a preset third frequency threshold value;

and the generating module is used for generating a scene control scheme according to the plurality of operation instructions when the third frequency of occurrence is greater than the third frequency threshold.

As an alternative embodiment, the generating subunit 233 further includes:

the extracting module is used for extracting continuous correlation instructions from the plurality of operation instructions when the third frequency of occurrence is not greater than a third frequency threshold;

the counting module is used for counting the fourth frequency of occurrence of the continuous correlation instructions in the instruction record database;

and the generating module is used for generating a scene control scheme according to the continuous association instruction when the fourth occurrence frequency is greater than a preset fourth frequency threshold.

As an alternative embodiment, the first generating unit 230 includes:

a first fetch subunit 234, configured to fetch a plurality of valid instructions among the plurality of operation instructions;

a construction subunit 235 for constructing a plurality of valid instructions into an instruction sequence;

a first obtaining subunit 236, configured to obtain scenarization information matched to the instruction sequence;

a generating subunit 233, configured to generate a scenario control scheme according to the instruction sequence and the scenario information.

As an alternative embodiment, the first fetch sub-unit 234 is specifically configured to fetch a plurality of valid instructions according to an operation order and an operation dependency between the plurality of operation instructions.

In the embodiment of the present application, for the explanation of the scenario control device, reference may be made to the description in embodiment 1, and details are not repeated in this embodiment.

It can be seen that, with the implementation of the scenario control device described in this embodiment, the scenario control device can exist as an independent auxiliary device, and the scenario control device captures and records the user operation instruction through its own infrared communication function, wifi communication function, and other various communication functions; and when the operation instruction of the user is recorded by the scene control equipment, automatically judging whether a scene control scheme can be generated or not, and automatically generating the scene control scheme. Therefore, the scene control equipment can automatically generate the scene control scheme and can automatically apply the scene control scheme to the intelligent home equipment through various communication functions, and therefore the intelligent home scene control is facilitated to be achieved.

Example 3

Referring to fig. 3, fig. 3 provides a method for generating a scenario control scheme according to an embodiment of the present application. The method is applied to scene control equipment and comprises the following steps:

s301: receiving operation information input by a user, wherein the operation information comprises a plurality of household appliance operation instructions and trigger time intervals among the household appliance operation instructions; the plurality of household appliance operating instructions correspond to at least two pieces of intelligent household equipment;

in the above embodiment, the triggering time intervals of the plurality of household appliance operation instructions may be obtained according to the time corresponding to the plurality of household appliance operation instructions by obtaining the time of the plurality of household appliance operation instructions input by the user.

S302: and storing the operation information so as to send the operation information to at least two pieces of intelligent household equipment.

In S302, storing the operation information refers to that the operation information is stored locally or in a scenario control device, and it is understood that the operation information is not necessarily stored locally in the mobile terminal, and the mobile terminal may send the operation information to the scenario control device for storage.

The operation information input by the user comprises a plurality of household appliance operation instructions and trigger time intervals among the household appliance operation instructions, and after the operation information is stored, the personalized setting of a plurality of intelligent household devices in the intelligent household system can be realized for a plurality of times through the operation information. The method and the device avoid the situation that a user needs to send a plurality of instructions every time when the user sets the intelligent home system in a personalized manner, and improve the simplicity and convenience of user operation.

It is to be understood that, based on the foregoing embodiment, in another possible embodiment, the operation information input by the user includes start execution times of a plurality of household appliance commands, and the execution times are used for enabling the mobile terminal, the scene control device, or the smart home device to perform operation control at a certain time according to the operation information.

Illustratively, the execution time input by the user is eight points per night, and the mobile terminal sends the operation information to the plurality of smart home devices at eight points per night.

Based on the above embodiment, the method of the embodiment of the application is applied to a customized control scene of the smart home, the user records the operation information at first, the operation information includes the execution time, and based on the operation information, the plurality of smart home devices in the smart home system can execute one or more operations according to the preset sequence within the preset time period.

In one possible embodiment, S13 is implemented by: responding to a scene recording instruction, and generating a device plug-in page; displaying the equipment plug-in page; and receiving operation information input by a user according to the equipment plug-in page.

Referring to fig. 4, for the page of the device plug-in page provided in the embodiment of the present application, the smart home devices that the user may select to control are provided on the device plug-in page, after the user selects the smart home devices, the mobile terminal may jump to the control page of the smart home devices, and the user may input operation information according to the operation page of fig. 6. For example, the air conditioner is first turned on, and then, the temperature of the air conditioner is adjusted to 26.5 °.

Due to the rapid development of artificial intelligence technology, S301 can be completed by the following sub-steps: receiving voice information input by a user; identifying operation information according to the voice information; or receiving character information input by a user; and identifying the operation information according to the character information.

Illustratively, the user inputs a voice message "turn on the smart speaker, turn off the smart speaker after 45 minutes, turn on the air conditioner, modulate the air conditioner by 26.5 °, and turn off the air conditioner after 3 hours at the mobile terminal. "the mobile terminal discerns the household electrical appliances operating command to two equipment respectively, is respectively to open intelligent audio amplifier, close intelligent audio amplifier, open the air conditioner, transfer the air conditioner to 26.5, close the air conditioner, wherein, the trigger time interval between opening intelligent audio amplifier and closing intelligent audio amplifier is 45 minutes, and the time interval of opening the air conditioner and transferring the air conditioner to 26.5 is 3 hours.

The step of receiving the operation information input by the user comprises the following steps:

the operation information is input by more than 2 input devices, wherein the input devices and the user form corresponding relations.

For example, the operation instruction issued by the user may be a plurality of input modes mixed with the above example, for example, firstly, a voice instruction for controlling the temperature of the air conditioner is input through the smart sound box; then, controlling the brightness and color temperature instructions of the light through an 86 switch on the wall; then, the curtain is closed through the electric curtain remote controller, and a channel for watching the film, which starts the projector, is input through the control page of the mobile phone App. At least one part of each device is bound with the same user account or family account number, so that a corresponding relation is formed between the device and the user, and the operation instructions are identified as the operation of the same user, so that a household appliance control scene is formed.

For example, the user firstly clicks an icon corresponding to the command of turning on the air conditioner on the device plug-in page, and then clicks an icon corresponding to the operation of turning on the air conditioner and turning off the air in the up-down direction 3 seconds later, so that the triggering time interval between the two household appliance operation commands can be calculated according to the time when the user clicks the two icons.

In the above embodiment, the trigger time interval between the operations of the plurality of home appliances is obtained from the time when the user inputs the instruction. In one possible embodiment, the user may directly enter the trigger time interval between two commands. For example, the user triggers a command to turn on the air conditioner and a command to turn the air conditioner bar to 26.5 °, respectively, and the time interval for inputting the two commands is 3 seconds. In this way, the trigger time interval between which two home appliance operation instructions can be acquired is 3 seconds.

It is to be understood that, when the user inputs a plurality of commands, the trigger time interval between the plurality of home appliance operation commands does not necessarily include the trigger time interval between each home appliance command, and the trigger time interval between the plurality of home appliance operation commands may include at least two home appliance operation commands among the plurality of home appliance operation commands. For example, the two appliance operation commands "turning on bedroom light-turning on living room light" may not require a trigger time interval.

Therefore, in one possible embodiment, before S11, the method further includes: presetting a trigger time sensitive set, wherein the trigger time sensitive set comprises paired trigger time sensitive household appliance instructions, and S11 comprises the following substeps:

a plurality of appliance operation instructions input by a user are received, and a trigger time interval between paired trigger-time-sensitive instructions in a trigger time-sensitive set in the plurality of appliance operation instructions is received.

Illustratively, there is no time interval requirement between two appliance operation commands of turning on the LED lamp in the living room and turning on the LED lamp in the kitchen. The trigger time sensitive set does not include these two commands, and the operation information does not include the trigger time interval of these two appliance operation commands.

In one possible embodiment, before S11, the method further includes: and presetting a sequence sensitive set, wherein the set comprises paired household appliance operation instructions sensitive to an execution sequence. S11 includes the following substeps: acquiring a plurality of household appliance operating instructions and trigger time of the household appliance operating instructions; and acquiring the trigger time interval among the plurality of operating instructions according to the trigger time corresponding to one or more household appliance operating instructions which are not in the sequence sensitive set in the plurality of household appliance instructions.

Illustratively, a paired household appliance operation instruction 'turn on air conditioner-adjust air conditioner temperature' exists in the sequence sensitive set, and when a user records a scene, the user respectively acquires the time for triggering the sound box to be turned on and the corresponding trigger time of the sound box, the light to be turned on and the corresponding trigger time of the light to be turned on, the air conditioner to be turned on and the corresponding trigger time of the air conditioner to be turned on, and the air conditioner to be adjusted to 26.5 degrees and the trigger time of the air conditioner to be turned on. Then, in generating the triggering time interval between the plurality of home appliance operation instructions, the triggering time interval between turning on the light and turning on the smart speaker may not be calculated, and only the triggering time between turning on the air conditioner and adjusting the air conditioner to 26.5 ° may need to be calculated. In addition to this, the order sensitive set could also be "turn on the lights of the hallway-turn on the washing machine", "turn on the lights of the bathroom-turn on the water heater", etc.

Referring to fig. 4, an embodiment of the present application provides an application method of a scenario control scheme, where the method includes:

s303: presetting a sequence sensitive set, wherein the set comprises an execution sequence of paired household appliance operation instructions sensitive to the execution sequence;

s304: receiving trigger time of the plurality of household appliance operation instructions input by a user;

s305: acquiring an execution sequence of the plurality of household appliance operation instructions according to the trigger time of the plurality of household appliance operation instructions;

s306: judging whether the execution sequence of the paired household appliance operation instructions sensitive to the execution sequence in the sequence sensitive set is the same as the execution sequence of the household appliance operation instructions sensitive to the execution sequence in the plurality of household appliance operation instructions; if yes, go to S307; if yes, go to S308;

s307: and sending out alarm information.

S308: acquiring triggering time intervals among the multiple household appliance operation instructions according to the triggering time of the multiple household appliance operation instructions;

s309: and storing the operation information to send the operation information to at least two pieces of intelligent household equipment, wherein the operation information comprises a plurality of household appliance operation instructions and trigger time intervals among the plurality of operation instructions. Illustratively, the sequence sensitive set comprises a household appliance operation instruction which is 'opening a range hood and opening an induction cooker' and is sensitive to an execution sequence, in the process of recording a scene, a user obtains execution time corresponding to the two instructions, and the execution sequence of the two household appliance operation instructions which are input by the user is 'opening the induction cooker and opening the range hood' according to the execution implementation; the sequence is judged to be different from the sequence of the household appliance operation instructions in the sequence sensitive set, so that the alarm information is sent out, and a user can know the problem that the oil smoke is excessive at the moment when the induction cooker is opened.

In the foregoing embodiment, it is considered that in the scene recording process, a user may need to record operations of multiple smart home devices at one time, may not remember what kind of operation instructions related to the smart home devices have been recorded, and if the smart home devices are subsequently controlled according to the sequence, danger may be generated. Based on the embodiment, the life safety of the user can be ensured.

In a possible implementation, S302 includes the following sub-steps: and according to the multiple household appliance operation instructions and the triggering time intervals among the multiple household appliance operation instructions, sending each household appliance operation instruction to the corresponding intelligent household equipment.

It should be noted that the plurality of household appliance operation instructions correspond to at least two household smart home devices, and each household smart home device does not necessarily correspond to only one household appliance operation instruction. For example, the air conditioner corresponds to two home appliance operation commands, turning on the air conditioner and adjusting the temperature of the air conditioner to 26.5 °.

In a possible implementation, S302 includes the following sub-steps: generating an operation instruction sequence according to the operation information; and sending the operation instruction sequence to at least two pieces of intelligent household equipment.

Considering that all the intelligent home devices in the existing home intelligent system have a general decoding mode, an operation instruction sequence can be generated according to the operation information, and the operation instruction sequence comprises a plurality of recorded home appliance operation instructions and operation intervals among the plurality of home appliance operation instructions. And sending the operation instruction sequence to at least two pieces of intelligent home equipment, wherein each piece of intelligent home equipment can analyze the corresponding household appliance operation instruction and the trigger time interval between the household appliance operation instructions in the operation instruction sequence.

In a possible implementation, S302 includes the following sub-steps, including: and sending the operation information to the scene control device, so that the scene control device sends each command in the plurality of household appliance operation commands to the corresponding intelligent household device according to the plurality of household appliance operation commands and the triggering time intervals among the plurality of household appliance operation commands.

In the above embodiment, according to the triggering time intervals among the plurality of household appliance operation instructions, the plurality of household appliance operation instructions and the triggering time intervals among the plurality of household appliance operation instructions are transmitted to the scene control device, and the scene control device further transmits the plurality of household appliance operation instructions to the corresponding smart home devices.

Illustratively, the plurality of appliance operation instructions are: the smoke exhaust ventilator and the induction cooker are controlled by infrared rays, the triggering time interval of the smoke exhaust ventilator and the induction cooker is 5 seconds, therefore, an instruction for opening the smoke exhaust ventilator is firstly sent to the infrared scene control device, and an instruction for opening the induction cooker is sent to the infrared scene control device after the interval of 5 seconds.

In a possible implementation manner, the step of sending the operation instruction sequence to the smart home device includes: and sending the operation instruction sequence to the scene control device, so that the scene control device sends the operation instruction sequence to at least two pieces of intelligent household equipment.

In the above embodiment, the operation instruction sequence is sent to the scene control device, and the scene control device sends the instruction sequence to each smart home device.

In a possible implementation manner, before S302, the method further includes: acquiring identification information of scene control equipment; the identification information is used for identifying the network scene control device, the infrared scene control device and the radio frequency scene control device; s302 comprises: and according to the identification information, the operation information is sent to the scene control device and sent to the network scene control device, the infrared scene control device or the radio frequency scene control device.

Considering that each intelligent household device has a signal transmission mode under the recording of an application scene; in one possible embodiment, before S12, the method further includes: acquiring a communication mode corresponding to each intelligent household device in a plurality of household appliance operation instructions; s12 includes: and sending a plurality of household appliance operation instructions to at least two pieces of equipment according to the communication mode corresponding to each piece of intelligent household equipment.

In the above embodiment, it is considered that multiple smart home devices are provided in the application scene of the smart home, and the actual terrain of the application scene of the smart home has the characteristic of being diversified, and different communication modes can be adopted for different home devices and different actual terrains of the application scene, and the scene control device sends the multiple household appliance operation instructions to the multiple smart home devices.

In conclusion, according to the characteristics of the existing intelligent household application scene, multiple schemes are provided in the two aspects of recording the command and sending the household appliance operation command to the intelligent household equipment. The various possible implementations provided in the above embodiments may be implemented in combination.

It can be understood that the above embodiments only illustrate how to send a plurality of home appliance operation instructions to each smart home device, and do not illustrate how to start sending the step. In the smart home application scenario, a user needs to enter an execution time so as to send a plurality of household appliance operation instructions to a plurality of smart home devices at a fixed time in the following.

Example 4

Referring to fig. 5, an embodiment of the present application provides a home appliance control method applied to a scene control device, where the method includes:

s401: receiving operation information sent by a mobile terminal, wherein the operation information comprises a plurality of household appliance operation instructions and trigger time intervals among the household appliance operation instructions;

s402: and storing the operation information so as to send the operation information to at least two pieces of intelligent household equipment.

In the implementation process, a user records operation instructions of a plurality of household appliances and trigger time intervals of the operation instructions of a plurality of intelligent household devices at a mobile terminal, and sends the operation instructions of the plurality of intelligent household devices and the trigger time intervals of the operation instructions of the plurality of intelligent household devices to the scene control device, and after the scene control device stores operation information, the scene control device can realize multiple times of personalized setting of the plurality of intelligent household devices in the intelligent household system through the operation information. The method and the device avoid the situation that a user needs to send a plurality of instructions every time when the user sets the intelligent home system in a personalized manner, and improve the simplicity and convenience of user operation.

In one possible implementation, S402 includes: and according to the triggering time intervals among the household appliance operation instructions, sending each household appliance instruction in the household appliance operation instructions to the corresponding intelligent household equipment.

In one possible implementation, the operation information is packaged by the mobile terminal as an operation instruction sequence; s401 includes: receiving an operation instruction sequence sent by a mobile terminal; s402 comprises the following steps: and sending the operation instruction sequence to the intelligent household equipment.

In one possible implementation, S402 includes: generating an instruction sequence according to the operation information; and sending the instruction sequence to the intelligent household equipment.

Example 5

Referring to fig. 6, an embodiment of the present application provides a control apparatus for smart home devices, the apparatus includes:

a first receiving module 510, configured to receive operation information input by a user, where the operation information includes a plurality of household appliance operation instructions and trigger time intervals between the plurality of household appliance operation instructions; the plurality of household appliance operating instructions correspond to at least two pieces of intelligent household equipment;

the first storage module 520 stores the operation information to transmit the operation information to the at least two smart home devices.

In a possible implementation, the first receiving module 510 is further configured to generate a device plug-in page in response to the recording scene instruction; displaying the equipment plug-in page; and receiving operation information input by a user according to the equipment plug-in page.

In a possible implementation, the first receiving module 510 is further configured to receive voice information input by a user; and identifying the operation information according to the voice information.

In a possible implementation, the first receiving module 510 is further configured to receive text information input by a user; and identifying the operation information according to the character information.

In a possible implementation manner, the first storage module 520 is further configured to send each of the plurality of household appliance operation instructions to its corresponding smart home device according to the plurality of household appliance operation instructions and the trigger time interval between the plurality of household appliance operation instructions.

In a possible implementation, the first storage module 520 is further configured to generate an operation instruction sequence according to the operation information; and sending the operation instruction sequence to at least two pieces of intelligent household equipment.

In a possible implementation manner, the first storage module 520 is further configured to send the operation information to the scene-based control device, so that the scene-based control device sends each of the plurality of household appliance operation instructions to its corresponding smart home device according to the plurality of household appliance operation instructions and the trigger time interval between the plurality of household appliance operation instructions.

In one possible implementation, the operation instruction sequence is sent to the scene control device, so that the scene control device sends the operation instruction sequence to at least two smart home devices.

In a possible implementation manner, the apparatus further includes an identification information obtaining module, configured to obtain identification information of the scene control device; the first receiving module 510 is further configured to send the operation information to the scene control device and to the network scene control device, the infrared scene control device, or the radio frequency scene control device according to the identification information.

In a possible implementation manner, the first receiving module 510 is further configured to send the operation instruction sequence to the scene control device and send the operation instruction sequence to the network scene control device, the infrared scene control device, or the radio frequency scene control device according to the identification information.

In the above embodiment, the operation information input by the user includes a plurality of household appliance operation instructions and trigger time intervals between the plurality of household appliance operation instructions, and after the operation information is stored, multiple times of personalized settings of a plurality of intelligent home devices in the intelligent home system can be realized through the operation information. The method and the device avoid the situation that a user needs to send a plurality of instructions every time when the user sets the intelligent home system in a personalized manner, and improve the simplicity and convenience of user operation.

Example 6

Referring to fig. 7, an embodiment of the present application provides a control device for smart home devices, which is applied to a scene control device, and the device includes:

a second receiving module 610, configured to receive operation information sent by the mobile terminal, where the operation information includes a plurality of household appliance operation instructions and trigger time intervals between the plurality of household appliance operation instructions;

and the second storage module 620 is configured to send the operation information to the smart home device.

In a possible implementation manner, the second storage module is further configured to send each of the plurality of household appliance operation instructions to its corresponding smart home device according to a trigger time interval between the plurality of household appliance operation instructions.

In one possible implementation, the operation information is packaged by the mobile terminal as an operation instruction sequence; the second storage module 620 is further configured to send the operation instruction sequence to the smart home device.

In a possible implementation manner, the second receiving module 610 is further configured to receive an operation instruction sequence sent by the mobile terminal; the second storage module 620 is further configured to send the operation instruction sequence to the smart home device.

In the above embodiment, the scene-based control device receives operation information sent by a user, where the operation information includes a plurality of household appliance operation instructions and trigger time intervals between the plurality of household appliance operation instructions, and the plurality of household appliance operation instructions correspond to at least two pieces of smart home devices, and the scene-based control device stores the operation information, and can implement multiple times of personalized settings on the plurality of smart home devices in the smart home system through the operation information. The method and the device avoid the situation that a user needs to send a plurality of instructions every time when the user sets the intelligent home system in a personalized manner, and improve the simplicity and convenience of user operation.

Example 7

Referring to fig. 8, fig. 8 is a flowchart illustrating an application method of a scenario control scheme according to an embodiment of the present application. The application method of the scenario control scheme is applied to scenario control equipment of a first user, and specifically, the method is a sharing method of the scenario control scheme, and the application method of the scenario control scheme includes:

s901, generating a scene control scheme according to an operation instruction of a first user on at least one piece of intelligent household equipment.

In this embodiment, the first user refers to a user of the current home lan, and the subsequent second user refers to a user of the corresponding home lan.

In this embodiment, the home lan generally includes at least one smart home device, regardless of a current home corresponding to the first user or a corresponding home corresponding to the second user.

In this embodiment, the first user and the second user may be the same user through the explanation of the first user and the second user. The method is characterized in that the scene control scheme used by the intelligent home equipment in the local area network of the first user is shared with the intelligent home equipment in the local area network of the second user.

For example, if the first user is the user himself and the second user is a friend, the method is a process in which the user himself shares the own scenized control scheme with the friend. When the friends are relatives of the user, the method does not need to control the intelligent home equipment of the relatives one by one, so that the operation of the user is simplified, and the use intelligence of the intelligent home equipment is improved.

For example, when the user is a young person, the friend is an old person, and the young person can set a scene control scheme according to the smart home equipment in his home and push the scheme into the smart home equipment in the old person's home, so that the smart home equipment in the old person's home can use the scene control scheme. Therefore, the young people do not need to go to the family of the old people to carry out corresponding setting operation, and the effects of remote control and operation replacement are achieved; meanwhile, the main effect of the mode can be embodied in that young people can experience the working effect of the intelligent household equipment, so that the scene control scheme shared by the old people is appropriate, and the existing hard effect of the intelligent household equipment controlled by the transmission parameters is avoided.

In this embodiment, after the first user controls the scene control device to generate the scene control scheme, when the first user goes on a business trip or goes to a relative, the first user may obtain the scene control scheme as the second user to perform intelligent control on the smart home device in the current environment, so as to avoid repeated control.

In this embodiment, theoretically, the second user may receive the original scene control scheme, and at this time, it is only necessary that the home smart home devices of the first user and the second user are the same.

In this embodiment, the method always needs to perform subsequent adaptive adjustment, and only for the identical home smart home devices, an adjustment control scheme obtained by the adaptive adjustment is the same as a scenario control scheme.

In this embodiment, the at least one smart home device is all smart home devices in the current home lan of the first user.

In this embodiment, the scenario control scheme is automatically generated while the user operates the smart home device.

In this embodiment, the scenario control scheme is used to represent a custom control scheme that conforms to a current specific scenario.

In this embodiment, when the first user operates the at least one smart home device, the scenario-based control device captures the control instruction to obtain the operation instruction of the at least one smart home device.

In this embodiment, the number of the smart home devices may be multiple, and at least one smart home device is used to refer to a set of smart home devices in a family.

In this embodiment, the operation instructions are used to represent all instructions for controlling the smart home devices, and the number of the operation instructions is not limited herein.

And S902, acquiring an intelligent home device list of the second user.

In this embodiment, the second user may be any person, such as a friend, a relative, a net friend, etc., of the first user, and this embodiment is not limited in any way.

In this embodiment, the second user may be the first user in some special cases. If the first user goes on a business trip to a hotel, the first user in the hotel can be used as the second user.

In this embodiment, the smart home list of the second user is used to represent a list of smart home devices in the home lan where the second user is located. It can be understood that, no matter who the second user is, what is to be obtained here is the list of the smart home devices in the corresponding local area network.

In this embodiment, the smart home device list includes information such as the name, type, model, production date, purchase date, and software version of the smart home device.

In this embodiment, the method may obtain the list of smart home devices in the scenario control device of the second user.

And S903, in the list of the intelligent household devices, matching according to the type of the intelligent household device corresponding to the at least one intelligent household device to obtain at least one user device corresponding to the at least one intelligent household device.

In this embodiment, the at least one smart home device is a smart home device controlled by the first user, and therefore, the method needs to determine the user device matched with the at least one smart home device in the home local area network where the second user is located.

For example, if a first user controls a lamp, the method needs to determine whether a lamp exists in a home lan where a second user is located, and if so, determine a lamp having a same type and a same position as the lamp controlled by the first user, and use the lamp as the user equipment. The position can be a living room, and the type can be an edge light.

In this embodiment, the number of the at least one smart home device and the number of the at least one user device are generally the same.

In this embodiment, it is not excluded that the number of the at least one smart home device and the at least one user device is usually different, and generally, the difference in the number is caused by that there is no corresponding smart home device in the second user home lan. On the other hand, the number may also be different because the lamp set used by the first user is 5 lamp beads, and the lamp set used by the second user is 3 lamp beads, where the number is also different.

In this embodiment, the method may perform matching according to the type of the smart home device, such as matching a lamp, matching a heating device, and the like. Therefore, the details that the group of lamps has 3 lamp beads or 5 lamp beads can be ignored in the mode, and therefore the situation that intelligent household equipment in two home local area networks is approximately the same is guaranteed.

In this embodiment, after the matching is performed according to the type of the smart home device corresponding to the at least one smart home device, the further matching may be performed according to the function of the smart home device corresponding to the at least one smart home device and the parameter of the smart home device corresponding to the at least one smart home device, and then the at least one user device corresponding to the at least one smart home device is obtained.

In this embodiment, the method can more accurately match the corresponding user equipment, thereby improving the effect of intelligent control.

In this embodiment, since the method performs adaptive adjustment, whether the group of lamps has 3 lamp beads or 5 lamp beads is adaptively adjusted. The details can be omitted.

S904, acquiring the intelligent household equipment function, the intelligent household equipment parameter and the intelligent household equipment position corresponding to at least one intelligent household equipment.

In this embodiment, the capabilities of the smart home devices include functions and parameters of the smart home devices. The intelligent home equipment comprises a function display module, a parameter display module and a parameter display module, wherein the function of the intelligent home equipment is used for showing what the intelligent home equipment can do, and the parameter of the intelligent home equipment is used for showing how much capacity the intelligent home equipment has to complete the function.

In this embodiment, the method introduces the concept of the location of the smart home device. The intelligent household equipment position comprises two meanings, wherein the first meaning is that the intelligent household equipment is in which position of a family, such as in a hall or in a room; the second meaning is that the smart home device is located at a certain position of the earth, such as a corresponding longitude and latitude or a city-saving position.

In this embodiment, the method may perform adaptive adjustment according to the local geographic environment and weather conditions when acquiring the information. If the air conditioner is started to 28 degrees, the 28 degrees are cold air or warm air, and generally speaking, the warm air is heated in the north and the cold air is heated in the south.

S905, obtaining a user equipment function, a user equipment parameter and a user equipment position corresponding to at least one user equipment.

In this embodiment, the method obtains the user equipment function, the user equipment parameter, and the user equipment location of the at least one user equipment, so that the at least one user equipment and the at least one smart home equipment can be effectively compared with each other, thereby obtaining difference information between the at least one user equipment and the at least one smart home equipment.

S906, determining first difference information between the functions of the intelligent household equipment and the functions of the user equipment, determining second difference information between the parameters of the intelligent household equipment and the parameters of the user equipment, and determining third difference information between the position of the intelligent household equipment and the position of the user equipment.

In this embodiment, the first difference information is used to represent a difference between the smart home device function and the user equipment function.

In this embodiment, the second difference information is used to represent a difference between the smart home device parameter and the user device parameter.

In this embodiment, the third difference information is used to represent a difference between the location of the smart home device and the location of the user equipment.

In this embodiment, the first difference information, the second difference information, and the third difference information are all in the form of text information, and are not usually in the form of numbers.

S907, determining device difference information between the at least one piece of smart home equipment and the at least one piece of user equipment according to the first difference information, the second difference information and the third difference information.

In this embodiment, the method may determine the difference between the two smart home devices according to the difference in the multiple details, thereby facilitating determination of the adaptive adjustment scheme.

S908, first personal preference information of the first user is obtained.

In this embodiment, the first personal preference information is used to indicate preference information of the first user, and the first description thereof is only for distinguishing the second user from the second personal preference information.

In the present embodiment, the personal preference information may include age information, taste information, and the like of the individual.

And S909, carrying out homogenization processing on the scene control scheme according to the first person preference information to obtain a homogenization control scheme.

In this embodiment, the method can adaptively adjust the scenarization control scheme according to the first personal preference information, and homogenize the adjustment result after adjustment, so that the obtained homogenization control scheme is not too biased to affect the use experience.

In the present embodiment, the homogenization process is used to represent an adjustment of the scenic control scheme to a translator-homogenization control scheme that conforms to both the preferences of the first person and the preferences of the general public.

S910, second person preference information of the second user is obtained.

In this embodiment, the second personal preference information is used to indicate the preference information of the second user, and the second description thereof is only for distinguishing the first user from the first personal preference information.

In the present embodiment, the personal preference information may include age information, taste information, and the like of the individual.

And S911, carrying out adaptive adjustment on the homogenization control scheme according to the second person preference information and the equipment difference information to obtain an adjustment control scheme.

In this embodiment, the adaptive adjustment is used to indicate that the homogenization control scheme is adjusted so that the homogenization control scheme is suitable for the preference of the second user.

And S912, sharing the adjustment control scheme to the scene control equipment of the second user.

In this embodiment, after the first user scenario control device completes the processing procedure, the processing result, i.e., the adjustment control scheme, is shared with the scenario control device of the second user, so that the scenario control device of the second user can perform corresponding scenario control on the intelligent home device in the home lan by using the adjustment control scheme.

In this embodiment, the main execution body of the method is a scenario control device, and the scenario control device may be a computer device with multiple communication functions or other smart home devices such as a smart phone and a tablet computer, which is not limited in this embodiment.

In this embodiment, the scenario control device may be one of the at least one smart home device, that is, one of the at least one smart home device is the scenario control device.

It can be seen that, by implementing the application method of the scenized control scheme described in this embodiment, generation of the scenized control scheme can be preferentially completed according to the operation of the user, and then the destination shared by the scenized control scheme is determined according to the requirement of the user, where the second user is a user at the destination, and the corresponding list of the smart home devices corresponds to the list of all the smart home devices in the smart home lan. At this time, the scene control device can perform adaptive adjustment according to the smart home devices in the smart home device list, so that the adjusted control scheme can be adapted to the new scene, and finally, the scene control device shares the adjusted control scheme with the scene control device in the new scene to complete the intelligent control in the scene in real time. Therefore, by implementing the implementation mode, the scene control scheme corresponding to the scene can be automatically generated, and the localization work is completed through a proper self-adaption method, so that the shared adjustment control scheme can be adapted to the new scene where the second user is located, the secondary operation of the user can be avoided, the use convenience of the intelligent household equipment can be improved, and the use experience of the user can be improved.

Example 8

Referring to fig. 9, fig. 9 is a schematic structural diagram of a scene control device according to an embodiment of the present application. Specifically, the scenized control device is configured to share a scenized control scheme, as shown in fig. 9, the scenized control device includes:

a third generating unit 1010, configured to generate a scenario control scheme according to an operation instruction of the first user on the at least one smart home device;

a third obtaining unit 1020, configured to obtain an intelligent home device list of a second user;

the adjusting unit 1030 is configured to adaptively adjust the scenized control scheme according to the smart home device list to obtain an adjusted control scheme;

the sharing unit 1040 is configured to share the adjustment control scheme with the second user's scene control device.

As an alternative embodiment, the adjusting unit 1030 includes:

a third obtaining sub-unit 1031, configured to obtain first personal preference information of the first user;

the processing subunit 1032 is configured to perform homogenization processing on the scenarization control scheme according to the first personal preference information, so as to obtain a homogenization control scheme;

and the adjusting subunit 1033 is configured to perform adaptive adjustment on the homogenization control scheme according to the smart home device list, so as to obtain an adjustment control scheme.

As an alternative embodiment, the adjusting subunit 1033 includes:

the first acquisition module is used for acquiring second person preference information of a second user;

and the adjusting module is used for carrying out adaptive adjustment on the homogenization control scheme according to the second person preference information and the smart home equipment list to obtain an adjustment control scheme.

As an alternative embodiment, the adjusting unit 1030 includes:

a third matching subunit 1034, configured to perform matching according to the type of the smart home device corresponding to the at least one smart home device in the smart home device list, to obtain at least one user device corresponding to the at least one smart home device;

a third obtaining subunit 1031, configured to obtain device difference information between the at least one smart home device and the at least one user device;

the adjusting subunit 1033 is further configured to adaptively adjust the scenized control scheme according to the device difference information, so as to obtain an adjusted control scheme.

As an optional implementation manner, the third obtaining subunit 1031 includes:

the second acquisition module is used for acquiring the intelligent household equipment function, the intelligent household equipment parameter and the intelligent household equipment position corresponding to at least one intelligent household equipment;

a second obtaining module, configured to obtain a user equipment function, a user equipment parameter, and a user equipment location corresponding to at least one user equipment;

the determining module is used for determining first difference information between the functions of the intelligent home equipment and the functions of the user equipment, determining second difference information between the parameters of the intelligent home equipment and the parameters of the user equipment, and determining third difference information between the position of the intelligent home equipment and the position of the user equipment;

the determining module is used for determining device difference information between the at least one piece of smart home equipment and the at least one piece of user equipment according to the first difference information, the second difference information and the third difference information.

An embodiment of the present application provides an electronic device, which includes a memory and a processor, where the memory is used to store a computer program, and the processor runs the computer program to enable the electronic device to execute a sharing method of a scenario control scheme in embodiment 7 of the present application.

An embodiment of the present application provides a computer-readable storage medium, which stores computer program instructions, and when the computer program instructions are read and executed by a processor, the method for sharing a scene control scheme in embodiment 7 of the present application is executed.

In the embodiments provided in the present application, it should be understood that the disclosed apparatus and method can be implemented in other ways. The apparatus embodiments described above are merely illustrative, and for example, the flowchart and block diagrams in the figures illustrate the architecture, functionality, and operation of possible implementations of apparatus, methods and computer program products according to various embodiments of the present application. In this regard, each block in the flowchart or block diagrams may represent a module, segment, or portion of code, which comprises one or more executable instructions for implementing the specified logical function(s). It should also be noted that, in some alternative implementations, the functions noted in the block may occur out of the order noted in the figures. For example, two blocks shown in succession may, in fact, be executed substantially concurrently, or the blocks may sometimes be executed in the reverse order, depending upon the functionality involved. It will also be noted that each block of the block diagrams and/or flowchart illustration, and combinations of blocks in the block diagrams and/or flowchart illustration, can be implemented by special purpose hardware-based systems which perform the specified functions or acts, or combinations of special purpose hardware and computer instructions.

In addition, functional modules in the embodiments of the present application may be integrated together to form an independent part, or each module may exist separately, or two or more modules may be integrated to form an independent part.

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

The above description is only an example of the present application and is not intended to limit the scope of the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application. It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

The above description is only for the specific embodiments of the present application, but the scope of the present application is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present application, and shall be covered by the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

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

Claims (10)

1. A sharing method of a scene control scheme is applied to a scene control device of a first user, and comprises the following steps:

generating a scene control scheme according to the operation instruction of the first user on at least one piece of intelligent household equipment;

acquiring an intelligent home equipment list of a second user;

according to the smart home equipment list, performing adaptive adjustment on the scene control scheme to obtain an adjustment control scheme;

sharing the adjustment control scheme to the second user's scenarized control device.

2. The method according to claim 1, wherein the step of adaptively adjusting the scenario control scheme according to the smart home device inventory to obtain an adjusted control scheme comprises:

acquiring first personal preference information of the first user;

homogenizing the scene control scheme according to the first person preference information to obtain a homogenized control scheme;

and carrying out adaptive adjustment on the homogenization control scheme according to the smart home equipment list to obtain an adjustment control scheme.

3. The scenarized control scheme sharing method according to claim 2, wherein the step of adaptively adjusting the uniformization control scheme according to the smart home device list to obtain an adjusted control scheme comprises:

acquiring second person preference information of the second user;

and adaptively adjusting the homogenization control scheme according to the second person preference information and the intelligent home equipment list to obtain an adjustment control scheme.

4. The method according to claim 1, wherein the step of adaptively adjusting the scenario control scheme according to the smart home device inventory to obtain an adjusted control scheme comprises:

in the list of the intelligent home devices, matching is carried out according to the type of the intelligent home devices corresponding to the at least one intelligent home device, so as to obtain at least one user device corresponding to the at least one intelligent home device;

acquiring device difference information between the at least one piece of smart home equipment and the at least one piece of user equipment;

and carrying out adaptive adjustment on the scene control scheme according to the equipment difference information to obtain an adjustment control scheme.

5. The method according to claim 4, wherein the step of obtaining device difference information between the at least one smart home device and the at least one user device comprises:

acquiring an intelligent home device function, an intelligent home device parameter and an intelligent home device position corresponding to the at least one intelligent home device;

acquiring a user equipment function, a user equipment parameter and a user equipment position corresponding to the at least one user equipment;

determining first difference information between the intelligent home device function and the user device function, determining second difference information between the intelligent home device parameter and the user device parameter, and determining third difference information between the intelligent home device position and the user device position;

and determining device difference information between the at least one smart home device and the at least one user device according to the first difference information, the second difference information and the third difference information.

6. A scenic control device, comprising:

the generating unit is used for generating a scene control scheme according to an operation instruction of a first user on at least one piece of intelligent household equipment;

the acquisition unit is used for acquiring an intelligent home equipment list of a second user;

the adjusting unit is used for adaptively adjusting the scene control scheme according to the smart home device list to obtain an adjusting control scheme;

and the sharing unit is used for sharing the adjustment control scheme to the scene control equipment of the second user.

7. The scenarized control apparatus according to claim 6, wherein the adjusting unit comprises:

the acquiring subunit is used for acquiring first personal preference information of the first user;

the processing subunit is used for carrying out homogenization processing on the scene control scheme according to the first personal preference information to obtain a homogenization control scheme;

and the adjusting subunit is used for performing adaptive adjustment on the homogenization control scheme according to the smart home equipment list to obtain an adjustment control scheme.

8. The scenographic control device according to claim 7, wherein the adjustment subunit comprises:

the acquisition module is used for acquiring second person preference information of the second user;

and the adjusting module is used for adaptively adjusting the homogenization control scheme according to the second person preference information and the intelligent home equipment list to obtain an adjusting control scheme.

9. An electronic device, comprising a memory for storing a computer program and a processor for executing the computer program to cause the electronic device to perform the sharing method of the scenized control scheme of any one of claims 1 to 5.

10. A readable storage medium, wherein computer program instructions are stored, and when being read and executed by a processor, the computer program instructions execute the sharing method of the scenized control scheme according to any one of claims 1 to 5.

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