CN108693779B - Intelligent household control system and method - Google Patents

Abstract

The embodiment of the application provides an intelligent home control system and method. The wireless passive intelligent switch performs wireless passive self-generation according to the triggering operation of the user to generate a corresponding control instruction, and sends the control instruction to the wireless intelligent gateway equipment. And the wireless intelligent gateway equipment converts the control instruction into a corresponding first control signal according to the linkage configuration information and then sends the corresponding first control signal to the corresponding intelligent household equipment. The intelligent home equipment adjusts the working state based on the first control signal and uploads the state information in the working process to the wireless intelligent gateway equipment. The wireless intelligent gateway equipment searches the control mode of the intelligent home equipment according to the linkage configuration information and the state information of the intelligent home equipment, generates a corresponding second control signal based on the control mode and then sends the second control signal to the intelligent home equipment. From this, the expansibility and the convenience of intelligent house wiring have been improved to control it at intelligent house equipment's operation in-process self-adaptation ground, improved intelligent control degree.

Description

Intelligent household control system and method

Technical Field

The application relates to the field of intelligent home, in particular to an intelligent home control system and method.

Background

At present, the existing smart home systems generally adopt a 485/KNX wired mode or a Zigbee protocol mode. The power supply of the intelligent switch still needs power supply, the installation and the use are greatly limited, the wiring work is complicated, the maintenance is difficult, the construction cost is high, and the use of customers still feels inconvenient. For example, it is very difficult for customers to add smart home devices or secondary decorations. Therefore, the existing intelligent home wiring method is poor in expansibility and convenience and far from meeting the requirements of users on intelligent systems.

On the other hand, the current control mode of the intelligent household equipment is still limited to wireless control through user operation, the control mode is single, and the intelligent control degree is far from enough.

Disclosure of Invention

In order to overcome the defects in the prior art, the intelligent home control system and the intelligent home control method can improve the expansibility and convenience of intelligent home wiring, greatly reduce the construction maintenance and management cost, facilitate popularization and application of intelligent home, control the intelligent home equipment in a self-adaptive mode in the running process of the intelligent home equipment, and improve the intelligent control degree.

In order to achieve the above purpose, the embodiments of the present application employ the following technical solutions:

in a first aspect, an embodiment of the present application provides an intelligent home control system, where the intelligent home control system includes at least one wireless passive intelligent switch, a wireless intelligent gateway device in communication connection with the at least one wireless passive intelligent switch, and an intelligent home device in communication connection with the wireless intelligent gateway device, and linkage configuration information is stored in the wireless intelligent gateway device.

The wireless passive intelligent switch is used for performing wireless passive self-generating according to the triggering operation of a user to generate a corresponding control instruction and sending the control instruction to the wireless intelligent gateway equipment;

the wireless intelligent gateway equipment is used for converting the control instruction into a corresponding first control signal according to the linkage configuration information and then sending the corresponding first control signal to the corresponding intelligent home equipment after receiving the control instruction;

the intelligent home equipment is used for adjusting the working state based on the first control signal and uploading state information in the working process to the wireless intelligent gateway equipment;

the wireless intelligent gateway device is used for searching the control mode of the intelligent home equipment according to the linkage configuration information and the state information of the intelligent home equipment, generating a corresponding second control signal based on the control mode and then sending the second control signal to the intelligent home equipment, wherein the linkage configuration information comprises the control modes of the intelligent home equipment under different state information.

Optionally, the wireless passive intelligent switch includes a mechanical switch, a power generation assembly and a communication chip, the mechanical switch is connected with the power generation assembly, the power generation assembly is electrically connected with the communication chip, the power generation assembly is used for converting mechanical energy generated by the mechanical switch into electric energy when the mechanical switch is triggered so as to supply power to the communication chip, so that the communication chip can enter a working state, and the communication chip can send a corresponding control instruction to the wireless intelligent gateway device.

Optionally, the intelligent home control system further includes a cloud server and a user terminal, which are in communication connection with the wireless intelligent gateway device, the user terminal is also in communication connection with the cloud server, a fault scheme database of each intelligent home device is stored in the cloud server, and the fault scheme database includes fault information of the intelligent home device and a corresponding fault coping strategy;

the state information uploaded by the intelligent household equipment in the working process comprises fault information;

the wireless intelligent gateway equipment is further used for sending the fault information to the cloud server, the cloud server searches a corresponding fault coping strategy from the fault scheme database based on the fault information and sends the fault information and the fault coping strategy to the user terminal, and the user terminal displays the fault information and the fault coping strategy to a corresponding user to prompt the user to take a corresponding fault repairing measure;

and when the intelligent home equipment is subjected to fault repair, sending fault repair information to the wireless intelligent gateway equipment, and forwarding the fault repair information to the user terminal through the cloud server by the wireless intelligent gateway equipment so as to prompt that the fault repair of the user is successful.

Optionally, a plurality of scene working modes, a time period and user state information corresponding to each scene working mode are prestored in the cloud server, wherein each scene working mode includes at least one smart home device and control information of the at least one smart home device in the scene working mode;

the user terminal is further used for acquiring gesture track information of a user in real time and sending the gesture track information to the cloud server;

the wireless intelligent gateway equipment is also used for acquiring wireless signal strength change information between the wireless intelligent gateway equipment and the user terminal in real time and sending the acquired wireless signal strength change information and corresponding acquisition time to the cloud server;

the cloud server is further used for generating corresponding user state information according to the attitude track information, the wireless signal strength change information and corresponding acquisition time, matching a corresponding target scene working mode according to the user state information, and sending the target scene working mode to the wireless intelligent gateway equipment;

the wireless intelligent gateway device is further configured to generate a control instruction for controlling the corresponding at least one target intelligent home device according to the target scene working mode, and send the corresponding control instruction to the target intelligent home device for each target intelligent home device.

Optionally, the cloud server further stores location information of each smart home device in a home area, and a manner of generating corresponding user status information according to the gesture track information, the wireless signal strength change information, and corresponding acquisition time, and matching a corresponding target scene working mode according to the user status information includes:

predicting user behavior information according to the position information, the attitude track information and the wireless signal intensity change information of each intelligent household device in the home area;

generating corresponding user state information according to the predicted user behavior information and the acquisition time;

and matching a corresponding target scene working mode according to the user state information.

Optionally, the generating of the control instruction for controlling the corresponding at least one target smart home device according to the target scene working mode includes:

searching at least one target intelligent home device in the target scene working mode and control information of the at least one target intelligent home device in the target scene working mode;

and generating a control instruction for controlling the corresponding at least one target intelligent household device according to the control information of the at least one target intelligent household device in the target scene working mode.

Optionally, the user terminal is further configured to obtain linkage configuration information of the target smart home device in the current operating state from the wireless smart gateway device, so that the user reconfigures the linkage configuration information according to the linkage configuration information of the target smart home device in the current operating state.

Optionally, the smart home control system further includes a monitoring terminal in communication connection with the cloud server, where the monitoring terminal is configured to acquire position information and a body signal of a monitored person in real time and send the position information and the body signal to the cloud server, where the body signal includes one or more combinations of an acceleration signal, a body temperature signal, a blood pressure signal, and a heart rate signal;

the cloud server is further used for judging whether the monitored person is dangerous according to the body signal, if so, sending an emergency instruction to the wireless intelligent gateway device according to the position information of the monitored person, and sending emergency information to the user terminal, wherein the emergency instruction comprises corresponding emergency intelligent home equipment and the position information of the monitored person;

the wireless intelligent gateway device is used for controlling the emergency intelligent home equipment to move to the current position of the monitored person according to the emergency instruction, enabling the emergency intelligent home equipment to carry out emergency operation on the monitored person, and sending prompt information of the ongoing emergency operation to the cloud server when detecting that the emergency intelligent home equipment starts the emergency operation;

the cloud server is also used for monitoring the change condition of the body signal of the monitored person after receiving the prompt message.

Optionally, the cloud server is further configured to analyze the body signal change condition to obtain an emergency analysis report, and send the emergency analysis report to the user terminal.

In a second aspect, an embodiment of the present application further provides an intelligent home control method, which is applied to the intelligent home control system, where the method includes:

the wireless passive intelligent switch performs wireless passive self-generation according to the triggering operation of a user to generate a corresponding control instruction and sends the control instruction to the wireless intelligent gateway equipment;

after receiving the control instruction, the wireless intelligent gateway equipment converts the control instruction into a corresponding first control signal according to the linkage configuration information and then sends the corresponding first control signal to corresponding intelligent home equipment;

the intelligent home equipment adjusts the working state based on the first control signal and uploads the state information in the working process to the wireless intelligent gateway equipment;

the wireless intelligent gateway equipment searches a control mode of the intelligent home equipment according to the linkage configuration information and the state information of the intelligent home equipment, generates a corresponding second control signal based on the control mode and then sends the second control signal to the intelligent home equipment, wherein the linkage configuration information comprises the control modes of the intelligent home equipment under different state information.

Compared with the prior art, the method has the following beneficial effects:

the intelligent home control system and the intelligent home control method provided by the embodiment of the application, the wireless passive intelligent switch adopts a mechanical pressing power generation mode, a battery is not needed, wireless passive self-power generation can be carried out according to the triggering operation of a user to generate a corresponding control instruction, the control instruction is sent to the wireless intelligent gateway equipment, the randomness of the use of intelligent switch control is solved, the convenience is achieved, the stability of the intelligent home is also solved, automatic networking is achieved, the low power consumption is achieved, the expansibility of the intelligent equipment is realized, the intelligent problem of scene design is solved, the construction maintenance management cost is greatly reduced, and the popularization and the application of the intelligent home are facilitated. And the wireless intelligent gateway equipment converts the control instruction into a corresponding first control signal according to the linkage configuration information and then sends the corresponding first control signal to the corresponding intelligent household equipment. The intelligent home equipment adjusts the working state based on the first control signal, uploads the state information in the working process to the wireless intelligent gateway equipment, and the wireless intelligent gateway equipment searches the control mode of the intelligent home equipment according to the linkage configuration information and the state information of the intelligent home equipment, generates a corresponding second control signal based on the control mode and then sends the second control signal to the intelligent home equipment. Therefore, the intelligent household equipment can be controlled in a self-adaptive mode in the running process of the intelligent household equipment, and the intelligent control degree is improved.

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 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 it will be apparent to those skilled in the art that other related drawings can be obtained from the drawings without inventive effort.

Fig. 1 is an interaction schematic diagram of an intelligent home control system provided in an embodiment of the present application;

FIG. 2 is a schematic diagram of a dialog box for prompting a user for a fault condition;

FIG. 3 is a schematic diagram of a dialog box for prompting a user for an emergency situation;

fig. 4 is a schematic flow chart of the smart home control method provided in the embodiment of the present application.

Icon: 10-an intelligent home control system; 100-wireless passive intelligent switch; 200-a wireless intelligent gateway device; 300-smart home devices; 400-a cloud server; 500-a user terminal; 600-monitoring terminal.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some, but not all, embodiments of the present application. The components of the embodiments of the present application, generally described and illustrated in the figures herein, can be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present application, presented in the accompanying drawings, is not intended to limit the scope of the claimed application, but is merely representative of selected embodiments of the application. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within 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.

Referring to fig. 1, an interaction schematic diagram of an intelligent home control system 10 provided in the embodiment of the present application is shown, where the intelligent home control system 10 may include at least one wireless passive intelligent switch 100, a wireless intelligent gateway device 200 in communication connection with the at least one wireless passive intelligent switch 100, and an intelligent home device 300 in communication connection with the wireless intelligent gateway device 200.

In the embodiment of the present application, each smart home device 300 is disposed at a corresponding position in a home area, where the smart home device 300 may be an audio/video device, a lighting device, an intelligent curtain, an air conditioner, a security device, a digital cinema device, a video cloud server 400, a video cabinet device, a network appliance, and the like, and is not limited herein. As an embodiment, each of the smart home devices 300 may communicate with the wireless smart gateway device 200 in a Zigbee communication manner.

The wireless passive intelligent switch 100 may perform wireless passive self-generation according to a triggering operation of a user to generate a corresponding control instruction, and send the control instruction to the wireless intelligent gateway device 200. Optionally, the wireless passive intelligent switch 100 may include a mechanical switch, a power generation component, and a communication chip. The mechanical switch is connected with the power generation assembly, and the power generation assembly is electrically connected with the communication chip. The power generation assembly is used for converting mechanical energy generated by the mechanical switch into electric energy when the mechanical switch is triggered so as to supply power to the communication chip and enable the communication chip to enter a working state, so that the communication chip sends a corresponding control instruction to the wireless intelligent gateway device 200. From this, still need the power supply to current intelligent switch's power supply, install and use and receive very big limitation, wiring work is numerous and diverse, maintain the difficulty, construction cost is high, customer's use still feels inconvenient problem, this embodiment is through setting up this wireless passive intelligent switch 100, do not need mains operated, both solve the randomness of the use that intelligent switch controlled, the convenience, the stability of intelligent house has been solved again, automatic network deployment, low-power consumption, the expansibility of smart machine, the intelligent problem of scene design, greatly reduced the construction and maintenance administrative cost, be favorable to the popularization and the application of intelligent house.

Optionally, the communication chip can adopt a 433 communication chip module with low power consumption, and the 433 chip module has the characteristics of long communication distance and strong wall penetrating performance.

After receiving the control instruction, the wireless intelligent gateway device 200 may convert the control instruction into a corresponding first control signal according to the linkage configuration information, and then send the corresponding first control signal to the corresponding intelligent home device 300. As an embodiment, the wireless intelligent gateway device 200 may include a 433 communication receiver, and after receiving the control execution sent by the 433 communication chip module through the 433 communication receiver, the wireless intelligent gateway device converts the control instruction into a Zigbee control signal according to the linkage configuration information, and sends the Zigbee control signal to the corresponding intelligent home device 300. The linkage configuration information may include an association relationship between the wireless passive intelligent switch 100 and the intelligent home devices 300, and after the wireless intelligent gateway device 200 receives the control instruction sent by the wireless passive intelligent switch 100, the corresponding intelligent home devices 300 and parameters to be controlled may be found according to the association relationship, where for example, taking an intelligent lamp as an example, the parameters to be controlled may include a light color, a light brightness, a light style, and the like, so as to generate a first control signal to control the corresponding intelligent home devices 300.

The smart home device 300 may adjust a working state based on the first control signal, and upload state information in a working process to the wireless smart gateway device 200. For example, the smart home device 300 may adjust a light color, a light brightness, a light pattern, and the like based on the first control signal.

In this embodiment, the linkage configuration information further includes control modes of the smart home devices 300 under different state information. Therefore, the wireless intelligent gateway device 200 may search the control mode of the intelligent home device 300 according to the linkage configuration information and the state information of the intelligent home device 300, and generate a corresponding second control signal based on the control mode and then send the second control signal to the intelligent home device 300. In implementation, the operation of the smart home devices 300 may be optimized by reasonably setting the control mode of the smart home devices 300, for example, reducing the power consumption of the smart home devices 300, or adjusting the temperature of the smart air conditioners to provide a more appropriate indoor temperature, and so on. Therefore, the intelligent home equipment 300 can be controlled in a self-adaptive manner in the running process of the intelligent home equipment 300, and the intelligent control degree can be improved.

Still referring to fig. 1, optionally, the smart home control system 10 may further include a cloud server 400 and a user terminal 500, which are in communication connection with the wireless smart gateway device 200, where the user terminal 500 is also in communication connection with the cloud server 400.

In the embodiment of the present application, the user terminal 500 may transmit or receive a signal through a manner such as a wired or wireless network, or may process or store the signal in a physical storage state such as a memory. Each user terminal 500 may be an electronic device including hardware, software, or embedded logic elements, or a combination of two or more such elements, and capable of performing the appropriate functions implemented or supported by the user terminal 500. Optionally, the user terminal 500 may be a device with a wireless transceiving function, including an indoor or outdoor device, a handheld device, a wearable or vehicle-mounted device, and the like, and the embodiment of the present application does not limit the application context.

The user terminal 500 typically supports various applications (e.g., software such as APP that performs certain functions), such as one or more of the following: a smart home management application, a notepad production application, a mapping application, a presentation application, a word processing application, a website creation application, a disc editing application, a spreadsheet application, a gaming application, a telephony application, a video conferencing application, an email application, an instant messaging application, a fitness support application, a photo management application, a digital camera application, a digital video camera application, a web browsing application, a digital music player application, and/or a digital video player application.

Various applications executing on the user terminal 500 optionally use at least one common physical user interface device, such as a touch screen. One or more functions of the touch screen and corresponding information displayed on the device are optionally adjusted and/or varied from one application to the next and/or within the respective application. In this way, the common physical architecture of the user terminal 500 (such as a touch screen) optionally supports various applications with a user interface that is intuitive and clear to the user.

In the embodiment of the present application, the cloud server 400 should be understood as a service point providing processes, databases, and communication facilities. For example, cloud server 400 may refer to a single physical processor with associated communication and data storage and repository facilities, or it may refer to an aggregation of networked or clustered processors, associated networks, and storage devices, and operates on software and one or more repository systems and application software that support the services provided by cloud server 400. Cloud servers 400 may vary widely in configuration or performance, but cloud servers 400 may generally include one or more central processing units and storage units. The cloud Server 400 may also include one or more large storage devices, one or more power supplies, one or more wired or wireless network components, one or more input/output components, or one or more operating systems, such as Windows Server, Mac OS X, Unix, Linux, FreeBSD.

The inventor finds in research that when a user is not at home, for example, the user is working at work or is ready to go out of work at the moment, the user does not know whether equipment in the house has a fault or not, and if the user waits for the smart home equipment 300 to go home and finds that the equipment has the fault, the user may not be repaired in time, and time cost is increased. In order to solve the above problem, in this embodiment, the cloud server 400 stores a fault scheme database of each smart home device 300, where the fault scheme database includes fault information of the smart home device 300 and a corresponding fault coping strategy.

In detail, the state information uploaded by the smart home device 300 in the working process may include fault information. The wireless intelligent gateway device 200 may further send the fault information to the cloud server 400 after receiving the fault information, and the cloud server 400 searches a corresponding fault handling policy from the fault scenario database based on the fault information and sends the fault information and the fault handling policy to the user terminal 500. Referring to fig. 2, after receiving the fault information and the fault coping strategy, the user terminal 500 displays the fault information and the fault coping strategy to a corresponding user to prompt the user to take corresponding fault repairing measures. For example, a user can select whether to seek fault repair assistance when seeing fault information and a fault coping strategy, if necessary, the fault coping strategy can comprise a maintenance site address and a maintenance telephone corresponding to the fault information, and the user can select to inform maintenance personnel to perform home maintenance according to needs. Therefore, in the application scenario, when the smart home device 300 fails, the user can know the failure reason and the solution at the first time, so as to take the repair scheme in time.

When the smart home device 300 performs fault repair, fault repair information may be sent to the wireless smart gateway device 200, and then the wireless smart gateway device 200 forwards the fault repair information to the user terminal 500 through the cloud server 400, so as to prompt that the user performs fault repair successfully. For example, as shown in fig. 2, after the fault is successfully repaired, the user may also know that the failed smart home device 300 has been successfully repaired in the first time.

In order to improve the operation efficiency, the operation flow of a user is reduced. Optionally, a plurality of scene working modes, a time period and user state information corresponding to each scene working mode may also be prestored in the cloud server 400, where each scene working mode includes at least one smart home device 300 and control information of the at least one smart home device 300 in the scene working mode. For example, in the scene working mode a, the control information of the smart home devices B, C, D, E in the scene working mode a is included.

In detail, the user terminal 500 may acquire gesture track information of a user in real time and transmit the gesture track information to the cloud server 400. Meanwhile, the wireless intelligent gateway device 200 acquires the wireless signal strength change information with the user terminal 500 in real time, and transmits the acquired wireless signal strength change information and the corresponding acquisition time to the cloud server 400.

The cloud server 400 generates corresponding user state information according to the attitude trajectory information, the wireless signal strength change information and the corresponding acquisition time, matches a corresponding target scene working mode according to the user state information, and sends the target scene working mode to the wireless intelligent gateway device 200.

For example, the cloud server 400 may further store location information of each smart home device 300 in a home area, and the cloud server 400 may predict user behavior information according to the location information of each smart home device 300 in the home area, the posture trajectory information, and the wireless signal strength change information. And then, generating corresponding user state information according to the predicted user behavior information and the acquisition time. For example, in a home environment, the wireless intelligent gateway device 200 is generally installed at a fixed location, when a user carries the user terminal 500 to move in the home environment, due to a change in a distance between the user terminal 500 carried by the user and the wireless intelligent gateway device 200, the wireless signal strength between the user terminal 500 and the wireless intelligent gateway device 200 may change, and the wireless intelligent gateway device 200 acquires the wireless signal strength information of the user terminal 500 and transmits the wireless signal strength information to the cloud server 400. Meanwhile, the user terminal 500 detects gesture track information of the user in the home environment and sends the gesture track information to the cloud server 400. The wireless signal strength change information and the posture track information are used for representing the movement trend of the user, and the cloud server 400 can predict the user behavior information of the user according to the movement trend of the user and the position information of each smart home device 300 in the home area. For example, it may be predicted that the user is walking into the kitchen, or the user is lying in bed, or the user is running on a treadmill, or the user is opening a door, or the user is closing a door, and so forth. And then, generating corresponding user state information according to the user behavior information and the corresponding acquisition time. For example, in the morning 8: 00, if the user behavior information indicates that the user is closing the door, the user state information of the user represents that the user is preparing to work. As another example, 6 pm: 00, the user behavior information represents that the user is opening the door, and the user state information represents that the user is going home from work. For another example, evening 11: 00, the user behavior information indicates that the user is lying in bed, and the user state information indicates that the user is preparing to sleep.

Then, after confirming the user state information, the wireless intelligent gateway device 200 matches a corresponding target scene working mode according to the user state information, and generates a control instruction for controlling at least one corresponding target intelligent home device 300 according to the target scene working mode. Specifically, at least one target smart home device 300 in the target scene working mode and control information of the at least one target smart home device 300 in the target scene working mode are first searched, and then a control instruction for controlling the corresponding at least one target smart home device 300 is generated according to the control information of the at least one target smart home device 300 in the target scene working mode. Then, for each target smart home device 300, a corresponding control instruction is sent to the target smart home device 300.

For example, if the user status information indicates that the user is preparing to work, the matched target scene operation mode may include the smart home devices 300 with refrigerators removed from the home, and the control information of the smart home devices 300 in the target scene operation mode is stop operation, and then the wireless smart gateway device 200 generates a control instruction for controlling all the smart home devices 300 with refrigerators removed to stop operation. Therefore, after the user is on duty, all the smart home devices 300 except the refrigerator in the home environment automatically stop working without manual operation of the user.

In addition, the inventor also finds that, in the research, when the user configures the linkage configuration information (for example, the control modes of the smart home devices 300 under different state information), it is difficult for the user to determine the execution effect corresponding to the linkage configuration information of the smart home devices 300, and the meaning of each setting parameter is not clear, so that the accuracy of the set operation parameter is poor, or repeated setting verification is required, the setting efficiency is low, and even the setting cannot be performed.

In order to solve the above problem, optionally, when the user sets the linkage configuration parameters, the user terminal 500 may further obtain linkage configuration information of the target smart home device 300 in the current operating state from the wireless smart gateway device 200, and the user may reconfigure the linkage configuration information according to the linkage configuration information of the target smart home device 300 in the current operating state. Therefore, in the process of setting the linkage configuration information, the user can know the operation effect of the intelligent home equipment 300 corresponding to each setting parameter in the set linkage configuration information, so that the accuracy of setting the linkage configuration information can be improved, and the user experience of the user in the setting process can be enhanced.

In further research, the inventor also finds that the existing smart home device 300 is mostly applied to the field of common household appliances, and the application of related smart home related to physiological health monitoring and medical care is very little. In the process of actual life, especially for the old with unstable physical health, due to the fact that conditions such as physical abnormality are easy to occur, and no person accompanies around the old, the old cannot rescue in time, and certain hidden dangers are left for the life safety of people with poor physical conditions.

In order to solve the above problem, still referring to fig. 1, optionally, the smart home control system 10 may further include a monitoring terminal 600 communicatively connected to the cloud server 400. In the embodiment of the present application, the monitoring terminal 600 may be disposed in a plurality of numbers, and disposed on each target portion (for example, wrist, leg, etc.) of the monitored person. In order to facilitate connection with the limbs, the monitoring terminal 600 may be an intelligent bracelet with watchbands on two sides thereof to fix the monitoring terminal to the target part. In addition, the monitoring terminal 600 may further include a positioning module for acquiring the position information of the monitored person.

The monitoring terminal 600 may acquire position information and a body signal of a monitored person in real time and transmit the position information and the body signal to the cloud server 400, wherein the body signal includes one or more combinations of an acceleration signal, a body temperature signal, a blood pressure signal, and a heart rate signal. The cloud server 400 may determine whether the monitored person is dangerous according to the body signal, and if so, send a first-aid instruction to the wireless intelligent gateway device 200 according to the position information of the monitored person, and send first-aid information to the user terminal 500 at the same time. As shown in fig. 3, the user terminal 500, after receiving the emergency information, prompts the relevant user about the physical condition of the monitored person, and the relevant user may choose to make an emergency call according to the monitored physical condition. Thus, the relevant user (e.g. family member, doctor) can know the dangerous situation of the monitored person for the first time.

Optionally, the emergency instruction includes the corresponding emergency smart home device 300 and the location information of the monitored person. The wireless intelligent gateway device 200 may control the emergency smart home device 300 to move to the current location of the monitored person according to the emergency instruction, and enable the emergency smart home device 300 to perform an emergency operation on the monitored person, and send a prompt message of performing the emergency operation to the cloud server 400 when detecting that the emergency smart home device 300 starts performing the emergency operation, and the cloud server 400 is further configured to monitor a change condition of a body signal of the monitored person after receiving the prompt message, analyze the change condition of the body signal to obtain an emergency analysis report, and send the emergency analysis report to the user terminal 500.

For example, when a monitored person has a heart disease on a sofa in a living room, and the cloud server 400 monitors that the heart rate of the monitored person is abnormal at the moment, a first-aid instruction is sent to the wireless intelligent gateway device 200, where the first-aid instruction includes location information of a heart disease first-aid device and the monitored person, and the wireless intelligent gateway device 200 controls the heart disease first-aid device to move to the sofa in the living room according to the first-aid instruction, and provides a first-aid kit and first-aid equipment to perform first-aid operation on the monitored person. The wireless intelligent gateway device 200 sends a prompt message of performing emergency operation to the cloud server 400 when detecting that the heart disease emergency equipment starts performing emergency operation, and the cloud server 400 monitors the heart rate change condition of the monitored person after receiving the prompt message, analyzes the heart rate change condition to obtain an emergency analysis report of the heart disease emergency, and sends the emergency analysis report to the user terminal 500.

Further, referring to fig. 4, an intelligent home control method is further provided in the embodiment of the present application, where the intelligent home control method is executed by the intelligent home control system 10, it can be understood that steps involved in the following intelligent home control method are described in the above embodiment, and specific details of each step may be described with reference to the above embodiment.

Step S110, the wireless passive intelligent switch 100 performs wireless passive self-generation according to the triggering operation of the user to generate a corresponding control instruction, and sends the control instruction to the wireless intelligent gateway device 200.

Step S120, after receiving the control instruction, the wireless intelligent gateway device 200 converts the control instruction into a corresponding first control signal according to the linkage configuration information, and then sends the corresponding first control signal to the corresponding intelligent home device 300.

Step S130, the smart home device 300 adjusts a working state based on the first control signal, and uploads state information in a working process to the wireless smart gateway device 200.

Step S140, the wireless intelligent gateway device 200 searches for the control mode of the intelligent home device 300 according to the linkage configuration information and the state information of the intelligent home device 300, and generates a corresponding second control signal based on the control mode and sends the second control signal to the intelligent home device 300, wherein the linkage configuration information includes the control modes of the intelligent home devices 300 under different state information.

To sum up, the intelligent house control system and the method that this application embodiment provided, wireless passive intelligence switch adopts machinery to press the electricity generation mode, do not need the battery, can carry out wireless passive spontaneous electricity in order to generate corresponding control command according to user's trigger operation, and send control command for wireless intelligent gateway equipment, solve the randomness of the use that intelligent switch controlled, the convenience, the stability of intelligent house has been solved again, automatic network deployment, low-power consumption, the expansibility of intelligent equipment, the intelligent problem of scene design, greatly reduced construction maintenance administrative cost, be favorable to the popularization and the application of intelligent house. And the wireless intelligent gateway equipment converts the control instruction into a corresponding first control signal according to the linkage configuration information and then sends the corresponding first control signal to the corresponding intelligent household equipment. The intelligent home equipment adjusts the working state based on the first control signal, uploads the state information in the working process to the wireless intelligent gateway equipment, and the wireless intelligent gateway equipment searches the control mode of the intelligent home equipment according to the linkage configuration information and the state information of the intelligent home equipment, generates a corresponding second control signal based on the control mode and then sends the second control signal to the intelligent home equipment. Therefore, the intelligent household equipment can be controlled in a self-adaptive mode in the running process of the intelligent household equipment, and the intelligent control degree is improved.

In the embodiments provided in the present application, it should be understood that the disclosed apparatus and method may be implemented in other ways. The apparatus and method embodiments described above are illustrative only, as the flowcharts and block diagrams in the figures illustrate the architecture, functionality, and operation of possible implementations of systems, 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.

Alternatively, all or part of the implementation may be in software, hardware, firmware, or any combination thereof. When implemented in software, may be implemented in whole or in part in the form of a computer program product. The computer program product includes one or more computer instructions. When loaded and executed on a computer, cause the processes or functions described in accordance with the embodiments of the application to occur, in whole or in part. The computer may be a general purpose computer, a special purpose computer, a network of computers, or other programmable device. The computer instructions may be stored in a computer readable storage medium or transmitted from one computer readable storage medium to another, for example, the computer instructions may be transmitted from one website site, computer, cloud server, or data center to another website site, computer, cloud server, or data center by wired (e.g., coaxial cable, fiber optic, Digital Subscriber Line (DSL)) or wireless (e.g., infrared, wireless, microwave, etc.). The computer-readable storage medium may be any available medium that can be accessed by a computer or a data storage device including one or more available media integrated cloud servers, data centers, and the like. The usable medium may be a magnetic medium (e.g., floppy Disk, hard Disk, magnetic tape), an optical medium (e.g., DVD), or a semiconductor medium (e.g., Solid State Disk (SSD)), among others

It should be noted that, in this document, 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.

It will be evident to those skilled in the art that the present application is not limited to the details of the foregoing illustrative embodiments, and that the present application may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the application being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (8)

1. The intelligent home control system is characterized by comprising at least one wireless passive intelligent switch, wireless intelligent gateway equipment in communication connection with the at least one wireless passive intelligent switch and intelligent home equipment in communication connection with the wireless intelligent gateway equipment, wherein linkage configuration information is stored in the wireless intelligent gateway equipment;

the wireless passive intelligent switch is used for performing wireless passive self-generating according to the triggering operation of a user to generate a corresponding control instruction and sending the control instruction to the wireless intelligent gateway equipment;

the wireless intelligent gateway equipment is used for converting the control instruction into a corresponding first control signal according to the linkage configuration information and then sending the corresponding first control signal to the corresponding intelligent home equipment after receiving the control instruction;

the intelligent home equipment is used for adjusting the working state based on the first control signal and uploading state information in the working process to the wireless intelligent gateway equipment;

the wireless intelligent gateway device is used for searching a control mode of the intelligent home equipment according to the linkage configuration information and the state information of the intelligent home equipment, generating a corresponding second control signal based on the control mode and then sending the second control signal to the intelligent home equipment, wherein the linkage configuration information comprises the control modes of the intelligent home equipment under different state information;

the intelligent home control system further comprises a cloud server and a user terminal which are in communication connection with the wireless intelligent gateway device, the user terminal is also in communication connection with the cloud server, a fault scheme database of each intelligent home device is stored in the cloud server, and the fault scheme database comprises fault information of the intelligent home devices and corresponding fault coping strategies;

the state information uploaded by the intelligent household equipment in the working process comprises fault information;

the wireless intelligent gateway equipment is further used for sending the fault information to the cloud server, the cloud server searches a corresponding fault coping strategy from the fault scheme database based on the fault information and sends the fault information and the fault coping strategy to the user terminal, and the user terminal displays the fault information and the fault coping strategy to a corresponding user to prompt the user to take a corresponding fault repairing measure;

when the intelligent home equipment is subjected to fault repair, sending fault repair information to the wireless intelligent gateway equipment, and forwarding the fault repair information to the user terminal through the cloud server by the wireless intelligent gateway equipment so as to prompt that the fault repair of the user is successful;

the cloud server is pre-stored with a plurality of scene working modes, and time periods and user state information corresponding to each scene working mode, wherein each scene working mode comprises at least one intelligent household device and control information of the at least one intelligent household device in the scene working mode;

the user terminal is further used for acquiring gesture track information of a user in real time and sending the gesture track information to the cloud server;

the wireless intelligent gateway equipment is also used for acquiring wireless signal strength change information between the wireless intelligent gateway equipment and the user terminal in real time and sending the acquired wireless signal strength change information and corresponding acquisition time to the cloud server;

the cloud server is further used for generating corresponding user state information according to the attitude track information, the wireless signal strength change information and corresponding acquisition time, matching a corresponding target scene working mode according to the user state information, and sending the target scene working mode to the wireless intelligent gateway equipment;

the wireless intelligent gateway device is further configured to generate a control instruction for controlling the corresponding at least one target intelligent home device according to the target scene working mode, and send the corresponding control instruction to the target intelligent home device for each target intelligent home device.

2. The intelligent home control system according to claim 1, wherein the wireless passive intelligent switch includes a mechanical switch, a power generation component and a communication chip, the mechanical switch is connected to the power generation component, the power generation component is electrically connected to the communication chip, and the power generation component is configured to convert mechanical energy generated by the mechanical switch into electrical energy when the mechanical switch is triggered to supply power to the communication chip, so that the communication chip enters a working state, and the communication chip sends a corresponding control instruction to the wireless intelligent gateway device.

3. The smart home control system according to claim 1, wherein the cloud server further stores location information of each smart home device in a home area, and a manner of generating corresponding user status information according to the gesture trajectory information, the wireless signal strength change information, and corresponding acquisition time, and matching a corresponding target scene working mode according to the user status information includes:

predicting user behavior information according to the position information, the attitude track information and the wireless signal intensity change information of each intelligent household device in the home area;

generating corresponding user state information according to the predicted user behavior information and the acquisition time;

and matching a corresponding target scene working mode according to the user state information.

4. The smart home control system according to claim 1, wherein the manner of generating a control instruction for controlling the corresponding at least one target smart home device according to the target scene operating mode includes:

searching at least one target intelligent home device in the target scene working mode and control information of the at least one target intelligent home device in the target scene working mode;

and generating a control instruction for controlling the corresponding at least one target intelligent household device according to the control information of the at least one target intelligent household device in the target scene working mode.

5. The smart home control system according to claim 1, wherein the user terminal is further configured to obtain linkage configuration information of the target smart home device in the current operating state from the wireless smart gateway device, so that a user reconfigures the linkage configuration information according to the linkage configuration information of the target smart home device in the current operating state.

6. The smart home control system according to claim 1, further comprising a monitoring terminal in communication connection with the cloud server, wherein the monitoring terminal is configured to acquire position information and a body signal of a monitored person in real time and send the position information and the body signal to the cloud server, and the body signal includes one or more combinations of an acceleration signal, a body temperature signal, a blood pressure signal, and a heart rate signal;

the cloud server is further used for judging whether the monitored person is dangerous according to the body signal, if so, sending an emergency instruction to the wireless intelligent gateway device according to the position information of the monitored person, and sending emergency information to the user terminal, wherein the emergency instruction comprises corresponding emergency intelligent home equipment and the position information of the monitored person;

the wireless intelligent gateway device is used for controlling the emergency intelligent home equipment to move to the current position of the monitored person according to the emergency instruction, enabling the emergency intelligent home equipment to carry out emergency operation on the monitored person, and sending prompt information of the ongoing emergency operation to the cloud server when detecting that the emergency intelligent home equipment starts the emergency operation;

the cloud server is also used for monitoring the change condition of the body signal of the monitored person after receiving the prompt message.

7. The smart home control system according to claim 6, wherein the cloud server is further configured to analyze the body signal change condition to obtain an emergency analysis report, and send the emergency analysis report to the user terminal.

8. An intelligent home control method applied to the intelligent home control system according to any one of claims 1 to 7, the method comprising:

the wireless passive intelligent switch performs wireless passive self-generation according to the triggering operation of a user to generate a corresponding control instruction and sends the control instruction to the wireless intelligent gateway equipment;

after receiving the control instruction, the wireless intelligent gateway equipment converts the control instruction into a corresponding first control signal according to the linkage configuration information and then sends the corresponding first control signal to corresponding intelligent home equipment;

the intelligent home equipment adjusts the working state based on the first control signal and uploads the state information in the working process to the wireless intelligent gateway equipment;

the wireless intelligent gateway equipment searches a control mode of the intelligent home equipment according to the linkage configuration information and the state information of the intelligent home equipment, generates a corresponding second control signal based on the control mode and then sends the second control signal to the intelligent home equipment, wherein the linkage configuration information comprises the control modes of the intelligent home equipment under different state information;

the intelligent home control system further comprises a cloud server and a user terminal which are in communication connection with the wireless intelligent gateway device, the user terminal is also in communication connection with the cloud server, a fault scheme database of each intelligent home device is stored in the cloud server, and the fault scheme database comprises fault information of the intelligent home devices and corresponding fault coping strategies;

the state information uploaded by the intelligent household equipment in the working process comprises fault information;

the wireless intelligent gateway equipment sends the fault information to the cloud server, the cloud server searches a corresponding fault coping strategy from the fault scheme database based on the fault information and sends the fault information and the fault coping strategy to the user terminal, and the user terminal displays the fault information and the fault coping strategy to a corresponding user to prompt the user to take a corresponding fault repairing measure;

when the intelligent home equipment is subjected to fault repair, sending fault repair information to the wireless intelligent gateway equipment, and forwarding the fault repair information to the user terminal through the cloud server by the wireless intelligent gateway equipment so as to prompt that the fault repair of the user is successful;

the cloud server is pre-stored with a plurality of scene working modes, and time periods and user state information corresponding to each scene working mode, wherein each scene working mode comprises at least one intelligent household device and control information of the at least one intelligent household device in the scene working mode;

the user terminal acquires gesture track information of a user in real time and sends the gesture track information to the cloud server;

the wireless intelligent gateway equipment acquires wireless signal strength change information between the wireless intelligent gateway equipment and the user terminal in real time, and sends the acquired wireless signal strength change information and corresponding acquisition time to the cloud server;

the cloud server generates corresponding user state information according to the attitude track information, the wireless signal strength change information and corresponding acquisition time, matches a corresponding target scene working mode according to the user state information, and sends the target scene working mode to the wireless intelligent gateway equipment;

and the wireless intelligent gateway equipment generates a control instruction for controlling at least one corresponding target intelligent home equipment according to the target scene working mode, and sends the corresponding control instruction to the target intelligent home equipment respectively aiming at each target intelligent home equipment.

Images