CN114442503B - Smart home linkage management method and system - Google Patents

Abstract

The invention is applicable to the field of computers, and provides a smart home linkage management method and system, which comprises the steps of setting a fixed application scene and a variable application scene, wherein the fixed application scene and the variable application scene are respectively applied to at least one smart home device, the fixed application scene is associated with a first smart home device, the variable application scene is associated with a second smart home device, and the working state variable degree of the first smart home device is smaller than that of the second smart home device; applying a fixed application scene according to the behavior habit of a user, wherein the fixed application scene is applied to at least one indoor area; the invention collects the body posture data of the user and analyzes the activity behavior of the user, and has the beneficial effects that: the method and the device can automatically customize the proper exclusive application scene for the user according to the habit and the activity behavior of the user.

Description

Smart home linkage management method and system

Technical Field

The invention belongs to the technical field of computers, and particularly relates to a smart home linkage management method and system.

Background

Smart home can also be called as smart home, in short, home products become smart and efficient after integrating modern communication technology, and convenience and comfort of home life are improved.

The foreign countries have apple HomeKit, amazonia Alexa, google Home and NEST purchased by Google, the domestic platforms are countless, the Home manufacturers of domestic mobile phones are the first to go to the next, the E-commerce giant and white household appliances such as America, beijing east, sea, america are the first to go to terrorism, european, doodle intelligence, broadLink and other brands focused on intelligent household products or schemes, and the intelligent Home uses Home as a platform to integrate the facilities related to Home life by using comprehensive wiring technology, network communication technology, security protection technology, automatic control technology and audio/video technology.

When the existing home linkage management system is used for controlling a plurality of intelligent home devices, the scene system based on different intelligent home devices is complex to control, and great inconvenience exists in user operation.

Disclosure of Invention

The embodiment of the invention aims to provide a smart home linkage management method and system, which aim to solve the problems in the background technology.

The embodiment of the invention is realized in such a way that, on one hand, the intelligent home linkage management method comprises the following steps:

setting a fixed application scene and a variable application scene, wherein the fixed application scene and the variable application scene are respectively applied to at least one intelligent home device, the fixed application scene is associated with a first intelligent home device, the variable application scene is associated with a second intelligent home device, and the working state variable degree of the first intelligent home device is smaller than that of the second intelligent home device;

applying a fixed application scene according to the behavior habit of a user, wherein the fixed application scene is applied to at least one indoor area;

acquiring body posture data of a user, and analyzing activity behaviors of the user;

when the difference value between the body posture data of the user before and after twice in the preset interval time period exceeds the difference threshold value, the fixed application scene and the variable application scene are secondarily synthesized, the working state of the intelligent household equipment in the current indoor area is correspondingly adjusted, and otherwise, the state of the fixed application scene is maintained.

As a further aspect of the present invention, the setting a fixed application scenario and a variable application scenario specifically includes:

dividing the intelligent household equipment into first intelligent household equipment and second intelligent household equipment according to the variable degree of the working state, wherein the working state of the first intelligent household equipment is single and variable, and the working state of the second intelligent household equipment is non-single and variable;

applying the first smart home device to a fixed application scenario;

and applying the second intelligent home equipment to the variable application scene.

As still further aspects of the present invention, before the applying the fixed application scenario according to the behavior habit of the user, the method further includes:

setting a base indoor comfort temperature associated with a body surface temperature of a user;

setting indoor base light brightness matched with the activity behavior of the user, wherein different indoor areas have corresponding indoor base light brightness.

As still further aspect of the present invention, the applying a fixed application scenario according to a behavior habit of a user specifically includes:

judging whether the character activity exists in the current indoor area;

if the person activity exists in the current indoor area, starting corresponding first intelligent household equipment;

and if the person activity does not exist in the current indoor area, dormancy is performed on the corresponding first intelligent home equipment.

As a further aspect of the present invention, before the collecting the gesture shape data of the user and analyzing the activity behavior of the user, the method further includes:

acquiring a second intelligent household equipment use instruction of a user in a current indoor area;

and starting the second intelligent household equipment through the second intelligent household equipment using instruction.

As a further aspect of the present invention, the collecting physical gesture data of the user, and analyzing the activity behavior of the user specifically includes:

acquiring indoor movement track data of a user;

acquiring a moving track drop point of a user in a first set time period in moving track data;

capturing the head portrait position of the user in the falling point of the moving track;

a synthetic reference point in the head portrait position of the user is positioned, wherein the synthetic reference point is a synthetic reference point of a fixed application scene and a variable application scene.

As a further aspect of the present invention, when a difference value between body posture data of a user two times before and after in a preset interval period exceeds a difference threshold, performing secondary synthesis on a fixed application scene and a variable application scene specifically includes:

presetting an interval time period and a difference threshold;

performing differential value analysis and judgment on the activity behaviors of the user in a set interval time period;

when the difference value between the body posture data of the front user and the body posture data of the rear user exceeds the difference threshold value, the working state of the first intelligent household device is kept, and the working face of the remote device in the second intelligent household device is enabled to correspond to the synthesis reference point by taking the synthesis reference point as the center;

and adjusting the working states of the short-range equipment in the second intelligent household equipment according to the adjustment of the long-range equipment so that the working states of the long-range equipment and the short-range equipment accord with the human engineering characteristics.

As a further aspect of the present invention, the method further includes adjusting an environmental parameter of a current indoor area, where the adjusting the environmental parameter of the current indoor area specifically includes:

recording sound data changing with time in a current indoor area, and generating a sound waveform file based on the sound data;

intercepting waveforms exceeding an amplitude threshold value in the waveform file to obtain a high-amplitude waveform subfile;

carrying out framing treatment on the high-amplitude waveform subfiles to obtain a voice frame sequence;

extracting acoustic features in each voice frame sequence to generate an acoustic feature matrix;

acquiring acoustic feature information of a user, intercepting an acoustic feature matrix based on the acoustic feature information of the user, generating an acoustic feature submatrix of the user, and confirming text information according to the acoustic feature submatrix of the user;

establishing an indoor environment characteristic word text library, and confirming corresponding indoor environment user willingness in the text information to improve the text information based on the indoor environment characteristic word text library;

and adjusting the environmental parameters of the current indoor area based on the user wish of the indoor environment to improve the text information.

As a further aspect of the present invention, in another aspect, an intelligent home linkage management system, the system includes:

the system comprises a setting module, a control module and a control module, wherein the setting module is used for setting a fixed application scene and a variable application scene, the fixed application scene and the variable application scene are respectively applied to at least one intelligent household device, the fixed application scene is associated with a first intelligent household device, the variable application scene is associated with a second intelligent household device, and the working state variable degree of the first intelligent household device is smaller than that of the second intelligent household device;

the application module is used for applying a fixed application scene according to the behavior habit of the user, and the fixed application scene is at least applied to one indoor area;

the acquisition and analysis module is used for acquiring the body posture data of the user and analyzing the activity behaviors of the user;

and the synthesis module is used for carrying out secondary synthesis on the fixed application scene and the variable application scene when the difference value between the shape posture data of the user before and after twice in the preset interval time period exceeds the difference threshold value, correspondingly adjusting the working state of the intelligent household equipment in the current indoor area, and otherwise, keeping the state of the fixed application scene.

According to the intelligent home linkage management method and system, the intelligent home equipment is classified and controlled according to the control difficulty of the intelligent home equipment, the fixed application scene is applied according to the behavior habit of the user, the fixed application scene and the variable application scene are synthesized for the second time only when the physical gesture data of the user changes to a certain extent, the purpose of correspondingly adjusting the working state of the intelligent home equipment in the current indoor area is achieved, the set program is simpler, the control and selection are more convenient, and a proper special application scene can be automatically customized for the user according to the habit and the activity behavior of the user.

Drawings

FIG. 1 is a main flow chart of a smart home coordinated management method.

Fig. 2 is a flowchart of a smart home linkage management method for applying a fixed application scenario according to a behavior habit of a user.

FIG. 3 is a flow chart for collecting body posture data of a user and analyzing activity behavior of the user.

Fig. 4 is a flowchart of a smart home linkage management method for performing secondary synthesis on a fixed application scene and a variable application scene.

Fig. 5 is a flowchart for adjusting environmental parameters of an indoor area in a smart home linkage management method.

Fig. 6 is a main structural diagram of an intelligent home linkage management system.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

Specific implementations of the invention are described in detail below in connection with specific embodiments.

The intelligent home linkage management method and system provided by the invention solve the technical problems in the background technology.

As shown in fig. 1, a main flow chart of a smart home linkage management method according to an embodiment of the present invention includes:

step S10: setting a fixed application scene and a variable application scene, wherein the fixed application scene and the variable application scene are respectively applied to at least one intelligent home device, the fixed application scene is associated with a first intelligent home device, the variable application scene is associated with a second intelligent home device, and the working state variable degree of the first intelligent home device is smaller than that of the second intelligent home device;

step S11: applying a fixed application scene according to the behavior habit of a user, wherein the fixed application scene is applied to at least one indoor area;

step S12: acquiring body posture data of a user, and analyzing activity behaviors of the user;

step S13: when the difference value between the body posture data of the user before and after twice in the preset interval time period exceeds the difference threshold value, the fixed application scene and the variable application scene are secondarily synthesized, the working state of the intelligent household equipment in the current indoor area is correspondingly adjusted, and otherwise, the state of the fixed application scene is maintained.

In the application, the application scene is divided into the fixed application scene and the variable application scene, wherein the fixed application scene is associated with the first intelligent household equipment, the variable application scene is associated with the second intelligent household equipment, the working state variable degree of the first intelligent household equipment is smaller than that of the second intelligent household equipment, that is, the intelligent household equipment is classified and controlled according to the control difficulty degree of the intelligent household equipment, the fixed application scene is applied according to the behavior habit of a user, the fixed application scene and the variable application scene are secondarily synthesized only when the shape posture data of the user changes to a certain extent, the purpose of correspondingly adjusting the working state of the intelligent household equipment in the current indoor area is achieved, the set program is simpler, the control and selection are more convenient, and a proper special application scene can be automatically customized for the user according to the habit and the activity behavior of the user.

As a preferred embodiment of the present invention, the setting a fixed application scenario and a variable application scenario specifically includes:

step S101: dividing the intelligent household equipment into first intelligent household equipment and second intelligent household equipment according to the variable degree of the working state, wherein the working state of the first intelligent household equipment is single and variable, and the working state of the second intelligent household equipment is non-single and variable;

step S102: applying the first smart home device to a fixed application scenario;

step S103: and applying the second intelligent home equipment to the variable application scene.

In the application of the embodiment, for example, an intelligent home device capable of being switched is defined as a first intelligent home device, and an intelligent home device capable of being subjected to multi-state adjustment is defined as a second intelligent home device.

As a preferred embodiment of the present invention, before the application of the fixed application scenario according to the behavior habit of the user, the method further comprises:

step S201: setting a base indoor comfort temperature associated with a body surface temperature of a user;

step S202: setting indoor base light brightness matched with the activity behavior of the user, wherein different indoor areas have corresponding indoor base light brightness.

As shown in fig. 2, as a preferred embodiment of the present invention, the application-fixing application scenario according to the behavior habit of the user specifically includes:

step S111: judging whether the character activity exists in the current indoor area;

step S112: if the person activity exists in the current indoor area, starting corresponding first intelligent household equipment;

step S113: and if the person activity does not exist in the current indoor area, dormancy is performed on the corresponding first intelligent home equipment.

When the method and the device are applied, whether the first intelligent home equipment is started or not is determined by judging whether the person activity exists in the current indoor area, so that people can start the intelligent home equipment without starting the intelligent home equipment, and the intelligent home equipment can stand by at any time.

As a preferred embodiment of the present invention, before the collecting the gesture shape data of the user and analyzing the activity behavior of the user, the method further includes:

step S301: acquiring a second intelligent household equipment use instruction of a user in a current indoor area;

step S302: starting the second intelligent household equipment through the second intelligent household equipment use instruction;

in the application of the embodiment, the second smart home device use instruction may be voice, controller control or predetermined setting mode control, which is not limited herein.

As shown in fig. 3, as a preferred embodiment of the present invention, the collecting body posture data of the user, and analyzing the activity behavior of the user specifically includes:

step S121: acquiring indoor movement track data of a user;

step S122: acquiring a moving track drop point of a user in a first set time period in moving track data;

step S123: capturing the head portrait position of the user in the falling point of the moving track;

step S124: a synthetic reference point in the head portrait position of the user is positioned, wherein the synthetic reference point is a synthetic reference point of a fixed application scene and a variable application scene.

When the method and the device are applied, the head portrait position and the synthesis datum point of the user in the moving track falling point are captured by collecting the moving track falling point of the user in the first set time period, so that a synthesis datum point can be provided for the subsequent synthesis of the fixed application scene and the variable application scene, namely, a foundation is laid for accurate synthesis by taking a human body as a center.

As shown in fig. 4, as a preferred embodiment of the present invention, when a difference value between body posture data of a user two times before and after a preset interval period exceeds a difference threshold, performing secondary synthesis on a fixed application scene and a variable application scene specifically includes:

step S131: presetting an interval time period and a difference threshold;

step S132: performing differential value analysis and judgment on the activity behaviors of the user in a set interval time period;

step S133: when the difference value between the body posture data of the front user and the body posture data of the rear user exceeds the difference threshold value, the working state of the first intelligent household device is kept, the working face of the remote device in the second intelligent household device is enabled to correspond to the synthesis reference point by taking the synthesis reference point as the center, and the working face of the remote device in the second intelligent household device can be adjusted to be opposite to the synthesis reference point;

step S134: and adjusting the working states of the short-range equipment in the second intelligent household equipment according to the adjustment of the long-range equipment so that the working states of the long-range equipment and the short-range equipment accord with the human engineering characteristics.

When the intelligent seat is applied, the first intelligent home equipment and the second intelligent home equipment can be linked based on the human body activities and the change of the body posture data, and particularly, the remote equipment and the short-range equipment are linked according with the human engineering characteristics, so that the second intelligent home equipment is automatically triggered and adjusted on the basis of the working state of the first intelligent home equipment in a full experience mode, the second intelligent home equipment is adjusted in the human center all the time, the experience of a user is improved, for example, when the user is in a case-laying operation mode, the first intelligent home equipment is adjusted to proper light and temperature, proper indoor humidity is kept, when the second intelligent home equipment (for example, the video playing equipment with adjustable playing angle and/or the music playing equipment with changeable playing position in the remote equipment) is started for proper relaxation and entertainment, but the user does not leave the original seat, the head portrait position information of the user is automatically adjusted, the playing angle of the video playing equipment and/or the playing position of the music playing equipment is controlled by the seat (short-range equipment) to enable the user to lie down on the basis of the human engineering characteristics, or the user is in a half-state or a better hearing effect or listening effect is achieved.

As shown in fig. 5, as a preferred embodiment of the present invention, the method further includes adjusting the environmental parameter of the current indoor area, where the adjusting the environmental parameter of the current indoor area specifically includes:

step S401: recording sound data changing with time in a current indoor area, and generating a sound waveform file based on the sound data;

step S402: intercepting waveforms exceeding an amplitude threshold value in the waveform file to obtain a high-amplitude waveform subfile;

step S403: carrying out framing treatment on the high-amplitude waveform subfiles to obtain a voice frame sequence;

step S404: extracting acoustic features in each voice frame sequence to generate an acoustic feature matrix;

step S405: acquiring acoustic feature information of a user, intercepting an acoustic feature matrix based on the acoustic feature information of the user, generating an acoustic feature submatrix of the user, and confirming text information according to the acoustic feature submatrix of the user;

step S406: and establishing an indoor environment characteristic word text library, and confirming corresponding indoor environment user willingness in the text information based on the indoor environment characteristic word text library to improve the text information.

Step S407: and adjusting the environmental parameters of the current indoor area based on the user wish of the indoor environment to improve the text information.

When the method is applied, the environment parameters of the current indoor area are adjusted, the noisy indoor area environment can be dealt with, especially when a plurality of people are active in the current indoor area, the environment parameters (including but not limited to basic indoor comfort temperature, indoor basic light brightness and basic indoor comfort humidity) can be automatically adjusted based on the acoustic characteristic information of the user, the activities of the plurality of people in the indoor are not affected, special operation is not needed, the performance of the activities is not affected, and the sounds of people outside the user are not affected and controlled to be adjusted.

As shown in fig. 6, as another preferred embodiment of the present invention, in another aspect, a smart home linkage management system includes:

the setting module 100 is configured to set a fixed application scenario and a variable application scenario, where the fixed application scenario and the variable application scenario are respectively applied to at least one smart home device, the fixed application scenario is associated with a first smart home device, the variable application scenario is associated with a second smart home device, and a variable degree of an operating state of the first smart home device is smaller than a variable degree of an operating state of the second smart home device;

the application module 200 is configured to apply a fixed application scenario according to a behavior habit of a user, where the fixed application scenario is applied to at least one indoor area;

the acquisition and analysis module 300 is used for acquiring the body posture data of the user and analyzing the activity behaviors of the user;

and the synthesizing module 400 is used for carrying out secondary synthesis on the fixed application scene and the variable application scene when the difference value between the body posture data of the user before and after twice in the preset interval time period exceeds the difference threshold value, and correspondingly adjusting the working state of the intelligent household equipment in the current indoor area, otherwise, keeping the state of the fixed application scene.

According to the intelligent home linkage management system, the intelligent home equipment is classified and controlled according to the control difficulty of the intelligent home equipment, the fixed application scene is applied according to the behavior habit of the user, and the fixed application scene and the variable application scene are secondarily synthesized only when the body posture data of the user changes to a certain extent, so that the purpose of correspondingly adjusting the working state of the intelligent home equipment in the current indoor area is achieved, the set program is simpler, the control and the selection are more convenient, and a proper special application scene can be automatically customized for the user according to the habit and the activity behavior of the user; the working states of the remote equipment and the short-range equipment accord with the human engineering characteristics to carry out linkage work, so that a user fully experiences linkage self-triggering adjustment on the second intelligent household equipment on the basis of the working state of the first intelligent household equipment, the adjustment on the second intelligent household equipment is always realized by 'centering on people', and the experience of the user is improved; through adjusting the environmental parameter of the current indoor area, the method can cope with a noisier indoor area environment, especially when the current indoor area is moved for a plurality of people, the environmental parameter can be automatically adjusted based on the acoustic characteristic information of the users, the activities of the plurality of people in the room are not influenced, special operation is not needed, the movement is not influenced, and the sounds of people outside the users are not influenced and controlled to be adjusted.

In order to be able to load the method and system described above to function properly, the system may include more or less components than those described above, or may combine some components, or different components, in addition to the various modules described above, for example, may include input and output devices, network access devices, buses, processors, memories, and the like.

The processor may be a central processing unit (CentralProcessingUnit, CPU), other general purpose processors, digital signal processors (DigitalSignalProcessor, DSP), application specific integrated circuits (ApplicationSpecificIntegratedCircuit, ASIC), off-the-shelf programmable gate arrays (Field-ProgrammableGateArray, FPGA) or other programmable logic devices, discrete gate or transistor logic devices, discrete hardware components, or the like. The general purpose processor may be a microprocessor or the processor may be any conventional processor or the like, which is a control center of the above system, and various interfaces and lines are used to connect the various parts.

It should be understood that, although the steps in the flowcharts of the embodiments of the present invention are shown in order as indicated by the arrows, these steps are not necessarily performed in order as indicated by the arrows. The steps are not strictly limited to the order of execution unless explicitly recited herein, and the steps may be executed in other orders. Moreover, at least some of the steps in various embodiments may include multiple sub-steps or stages that are not necessarily performed at the same time, but may be performed at different times, nor do the order in which the sub-steps or stages are performed necessarily performed in sequence, but may be performed alternately or alternately with at least a portion of the sub-steps or stages of other steps or other steps.

The technical features of the above-described embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above-described embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The foregoing examples illustrate only a few embodiments of the invention and are described in detail herein without thereby limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the invention.

Claims (6)

1. The intelligent home linkage management method is characterized by comprising the following steps of:

setting a fixed application scene and a variable application scene, wherein the fixed application scene and the variable application scene are respectively applied to at least one intelligent home device, the fixed application scene is associated with a first intelligent home device, the variable application scene is associated with a second intelligent home device, and the working state variable degree of the first intelligent home device is smaller than that of the second intelligent home device;

applying a fixed application scene according to the behavior habit of a user, wherein the fixed application scene is applied to at least one indoor area;

acquiring body posture data of a user, and analyzing activity behaviors of the user;

when the difference value between the body posture data of the user before and after twice in the preset interval time period exceeds the difference threshold value, performing secondary synthesis on the fixed application scene and the variable application scene, and correspondingly adjusting the working state of the intelligent household equipment in the current indoor area, otherwise, keeping the state of the fixed application scene;

the step of collecting the body posture data of the user and analyzing the activity behavior of the user specifically comprises the following steps:

acquiring indoor movement track data of a user;

acquiring a moving track drop point of a user in a first set time period in moving track data;

capturing the head portrait position of the user in the falling point of the moving track;

positioning a synthetic reference point in the head portrait position of the user, wherein the synthetic reference point is a synthetic reference point of a fixed application scene and a variable application scene;

when the difference value between the body posture data of the user before and after twice in the preset interval time period exceeds the difference threshold value, the performing secondary synthesis on the fixed application scene and the variable application scene specifically comprises the following steps:

presetting an interval time period and a difference threshold; performing differential value analysis and judgment on the activity behaviors of the user in a set interval time period; when the difference value between the body posture data of the front user and the body posture data of the rear user exceeds the difference threshold value, the working state of the first intelligent household device is kept, and the working face of the remote device in the second intelligent household device is enabled to correspond to the synthesis reference point by taking the synthesis reference point as the center; adjusting the working states of the short-range devices in the second smart home device according to the adjustment of the long-range devices so that the working states of the long-range devices and the short-range devices accord with the human engineering characteristics;

the method comprises the steps of taking a synthesis datum point as a center, enabling a working face of remote equipment in second intelligent household equipment to correspond to the synthesis datum point, and adjusting the working face of the remote equipment in the second intelligent household equipment to be opposite to the synthesis datum point;

the method further comprises the step of adjusting the environmental parameters of the current indoor area, and the step of adjusting the environmental parameters of the current indoor area specifically comprises the following steps:

recording sound data changing with time in a current indoor area, and generating a sound waveform file based on the sound data;

intercepting waveforms exceeding an amplitude threshold value in the sound waveform file to obtain a high-amplitude waveform subfile;

carrying out framing treatment on the high-amplitude waveform subfiles to obtain a voice frame sequence;

extracting acoustic features in each voice frame sequence to generate an acoustic feature matrix;

acquiring acoustic feature information of a user, intercepting an acoustic feature matrix based on the acoustic feature information of the user, generating an acoustic feature submatrix of the user, and confirming text information according to the acoustic feature submatrix of the user;

establishing an indoor environment characteristic word text library, and confirming corresponding indoor environment user willingness in the text information to improve the text information based on the indoor environment characteristic word text library;

and adjusting the environmental parameters of the current indoor area based on the user wish of the indoor environment to improve the text information.

2. The smart home linkage management method according to claim 1, wherein the setting of the fixed application scenario and the variable application scenario specifically includes:

dividing the intelligent household equipment into first intelligent household equipment and second intelligent household equipment according to the variable degree of the working state, wherein the working state of the first intelligent household equipment is single and variable, and the working state of the second intelligent household equipment is non-single and variable;

applying the first smart home device to a fixed application scenario;

and applying the second intelligent home equipment to the variable application scene.

3. The smart home linkage management method according to claim 1, wherein before the application of the fixed application scenario according to the behavior habit of the user, the method further comprises:

setting a base indoor comfort temperature associated with a body surface temperature of a user;

setting indoor base light brightness matched with the activity behavior of the user, wherein different indoor areas have corresponding indoor base light brightness.

4. The smart home linkage management method according to claim 1, wherein the applying the fixed application scenario according to the behavior habit of the user specifically includes:

judging whether the character activity exists in the current indoor area;

if the person activity exists in the current indoor area, starting corresponding first intelligent household equipment;

and if the person activity does not exist in the current indoor area, dormancy is performed on the corresponding first intelligent home equipment.

5. The intelligent home linkage management method according to claim 4, wherein before the collecting the gesture shape data of the user and analyzing the activity behavior of the user, the method further comprises:

acquiring a second intelligent household equipment use instruction of a user in a current indoor area;

and starting the second intelligent household equipment through the second intelligent household equipment using instruction.

6. An intelligent home linkage management system, characterized in that the system comprises:

the system comprises a setting module, a control module and a control module, wherein the setting module is used for setting a fixed application scene and a variable application scene, the fixed application scene and the variable application scene are respectively applied to at least one intelligent household device, the fixed application scene is associated with a first intelligent household device, the variable application scene is associated with a second intelligent household device, and the working state variable degree of the first intelligent household device is smaller than that of the second intelligent household device;

the application module is used for applying a fixed application scene according to the behavior habit of the user, and the fixed application scene is at least applied to one indoor area;

the acquisition and analysis module is used for acquiring the body posture data of the user and analyzing the activity behaviors of the user;

the synthesis module is used for carrying out secondary synthesis on the fixed application scene and the variable application scene when the difference value between the shape posture data of the user before and after twice in the preset interval time period exceeds a difference threshold value, correspondingly adjusting the working state of the intelligent household equipment in the current indoor area, and otherwise, keeping the state of the fixed application scene;

the method for analyzing the activity behavior of the user specifically comprises the following steps of:

acquiring indoor movement track data of a user;

acquiring a moving track drop point of a user in a first set time period in moving track data;

capturing the head portrait position of the user in the falling point of the moving track;

positioning a synthetic reference point in the head portrait position of the user, wherein the synthetic reference point is a synthetic reference point of a fixed application scene and a variable application scene;

when the difference value between the body posture data of the user before and after twice in the preset interval time period exceeds the difference threshold value, the performing secondary synthesis on the fixed application scene and the variable application scene specifically comprises the following steps:

presetting an interval time period and a difference threshold; performing differential value analysis and judgment on the activity behaviors of the user in a set interval time period; when the difference value between the body posture data of the front user and the body posture data of the rear user exceeds the difference threshold value, the working state of the first intelligent household device is kept, and the working face of the remote device in the second intelligent household device is enabled to correspond to the synthesis reference point by taking the synthesis reference point as the center; adjusting the working states of the short-range devices in the second smart home device according to the adjustment of the long-range devices so that the working states of the long-range devices and the short-range devices accord with the human engineering characteristics;

the method comprises the steps of taking a synthesis datum point as a center, enabling a working face of remote equipment in second intelligent household equipment to correspond to the synthesis datum point, and adjusting the working face of the remote equipment in the second intelligent household equipment to be opposite to the synthesis datum point;

the system is also used for adjusting the environmental parameters of the current indoor area, and the adjusting of the environmental parameters of the current indoor area specifically comprises the following steps:

recording sound data changing with time in a current indoor area, and generating a sound waveform file based on the sound data;

intercepting waveforms exceeding an amplitude threshold value in the sound waveform file to obtain a high-amplitude waveform subfile;

carrying out framing treatment on the high-amplitude waveform subfiles to obtain a voice frame sequence;

extracting acoustic features in each voice frame sequence to generate an acoustic feature matrix;

acquiring acoustic feature information of a user, intercepting an acoustic feature matrix based on the acoustic feature information of the user, generating an acoustic feature submatrix of the user, and confirming text information according to the acoustic feature submatrix of the user;

establishing an indoor environment characteristic word text library, and confirming corresponding indoor environment user willingness in the text information to improve the text information based on the indoor environment characteristic word text library;

and adjusting the environmental parameters of the current indoor area based on the user wish of the indoor environment to improve the text information.