CN114374604B - Offline mode intelligent home configuration method, storage medium and system - Google Patents

Abstract

The invention discloses an intelligent home configuration method, a storage medium and a system in an offline mode, which relate to the field of intelligent home, wherein a construction template is edited at a cloud server by adding house information, equipment information and configuration data to generate a construction task; the constructor receives the construction task through the intelligent mobile terminal, uploads the product serial number of the intelligent home to the cloud server, and associates house information; and after the intelligent mobile terminal is in communication connection with the gateway, configuration data are acquired from the cloud server, and the gateway configuration and the sub-equipment networking are completed. Therefore, the invention can finish the construction operations such as room generation, intelligent home addition, scene configuration and the like in a complex environment without a network, and forms quick and batched construction. In addition, the construction tasks are pushed differently through the pushing formula according to the distribution conditions of constructors and construction tasks within a certain range, so that the construction tasks are distributed reasonably, constructors are better scheduled, the construction efficiency is improved, and the construction quality is guaranteed.

Description

Offline mode intelligent home configuration method, storage medium and system

Technical Field

The invention relates to the field of intelligent home, in particular to an intelligent home configuration method, storage medium and system in an offline mode.

Background

At present, when intelligent products of customers in the front market, the property industry and other industries are constructed in batches, the following difficulties exist: (1) The construction is often faced with environments without external networks or with extremely poor network conditions. (2) When intelligent products are delivered in a concentrated mode, the intelligent products are faced with the problems of large number of rooms, various types of rooms and many pain points of equipment, abundant scenes and automation are required to be edited, time and energy are consumed, and the overall construction efficiency is low. (3) The intelligent products are various, a certain technical basis is needed for installation and debugging, and the requirements for debugging personnel are high, so that the centralized education, training and debugging personnel are needed in the early stage, and in the later stage, in order to ensure the construction quality, a plurality of grades of acceptance criteria are also needed to be set, so that time and labor are consumed. Therefore, in the process of landing the intelligent household items at present, the situations of no external network, multiple devices, multiple rooms, multiple technical requirements and the like are frequently met. Therefore, it is necessary to develop an intelligent home configuration method for complex and changeable construction environments.

Disclosure of Invention

The invention provides an intelligent home configuration method, a storage medium and a system in an offline mode, and aims to solve the problems in the prior art.

The invention adopts the following technical scheme:

an intelligent home configuration method in an offline mode comprises the following steps:

creating at least one construction template through a cloud server, and editing the construction template through adding house information, equipment information and configuration data to generate a corresponding construction task;

step two, the cloud service end is in communication connection with the intelligent mobile terminal, and the intelligent mobile terminal selects and receives construction tasks by using house information;

uploading the product serial numbers of all intelligent households to a cloud service end through an intelligent mobile terminal, and associating the product serial numbers of all intelligent households with house information of the construction task;

step four, after all intelligent households under the construction task are associated, acquiring configuration data from a cloud server through an intelligent mobile terminal;

and fifthly, electrifying all intelligent households, and after the intelligent mobile terminal is in communication connection with the gateway in the intelligent household through the AP mode, transmitting configuration data to the sub-equipment through the gateway through the intelligent mobile terminal, so as to complete gateway configuration and sub-equipment networking.

Further, the method also comprises the following steps:

step six, debugging the intelligent home through the intelligent mobile terminal, and synchronously feeding back to the cloud server;

and step seven, confirming that debugging is completed through the intelligent mobile terminal, and removing the construction task after checking and accepting the construction task through the cloud server.

Preferably, the gateway is a Zigbee gateway or a bluetooth gateway.

Further, the configuration data comprises scene configuration data and/or equipment configuration data, the construction template is provided with a scene configuration template, and the scene configuration template determines configuration information according to the scene configuration data and the equipment configuration data.

Preferably, in the third step, the intelligent mobile terminal obtains the product serial number through code scanning.

In the first step, the house information, the device information and the scene configuration data are respectively stored in a house information database, a device information database and a scene configuration database of the cloud server.

Further, between the second step and the third step, the cloud service end pushes the construction task to the intelligent mobile terminal according to the distribution condition of constructors and the distribution condition of the construction task.

As a specific embodiment, the pushing method includes:

(1) The method comprises the steps of obtaining current position parameters of constructors in a radius R area, the number of unfinished construction tasks, comprehensive scoring parameters and construction average duration parameters by taking the position where a construction task to be accepted is located as a circle center, and determining distribution characteristics X of the constructors:

;

n represents the total number of intelligent mobile terminals in a radius R area by taking the position of a house where a current construction task to be received is located as a circle center; ai represents the current position parameter of the ith intelligent mobile terminal, bi represents the unique identifier of the ith intelligent mobile terminal; ci represents comprehensive scoring parameters of constructors who log in the ith intelligent mobile terminal; ei represents a unique identifier of a constructor who logs in the ith intelligent mobile terminal; di represents the number of construction tasks currently connected and not completed by the ith intelligent mobile terminal, and Ti represents the average duration parameter of a constructor logged in the ith intelligent mobile terminal for completing a single construction task; λ1, λ2, λ3 represent weight parameters, and λ1+λ2+λ3=1;

(2) The method comprises the steps of obtaining the position of a house where a construction task to be accepted is located, the construction difficulty and the number of the construction tasks to be accepted, and determining the distribution characteristic Y of the construction tasks to be accepted:

；

m represents the total number of construction tasks to be accepted in a radius R area by taking the position of a house where the current construction task to be accepted is located as a circle center; aj represents the house position parameter of the j-th construction task; bj represents the house unique identifier of the j-th construction task; cj represents a construction difficulty degree parameter of a j-th construction task; tj represents a construction period parameter of a construction task of the j-th construction task; λ4, λ5, λ6 represent weight parameters, and λ4+λ5+λ6=1;

(3) The cloud service end carries out differential pushing of construction tasks according to the following pushing formula:

；

wherein Gi, j represents the linear distance between the ith intelligent mobile terminal and the house of the jth construction task;

if Z is more than or equal to 0.9, the cloud service end pushes the j-th construction task to the i-th intelligent mobile terminal; if Z is less than 0.9, the cloud server does not push the j-th construction task to the i-th intelligent mobile terminal.

The system using the intelligent home construction configuration method comprises a cloud service end, an intelligent mobile terminal and an intelligent home, wherein the cloud service end is used for creating a construction template, editing the construction template according to house information, equipment information and configuration data and generating a construction task; the intelligent mobile terminal is used for acquiring a product serial number of the intelligent home, uploading the product serial number to the cloud service end, binding the product serial number with house information of a construction task, and receiving configuration data; the intelligent home comprises a gateway and sub-equipment, wherein the gateway is in communication connection with the intelligent mobile terminal and is used for acquiring configuration data and completing gateway configuration and sub-equipment networking.

From the above description of the structure of the present invention, the present invention has the following advantages:

the cloud service terminal management platform and the intelligent mobile terminal operation APP are mainly included, and can help constructors to complete a series of deployment operations such as room generation, intelligent home addition and scene configuration under the condition of no network and complex environment on site, so that rapid and batched construction capacity is formed. The invention adopts the special construction templates for batch construction, the constructors can simply operate according to the construction templates, the technical requirements on the constructors are obviously reduced, and the cost of training constructors of enterprises is saved.

Secondly, according to the construction task to be distributed and the distribution condition of the construction task within a certain range, the construction task to be distributed is differentially pushed to all intelligent mobile devices of the specific construction personnel through the specific pushing formula, the construction task is reasonably distributed, the construction personnel are better scheduled, the construction efficiency is improved, and the construction quality is guaranteed.

Drawings

Fig. 1 is a schematic flow chart of an embodiment of a smart home construction configuration method in the present invention.

Fig. 2 is a schematic flow chart of an embodiment of a smart home construction configuration method in the present invention.

Fig. 3 is a schematic diagram of an operation interface of adding house information in a construction template by a cloud service end in the present invention.

Fig. 4 is a schematic diagram of an operation interface of the cloud service end after the house information is added to the construction template in the present invention.

Fig. 5 is a schematic diagram of an operation interface of adding equipment information in a construction template by a cloud service end in the present invention.

Fig. 6 is a schematic diagram of an operation interface of adding scene configuration data to a construction template by a cloud server in the present invention.

Fig. 7 is a schematic diagram of an operation interface for selecting a construction task by the intelligent mobile terminal in the present invention.

Fig. 8 is a schematic diagram of an operation interface for selecting a construction task by the intelligent mobile terminal in the present invention.

Fig. 9 is a schematic diagram of an operation interface for selecting a construction task by the intelligent mobile terminal in the present invention.

Fig. 10 is a schematic diagram of an operation interface for selecting a construction task by the intelligent mobile terminal in the present invention.

Fig. 11 is a schematic diagram of an operation interface for selecting a construction task by the intelligent mobile terminal in the present invention.

Fig. 12 is a schematic diagram of an operation interface of an intelligent mobile terminal for selecting an intelligent home according to the present invention.

Detailed Description

Specific embodiments of the present invention will be described below with reference to the accompanying drawings.

Example 1

As shown in fig. 1, an offline mode smart home configuration method includes the following steps:

creating at least one construction template through a cloud server, editing the construction template by adding house information, equipment information and configuration data, and generating a corresponding construction task after the construction template is edited; as shown in fig. 3-6, the configuration data includes scene configuration data and/or device configuration data. The construction template is provided with a scene configuration template, and the scene configuration template determines configuration information according to scene configuration data and equipment configuration data. Specifically, a manager creates a construction template at a cloud service end, determines the position and the house type of a house by adding house information (such as the name of a cell to which the house belongs, a building number, a unit number, a house number, house type data and the like), determines which intelligent houses are installed in which rooms and even which positions of the rooms are provided with intelligent houses by adding equipment information (such as the name of gateway type intelligent houses, the names of sub-equipment type intelligent houses, installation positions, the number and the like) to each room by a management room equipment module, and determines which intelligent houses are built by linkage of a plurality of intelligent houses by adding configuration data (such as the scene configuration data including a home returning mode, a home leaving mode, a timing mode, a linkage scene and the like) by a management scene module. The house information, the equipment information and the configuration data are respectively stored in a house information database, an equipment information database and a scene configuration database of the cloud server, and are called from corresponding databases when the construction template is edited.

And secondly, releasing construction tasks through the cloud server, and pushing the construction tasks to all intelligent mobile terminals without difference.

Thirdly, the communication connection cloud server communicates with the intelligent mobile terminal to receive the communication connection cloud server, and the intelligent mobile terminal selects and receives construction tasks by using house information;

as shown in fig. 7 to 11, an APP installed at an intelligent mobile terminal displays a plurality of construction tasks in a multi-level drop-down menu formed by a cell name-a zone name-a building number-a unit number-a house number, and selects and accepts one of the construction tasks on the intelligent mobile terminal APP in a stepwise selected manner.

Uploading the product serial numbers of all intelligent households to a cloud service end through an intelligent mobile terminal, and associating the product serial numbers of all intelligent households with house information of construction tasks;

as shown in fig. 12, after the intelligent mobile terminal APP selects and enters a construction task, each room enumerates the smart home options to be bound with the product serial numbers, after the smart mobile terminal APP selects, the product serial numbers of the smart home are added in a code scanning manner and uploaded to a cloud service end by the smart mobile terminal, and the cloud service end associates the product serial numbers with the corresponding smart home options (i.e., associates the product serial numbers of the smart home with house information of the construction task). Of course, it is not excluded to add and bind the product serial numbers of the respective smart home by other existing means such as manual input.

Step five, after all intelligent households under the construction task are associated, acquiring configuration data from a cloud server through an intelligent mobile terminal;

after all the product serial numbers of the intelligent home under one construction task are uploaded and bound, the cloud service end sends configuration data to the intelligent mobile terminal APP for subsequent use.

Step six, electrifying all intelligent home, and after the intelligent mobile terminal is in communication connection with a gateway in the intelligent home through an AP mode (AP is Wireless Access Point, wireless access point), transmitting configuration data to the sub-equipment through the gateway through the intelligent mobile terminal, so as to complete gateway configuration and sub-equipment networking;

after all the home only can be electrified, the gateway is connected with the intelligent mobile terminal through AP mode communication, and the intelligent mobile terminal APP sends configuration data to the gateway through a manual or automatic mode to carry out gateway configuration and sub-equipment networking. Wherein the gateway includes, but is not limited to, a Zigbee gateway or a bluetooth gateway.

Step seven, debugging the intelligent home through the intelligent mobile terminal, and synchronously feeding back to the cloud server;

after all intelligent home configurations are completed, the intelligent home configurations are debugged through the intelligent mobile terminal APP, and meanwhile, the intelligent mobile terminal APP synchronously uploads debugging results to the cloud server in real time.

And step eight, confirming that debugging is completed through the intelligent mobile terminal, and removing the construction task after checking and accepting the construction task through the cloud server.

After a debugging completion instruction is input through the intelligent mobile terminal APP, the debugging completion instruction is synchronously uploaded to the cloud server; after a construction task acceptance instruction is input through the cloud server, the cloud server cancels the authorization of the intelligent mobile terminal APP to access the construction task, and the construction task is automatically removed after a certain time.

Example two

As shown in fig. 2, an offline mode smart home configuration method includes the following steps:

step one, a manager creates at least one construction template at a cloud server, edits the construction template by adding house information, equipment information and configuration data, and generates a corresponding construction task after the construction template is edited;

as shown in fig. 3-6, the configuration data includes scene configuration data and/or device configuration data. The construction template is provided with a scene configuration template, and the scene configuration template determines configuration information according to scene configuration data and equipment configuration data. Specifically, a manager creates a construction template at a cloud service end, determines the position and the house type of a house by adding house information (such as the name of a cell to which the house belongs, a building number, a unit number, a house number, house type data and the like), determines which intelligent houses are installed in which rooms and even which positions of the rooms are provided with intelligent houses by adding equipment information (such as the name of gateway type intelligent houses, the names of sub-equipment type intelligent houses, installation positions, the number and the like) to each room by a management room equipment module, and determines which intelligent houses are built by linkage of a plurality of intelligent houses by adding configuration data (such as the scene configuration data including a home returning mode, a home leaving mode, a timing mode, a linkage scene and the like) by a management scene module. The house information, the equipment information and the configuration data are respectively stored in a house information database, an equipment information database and a scene configuration database of the cloud server, and are called from corresponding databases when the construction template is edited.

Step two, the cloud service end pushes the construction task to the intelligent mobile terminal according to the distribution condition of constructors and the distribution condition of construction tasks;

specifically, the specific pushing method comprises the following steps:

(1) The method comprises the steps of obtaining current position parameters of constructors in a radius R area, the number of unfinished construction tasks, comprehensive scoring parameters and construction average duration parameters by taking the position where a construction task to be accepted is located as a circle center, and determining distribution characteristics X of the constructors:

;

n represents the total number of intelligent mobile terminals in a radius R area by taking the current position of a house to be subjected to construction tasks as a circle center, and the total number is obtained by a cloud server according to the positioning information uploaded by each intelligent mobile terminal; ai represents the current position parameter of the ith intelligent mobile terminal, is obtained in real time by a positioning module of the intelligent mobile terminal and is uploaded to a cloud server; bi represents the unique identifier of the ith intelligent mobile terminal, which can be a product serial number or other unique identification numbers of the intelligent mobile terminal, and is stored in a cloud server; ci represents comprehensive scoring parameters of constructors who log in the ith intelligent mobile terminal, and a comprehensive scoring system of the cloud server comprehensively considers and gives comprehensive scores from various aspects such as the past business completion amount of constructors, customer satisfaction, average time length for completing construction tasks and the like, and stores the comprehensive scoring parameters in a cloud server; ei represents the unique identifier of the constructor who logs in the ith intelligent mobile terminal, which can be the unique identifier of the constructor, and the unique identifier is stored in a cloud server; di represents the number of construction tasks currently connected and not completed by the ith intelligent mobile terminal, and Ti represents the average duration parameter of a constructor logged in the ith intelligent mobile terminal for completing a single construction task; λ1, λ2, λ3 represent weight parameters, are parameter constants, and λ1+λ2+λ3=1.

(2) The method comprises the steps of obtaining the position of a house where a construction task to be accepted is located, the construction difficulty and the number of the construction tasks to be accepted, and determining the distribution characteristic Y of the construction tasks to be accepted:

；

m represents the total number of construction tasks to be accepted in a radius R area by taking the position of a house where the current construction task to be accepted is located as a circle center, and the total number of construction tasks to be accepted is obtained by statistics of the cloud server; aj represents the house position parameter of the j-th construction task, and the house information in the construction task to be accepted is obtained through statistics by the cloud server; bj represents a house unique identifier of the j-th construction task, and is obtained by carrying out unique identification coding by the cloud server according to house information in the construction task to be accepted; cj represents the construction difficulty degree parameter of the j-th construction task, and the construction difficulty degree parameter is comprehensively considered from the aspects of the number of intelligent households, the number of scenes, the complexity of the scenes and the like by a construction difficulty degree scoring system of the cloud server and is stored in the cloud server; tj represents a construction period parameter of a construction task of the j-th construction task, and is set by an administrator and stored in the cloud server; λ4, λ5, λ6 represent weight parameters, are parameter constants, and λ4+λ5+λ6=1.

(3) The cloud service end carries out differential pushing of construction tasks according to the following pushing formula:

；

the method comprises the steps that Gi, j represents the linear distance between an ith intelligent mobile terminal and a house of a jth construction task, and the linear distance is obtained by a cloud server through calculation according to the current position parameter of the ith intelligent mobile terminal and the position parameter of the house of the jth construction task, and is stored in the cloud server;

if Z is more than or equal to 0.9, the cloud service end pushes the j-th construction task to the i-th intelligent mobile terminal; if Z is less than 0.9, the cloud server does not push the j-th construction task to the i-th intelligent mobile terminal.

Thirdly, the communication connection cloud server communicates with the intelligent mobile terminal to receive the information, and constructors select and receive construction tasks on the intelligent mobile terminal by utilizing house information;

as shown in fig. 7 to 11, the APP installed at the intelligent mobile terminal displays a plurality of construction tasks in a multi-level drop-down menu formed by a cell name-a zone name-a building number-a unit number-a house number, and a constructor selects and accepts one of the construction tasks on the intelligent mobile terminal APP in a stepwise selected manner.

Step four, constructors upload the product serial numbers of all intelligent households to a cloud service end through the intelligent mobile terminal, and associate the product serial numbers of all intelligent households with house information of construction tasks;

as shown in fig. 12, after the intelligent mobile terminal APP selects and enters a construction task, each room enumerates the smart home options to be bound with the product serial numbers, after the selection, the product serial numbers of all smart home are added by a code scanning mode and uploaded to the cloud service end by the intelligent mobile terminal, and the cloud service end associates the product serial numbers with the corresponding smart home options (namely, associating the product serial numbers of the smart home with house information of the construction task). Of course, it is not excluded to add and bind the product serial numbers of the respective smart home by other existing means such as manual input.

Step five, after all intelligent households under the construction task are associated, constructors acquire configuration data from the cloud server through the intelligent mobile terminal;

after all the product serial numbers of the intelligent home under one construction task are uploaded and bound, the cloud service end sends configuration data to the intelligent mobile terminal APP for subsequent use.

Step six, electrifying all intelligent home, and after the intelligent mobile terminal is in communication connection with a gateway in the intelligent home through an AP mode (AP is Wireless Access Point, wireless access point), sending configuration data to the sub-equipment through the gateway by constructors through the intelligent mobile terminal, so as to complete gateway configuration and sub-equipment networking;

after all the home only can be electrified, the gateway is connected with the intelligent mobile terminal through AP mode communication, and the intelligent mobile terminal APP sends configuration data to the gateway through a manual or automatic mode to carry out gateway configuration and sub-equipment networking. Wherein the gateway includes, but is not limited to, a Zigbee gateway or a bluetooth gateway.

Step seven, the constructor debugs the intelligent home through the intelligent mobile terminal and synchronously feeds back the intelligent home to the cloud server;

after all intelligent home configurations are completed, the intelligent home configuration is debugged by constructors through the intelligent mobile terminal APP, and meanwhile, the intelligent mobile terminal APP synchronously uploads debugging results to the cloud server in real time.

And step eight, the constructor confirms that the debugging is finished through the intelligent mobile terminal, and the manager removes the construction task after checking and accepting the construction task through the cloud server.

After constructors input debugging completion instructions through the intelligent mobile terminal APP, synchronously uploading the debugging completion instructions to the cloud server; after the manager inputs a construction task acceptance instruction through the cloud server, the cloud server cancels the authorization of the intelligent mobile terminal APP to access the construction task and automatically removes the construction task after a certain time.

In another embodiment, a system using the smart home construction configuration method described in any one of the above is provided, and mainly includes a cloud server, a smart mobile terminal, and a smart home.

The cloud server is used for creating a construction template, editing the construction template according to house information, equipment information and configuration data, and generating a construction task.

The intelligent mobile terminal is used for acquiring a product serial number of the intelligent home, uploading the product serial number to the cloud server and binding house information of a construction task, and receiving configuration data.

The intelligent home comprises a gateway and sub-equipment, wherein the gateway is in communication connection with the intelligent mobile terminal and is used for acquiring configuration data and completing gateway configuration and sub-equipment networking.

The foregoing is merely illustrative of specific embodiments of the present invention, but the design concept of the present invention is not limited thereto, and any insubstantial modification of the present invention by using the design concept shall fall within the scope of the present invention.

Claims (8)

1. An intelligent home configuration method in an offline mode is characterized by comprising the following steps:

creating at least one construction template through a cloud server, and editing the construction template through adding house information, equipment information and configuration data to generate a corresponding construction task;

establishing communication connection between the cloud server and the intelligent mobile terminal, and selecting and receiving a construction task by using house information in the intelligent mobile terminal;

uploading the product serial numbers of all intelligent households to a cloud service end through an intelligent mobile terminal, and associating the product serial numbers of all intelligent households with house information of the construction task;

step four, after all intelligent households under the construction task are associated, acquiring configuration data from a cloud server through an intelligent mobile terminal;

step five, electrifying the intelligent home, and after the intelligent mobile terminal is in communication connection with a gateway in the intelligent home through an AP mode, transmitting configuration data to the sub-equipment through the gateway by the intelligent mobile terminal to complete gateway configuration and sub-equipment networking;

and between the second step and the third step, the cloud service end pushes the construction task to the intelligent mobile terminal according to the distribution condition of constructors and the distribution condition of the construction task as follows:

(1) The method comprises the steps of obtaining current position parameters of constructors in a radius R area, the number of unfinished construction tasks, comprehensive scoring parameters and construction average duration parameters by taking the position where a construction task to be accepted is located as a circle center, and determining distribution characteristics X of the constructors:

;

n represents the total number of intelligent mobile terminals in a radius R area by taking the position of a house where a current construction task to be received is located as a circle center; ai represents the current position parameter of the ith intelligent mobile terminal, bi represents the unique identifier of the ith intelligent mobile terminal; ci represents comprehensive scoring parameters of constructors who log in the ith intelligent mobile terminal; ei represents a unique identifier of a constructor who logs in the ith intelligent mobile terminal; di represents the number of construction tasks currently connected and not completed by the ith intelligent mobile terminal, and Ti represents the average duration parameter of a constructor logged in the ith intelligent mobile terminal for completing a single construction task; λ1, λ2, λ3 represent weight parameters, and λ1+λ2+λ3=1;

(2) The method comprises the steps of obtaining the position of a house where a construction task to be accepted is located, the construction difficulty and the number of the construction tasks to be accepted, and determining the distribution characteristic Y of the construction tasks to be accepted:

；

m represents the total number of construction tasks to be accepted in a radius R area by taking the position of a house where the current construction task to be accepted is located as a circle center; aj represents the house position parameter of the j-th construction task; bj represents the house unique identifier of the j-th construction task; cj represents a construction difficulty degree parameter of a j-th construction task; tj represents a construction period parameter of a construction task of the j-th construction task; λ4, λ5, λ6 represent weight parameters, and λ4+λ5+λ6=1;

(3) The cloud service end carries out differential pushing of construction tasks according to the following pushing formula:

；

wherein Gi, j represents the linear distance between the ith intelligent mobile terminal and the house of the jth construction task;

if Z is more than or equal to 0.9, the cloud service end pushes the j-th construction task to the i-th intelligent mobile terminal; if Z is less than 0.9, the cloud server does not push the j-th construction task to the i-th intelligent mobile terminal.

2. The method for configuring an intelligent home in an offline mode according to claim 1, further comprising the steps of:

step six, debugging the intelligent home through the intelligent mobile terminal, and synchronously feeding back to the cloud server;

and step seven, confirming that debugging is completed through the intelligent mobile terminal, and removing the construction task after checking and accepting the construction task through the cloud server.

3. The method for configuring an intelligent home in an offline mode according to claim 1, wherein: the gateway is a Zigbee gateway or a Bluetooth gateway.

4. The method for configuring an intelligent home in an offline mode according to claim 1, wherein: the configuration data comprise scene configuration data and/or equipment configuration data, the construction template is provided with a scene configuration template, and the scene configuration template determines configuration information according to the scene configuration data and the equipment configuration data.

5. The method for configuring an intelligent home in an offline mode according to claim 1, wherein: in the third step, the intelligent mobile terminal obtains the product serial number through code scanning.

6. The method for configuring an intelligent home in an offline mode according to claim 1, wherein: in the first step, the house information, the equipment information and the scene configuration data are respectively stored in a house information database, an equipment information database and a scene configuration database of the cloud server.

7. A computer readable storage medium having stored thereon a computer program, characterized in that the computer program when executed by a processor implements the steps of the smart home configuration method in an offline mode according to any of claims 1-6.

8. A system using the smart home configuration method of the offline mode according to any one of claims 1 to 6, characterized in that: comprises a cloud service end, an intelligent mobile terminal and an intelligent home,

the cloud server is used for creating a construction template, editing the construction template according to house information, equipment information and configuration data, and generating a construction task;

the intelligent mobile terminal is used for acquiring a product serial number of the intelligent home, uploading the product serial number to the cloud service end, binding the product serial number with house information of a construction task, and receiving configuration data;

the intelligent home comprises a gateway and sub-equipment, wherein the gateway is in communication connection with the intelligent mobile terminal and is used for acquiring configuration data and completing gateway configuration and sub-equipment networking.

Images