CN112015095A - Networking configuration method and device of intelligent equipment, server and storage medium - Google Patents

Abstract

The application discloses a networking configuration method, a networking configuration system, a networking configuration device, a networking configuration server and a storage medium of intelligent equipment, and relates to the technical field of intelligent equipment. The method comprises the following steps: the method comprises the steps of obtaining a house type identification and binding information corresponding to the house type identification, wherein the binding information comprises an equipment model and a networking relation of intelligent equipment required by a target installation position of a house with the house type identification, obtaining an equipment model of intelligent equipment to be networked at the target installation position, and when the equipment model of the intelligent equipment to be networked at the target installation position is the same as the equipment model of the intelligent equipment required by the target installation position, carrying out networking configuration on the intelligent equipment to be networked at the target installation position according to the networking relation. Therefore, the networking configuration can be carried out on the intelligent equipment according to the networking relationship determined during production, and the situation that when the intelligent equipment is installed, a user or related workers temporarily carry out the networking configuration on the intelligent equipment one by one is avoided.

Description

Networking configuration method and device of intelligent equipment, server and storage medium

Technical Field

The present application relates to the field of smart device technologies, and in particular, to a networking configuration method and apparatus for a smart device, a server, and a storage medium.

Background

Smart homes are products under the influence of internet development. The intelligent home is connected with various intelligent home devices (such as lighting systems, curtains, air conditioners, security systems, network home appliances and the like) and intelligent devices (such as intelligent home control panels) in the home through the Internet of things technology, and multiple functions and means such as home appliance control, lighting control, telephone remote control, indoor and outdoor remote control, anti-theft alarm, environment monitoring, heating and ventilation control and the like are provided.

However, in the smart home system, a reasonable networking scheme of the smart control device can be formed only by the user who needs to perform complicated planning on the smart device to be installed, and the mode of manually performing complicated networking planning brings great inconvenience to the user.

Disclosure of Invention

In view of the above, the present application provides a networking configuration method and apparatus for an intelligent device, a server, and a storage medium, so as to improve the above problem.

In a first aspect, an embodiment of the present application provides a method for configuring a networking of an intelligent device, where the method includes: acquiring a house type identifier and binding information corresponding to the house type identifier, wherein the binding information comprises an equipment model and a networking relation of intelligent equipment required by a target installation position of a house with the house type identifier; acquiring the equipment model of the intelligent equipment to be networked at the target installation position; and when the equipment model of the intelligent equipment to be networked at the target installation position is the same as the equipment model of the intelligent equipment required by the target installation position, carrying out networking configuration on the intelligent equipment to be networked at the target installation position according to the networking relation.

In a second aspect, an embodiment of the present application provides a networking configuration apparatus for an intelligent device, where the apparatus includes: the device comprises an information acquisition module and a networking configuration module. The information acquisition module is used for acquiring a house type identifier and binding information corresponding to the house type identifier, wherein the binding information comprises an equipment model and a networking relation of intelligent equipment required by a target installation position of a house with the house type identifier, and the equipment model of the intelligent equipment to be networked at the target installation position is acquired. And the networking configuration module is used for carrying out networking configuration on the intelligent equipment to be networked at the target installation position according to the networking relation when the equipment model of the intelligent equipment to be networked at the target installation position is the same as the equipment model of the intelligent equipment required by the target installation position.

In a third aspect, an embodiment of the present application provides a server, including: one or more processors; a memory; one or more programs, wherein the one or more programs are stored in the memory and configured to be executed by the one or more processors, the one or more programs configured to perform the methods described above.

In a fourth aspect, the present application provides a computer-readable storage medium, in which a program code is stored, and the program code can be called by a processor to execute the above method.

Compared with the prior art, the scheme that this application provided can be through acquireing house type sign and the binding information that house type sign corresponds acquires to be in target mounted position's the equipment model of the intelligent equipment of treating network deployment works as being in target mounted position's the equipment model of the intelligent equipment of treating network deployment with the equipment model of the intelligent equipment that target mounted position needs is the same, and is automatic to rely on the network deployment relation, right be in target mounted position's the intelligent equipment of treating network deployment carries out the network deployment configuration. Therefore, networking configuration can be automatically carried out on the intelligent equipment which is at the target installation position and has the same equipment model as the equipment model in the binding information through the equipment model and networking relation bound with the house type identification in advance, and inconvenience caused by complex networking planning in a subsequent installation and debugging process in a manual mode is avoided.

These and other aspects of the present application will be more readily apparent from the following description of the embodiments.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a networking configuration system of an intelligent device according to an embodiment of the present application.

Fig. 2 is a flowchart illustrating a networking configuration method for an intelligent device according to an embodiment of the present application.

Fig. 3 shows a flow diagram of sub-steps of step S130 shown in fig. 2 in an embodiment.

Fig. 4 shows another flow chart of a networking configuration method for an intelligent device according to an embodiment of the present application.

Fig. 5 is an interface diagram illustrating a networking configuration method for an intelligent device according to an embodiment of the present application.

Fig. 6 is a diagram illustrating another interface of a networking configuration method of an intelligent device according to an embodiment of the present application.

Fig. 7 shows a flow diagram of sub-steps of step S430 shown in fig. 4 in an embodiment.

Fig. 8 is a flow chart illustrating sub-steps of step S430 shown in fig. 4 in another embodiment.

Fig. 9 is a flow chart illustrating sub-steps of step S430 shown in fig. 4 in still another embodiment.

Fig. 10 is another flowchart illustrating a networking configuration method for an intelligent device according to an embodiment of the present application

Fig. 11 is a block diagram of an intelligent device networking configuration apparatus according to an embodiment of the present application.

Fig. 12 is a block diagram of a server for executing a networking configuration method of an intelligent device according to an embodiment of the present application.

Fig. 13 is a storage unit for storing or carrying program codes for implementing a path generation method according to an embodiment of the present application.

Detailed Description

In order to make the technical solutions better understood by those skilled in the art, 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.

The intelligent home system utilizes advanced computer technology, network communication technology, comprehensive wiring technology and medical electronic technology to integrate individual requirements according to the principle of human engineering, organically combines various subsystems related to home life such as security protection, light control, curtain control, gas valve control, information home appliances, scene linkage, floor heating, health care, health epidemic prevention, security protection and the like together, and realizes 'people oriented' brand new home life experience through networked comprehensive intelligent control and management.

The inventor researches and discovers that when the intelligent home system is installed at present, a user or related technical personnel needs to visit to survey the house type, and a networking scheme of the intelligent control equipment is planned, so that the whole process is very complicated.

The inventor provides a networking configuration method, a networking configuration device, a networking configuration server and a networking configuration storage medium for intelligent equipment through long-term research. According to the method, the device model of the intelligent device to be networked is obtained by obtaining the house type identification and the binding information corresponding to the house type identification, the corresponding networking relation is determined according to the device model of the intelligent device, and the networking configuration of the intelligent device is completed according to the networking relation, namely after the user completes the installation of the intelligent home system and powers on all the intelligent devices, the intelligent device can automatically complete the configuration according to the corresponding networking configuration scheme.

Referring to fig. 1, fig. 1 is a schematic structural diagram of a networking configuration system 10 of an intelligent device according to an embodiment of the present disclosure. The networking configuration system 10 of the smart device may include a server 100, a network 200, a smart device 400, and an electronic device 300. The electronic device 300 is connected to the server 100 via a network 200, where the network 200 may be a public network (also called an extranet). The electronic device 300 may be a mobile phone, tablet, or other terminal device having a function of scanning for MAC addresses.

The server 100 may transmit a scan request to the electronic device 300 through the network 200, and the electronic device 300 scans the device model of the smart device 400 according to the received scan request and transmits scan information back to the server 100 through the network 200.

Referring to fig. 2, fig. 2 is a flowchart illustrating a method for configuring a network of an intelligent device according to an embodiment of the present application, where the method may be applied to the server 100 shown in fig. 1, and steps included in the method are described below.

Step S110, acquiring a house type identifier and binding information corresponding to the house type identifier, wherein the binding information comprises an equipment model and a networking relationship of intelligent equipment required by a target installation position of a house with the house type identifier.

In the embodiment of the application, the house type identifier is a unique identifier of a set of house type, and the house type of a house can be determined according to the house type identifier.

In an embodiment, a user may send the house type information of a house to the server 100 through a terminal device or an installed smart device in the house, where the house type information may include a house type identifier of the house, and further, the server 100 may query a database for corresponding binding information according to the received house type identifier, where the server 100 or the database accessible to the server 100 may store the binding information corresponding to the house type identifier. In the case of networking configuration of the intelligent device, the server first obtains the stored binding information of the house type identifier. The binding information may include a device model and a networking relationship of the intelligent device required by a target installation location in the house corresponding to the house type identifier, where the device model may include a device type and a device identifier of the intelligent device, and the networking relationship may include a control scheme and a scene configuration scheme between the intelligent devices.

In practical application, the device identifier is an identifier for identifying the smart device, and the device identifier is a unique identity identifier of the smart device, and may be a MAC address (Media Access Control or Medium Access Control) of the smart device, or may be a unique device code of the smart device. In one embodiment, the device code is an identifiable bar code, and each device is attached with a corresponding identifiable bar code for scanning to obtain the device code. In another embodiment, the device code is a recognizable two-dimensional code, and each device is attached with a corresponding two-dimensional code for scanning to obtain the device code.

The house type identifications are the same, and the equipment types and the networking relations of the intelligent equipment required by the corresponding houses with the same house type identifications are also the same.

And step S120, acquiring the equipment model of the intelligent equipment to be networked at the target installation position.

In this embodiment, the server 100 obtains the device model of the smart device to be networked and scans the smart device through an external scanning device, for example, a user may scan the device model of the smart device to be networked through the electronic device 300 and send scanning information back to the server 100 through the electronic device 300, and correspondingly, the server 100 receives the device model of the smart device to be networked, which is returned by the electronic device 300, where the electronic device 300 is equivalent to a terminal device, and the electronic device 300 may be an electronic device corresponding to a production testing tool used by an engineer during production or batch configuration or a mobile phone with a photographing or scanning function. For example, the electronic device corresponding to the production testing tool used by the engineering staff scans the barcode or the identification code on the external package of the intelligent device to be networked, and obtains the device model of the device to be networked.

Step S130, when the equipment model of the intelligent equipment to be networked at the target installation position is the same as the equipment model of the intelligent equipment required by the target installation position, networking configuration is carried out on the intelligent equipment to be networked at the target installation position according to the networking relation.

In practical application, the electronic device returns the scanned device model with the networking smart device to the server 100, the server 100 determines whether the obtained device model is the same as the device model of the smart device required by the target installation position in the house with the house type identifier, and if so, performs networking configuration on the networking smart device according to the corresponding networking relationship.

As shown in fig. 3, in some embodiments, the specific step of performing networking configuration may include:

step S131, according to the scene configuration scheme, carrying out scene scheme configuration on the intelligent device to be networked at the target installation position.

The scene configuration scheme may include a plurality of scene modes and smart devices or room names corresponding to the scene modes. The control relationship between the smart devices may correspond to each scene mode.

The method comprises the steps of configuring intelligent devices to be networked of a target installation position according to a scene configuration scheme, namely configuring a scene mode of each intelligent device to be networked, wherein the scene modes can comprise a night mode, a morning mode, a returning-to-home mode, a living room cinema mode and the like. For example, when the smart home system is in the night mode, the air conditioning system of the bedroom can be automatically turned on, the lighting system of the bedroom is turned off, and the anti-theft mode of the access control system is turned on; when the intelligent home system is in the morning mode, the curtain system of the bedroom can be automatically opened, and the air-conditioning system of the bedroom is closed; when the intelligent home system is in a home returning mode, a lighting system of a living room can be automatically turned on, and an air conditioning system of the living room is turned on; when the intelligent home system is in a living room cinema mode, the television system in the living room can be automatically started, the brightness of a lighting system in the living room is reduced, and an air conditioning system in the living room is started.

Optionally, the intelligent device to be networked automatically configures the scenario scheme according to the received corresponding networking relationship. Illustratively, the smart device in the living room to be networked receives the corresponding scene configuration scheme from the server 100, wherein the scene configuration scheme includes a night mode and a morning mode, and correspondingly, the smart device in the living room includes the night mode and the morning mode, which is equivalent to that the smart device can receive and recognize a night mode command (including a command to turn on the night mode and a command to turn off the night mode) and a morning mode command (including a command to turn on the morning mode and a command to turn off the morning mode), and the smart device receives different mode commands, turns on different modes, sends different control commands according to the modes, and controls different types of the smart device. The intelligent equipment (including all intelligent equipment located in the bedroom and intelligent equipment located at the entrance guard) configured with the night mode scene can send an opening instruction to the bedroom air conditioning system and send a closing instruction to the bedroom lighting system when receiving a control instruction for opening the night mode. The smart devices configured with the morning mode scene (including all smart devices located in the bedroom) may send an opening command to the bedroom window curtain system and a closing command to the bedroom lighting system upon receiving a morning mode opening control command. The intelligent equipment (including the intelligent household equipment located in the living room) configured with the home returning mode scene can send a starting instruction to the lighting system of the living room and send a starting instruction to the air conditioning system of the living room when receiving the control instruction for starting the home returning mode. The intelligent device (including the intelligent device located in the living room) configured with the living room cinema mode scene can send a starting instruction to the living room television system and send a light dimming instruction to the living room lighting system when receiving a living room cinema mode control instruction.

Step S132, according to the communication mode between the intelligent devices, configuring the control relationship between the intelligent device to be networked at the target installation position and other intelligent devices in the house.

In practical application, because the wireless local area network signal coverage range of the intelligent gateway in the house is limited, wireless local area network signals of some intelligent devices far away from the intelligent gateway are weak, and situations such as intelligent device control instruction transmission delay or transmission failure may occur. Further, the user can send the control instruction to the main control device through the terminal device (such as a mobile phone, a tablet, etc.), and then the main control device sends the control instruction to other intelligent devices through a short-distance communication mode.

For example, the smart device in the living room may be the master control device, the user sends the control instruction of turning on the bedroom light to the smart device in the bedroom through the terminal device, the control instruction may be sent to the master control device by the terminal device first, the master control device is connected with the smart device in the bedroom through a short-distance communication mode, namely, the master control device may directly send the control instruction to the smart device in the bedroom through a short-distance communication mode, the smart device in the bedroom realizes turning on the bedroom light according to the control instruction, wherein the transmission of the control instruction is not affected by the strength of the wireless local area network signal of the smart device in the bedroom.

In the method provided by the above embodiment, the device model of the intelligent device to be networked at the target installation position may be obtained by obtaining the house type identifier and the binding information corresponding to the house type identifier, and when the device model of the intelligent device to be networked at the target installation position is the same as the device model of the intelligent device required by the target installation position, the intelligent device to be networked at the target installation position is automatically configured to be networked according to the networking relationship. Therefore, networking configuration can be automatically carried out on the intelligent equipment which is at the target installation position and has the same equipment model as the equipment model in the binding information through the equipment model and networking relation bound with the house type identification in advance, and inconvenience caused by complex networking planning in a subsequent installation and debugging process in a manual mode is avoided.

In the embodiment of the present application, a method for determining a networking relationship of an intelligent device in a house may be as shown in fig. 4.

And step S410, acquiring the target number of intelligent devices required by the house with the house type identifier.

In practical application, house type identifiers corresponding to houses of the same house type are the same, that is, the house structures of the houses having the same house type identifiers are the same, correspondingly, the number of rooms, the room names and the number of intelligent devices required by the houses having the same house type identifiers are the same, and only the house identifiers corresponding to each house of the same house type are different, and the house type identifiers and the house structures are the same.

Step S420, obtaining the device models of the target number of the intelligent devices.

In this embodiment, a scanning request may be initiated to the smart devices according to the target number of the smart devices to obtain device models of the target number of the smart devices, where the device models include device types and device identifiers. The target number of smart devices, that is, the number of smart devices actually required to be installed in the house with the house type identifier, the server 100 may send a scan request to the electronic device according to the obtained target number of smart devices. For example, the electronic device corresponding to the production testing tool end used by the engineering personnel receives the target number of the intelligent devices sent by the server 100, the production testing tool end displays the target number of the intelligent devices to be scanned, so as to prompt the engineering personnel to scan the intelligent devices, and the interface may be as shown in fig. 5:

the corresponding house type identification is displayed in the interface, for example: sun water bank XX local-three habitable rooms.

House identifiers may also be displayed in the interface, for example: 0101.

the target number of intelligent devices to be scanned can also be displayed in the interface, for example: 8 of the Chinese medicinal herbs.

The engineering personnel only need confirm the information that the worker measures the instrument end and show, click to confirm and can use the electronic equipment that the worker measured the instrument end and correspond to scan smart machine. After the production testing tool end successfully scans and inputs the information of the intelligent control panels with the target number, the production testing tool end can display that the scanning is finished, the engineer only needs to click to confirm to finish the scanning, the display is used for prompting the engineer that the scanning is finished, and the problems of excessive scanning or scanning omission and the like caused by manual operation are prevented, and the interface is shown in fig. 6.

And further, receiving scanning information returned by the intelligent equipment, wherein the scanning information carries the equipment types and the equipment identifications of the intelligent equipment with the target number.

In this embodiment, the device identifier of the smart device is an MAC address, that is, the MAC address corresponding to the smart device is attached to the outside of the produced smart device, and the engineer scans the MAC address attached to the outside of the smart device by using the production testing tool. And the production testing tool end scans and inputs the MAC address of each intelligent device, and sends the MAC address of each intelligent device to the server. The server receives the MAC address of each smart device and stores it in a database.

And step S430, generating the networking relation according to the equipment models of the intelligent equipment with the target quantity.

After the server 100 receives and stores the device model of each smart device included in the house, it needs to allocate the smart device with the device identifier entered therein according to the requirements of different rooms in the house, where the device identifier is the MAC address mentioned in step S420.

As shown in fig. 7, in some embodiments, the specific step of performing networking configuration may include:

step S431, determining the number of the intelligent devices required in each room.

In the present embodiment, the rooms in a house of a house type may include living rooms, kitchens, study rooms, bedrooms, toilets, balconies and the like, wherein the number of the bedrooms is generally two or more. The MAC address of the smart device entered for that house type needs to be mapped to the room name of each room.

For example, when the house is decorated uniformly, the number of rooms and the arrangement of indoor rooms corresponding to the same house type in the same cell are the same, and a specific house type identifier and a house identifier are obtained. For example, two house types of a certain cell need to be finished during delivery, wherein 2 house types are 300, 3 house types are 400, and the finishing mode of the same house type is the same, the number of intelligent devices distributed in each room is the same during configuration, the number of intelligent devices acquired by 300 house types in 2 house types is the same, the number of intelligent devices acquired by 400 house types in 3 house types is the same, but the number of intelligent devices in 2 house types is not necessarily the same as the number of intelligent devices in 3 house types.

The number of intelligent devices required for each room can be configured in advance or customized according to the needs of the user. If the user customizes, the server can obtain the customization information of the user side and establish the corresponding relation between the room names and the intelligent equipment number.

Step S432, establishing a first corresponding relationship between the room identifier of each room and the device identifier of the smart device in the room, where the first corresponding relationship is used to indicate an installation location of the smart device.

The server 100 assigns the logged smart devices to different rooms, that is, the device identifiers (MAC addresses) of the smart devices corresponding to each room name are different, that is, the installation locations of the smart devices are determined by the room names and the device identifiers (MAC addresses) of the smart devices, in which room the device identifier of the smart device is located, and correspondingly, the installation location of the smart device is the room.

Illustratively, if the entered house type is house information of a room in a certain cell 2, the house comprises a living room, a kitchen, a toilet, a balcony and two bedrooms. The rooms in which the intelligent devices are required to be installed comprise a living room, a kitchen, a toilet and two bedrooms, and one intelligent device is correspondingly installed in each room. Correspondingly, the production side tool needs to enter device identifiers (MAC addresses) of 5 smart devices, and further, the server 100 needs to establish a first correspondence between the device identifiers (MAC addresses) of the 5 smart devices and the names of 5 rooms, that is, a data item is established between a room name and the device identifiers (MAC addresses) of the smart devices in the room, for example, the data item includes the name of the room and the device identifiers (MAC addresses) of the smart devices in the room, that is, the entered room of 2 rooms in a certain cell contains 5 correspondences, which is equivalent to that the server 100 needs to establish 5 data items, and the 5 data items respectively contain the names of the living room, the kitchen, the toilet, and two bedrooms and the device identifiers (MAC addresses) of the corresponding smart devices.

After the installation position of each intelligent device in a house is determined, the communication mode between the intelligent devices needs to be determined, and the intelligent devices transmit control instructions through the communication mode.

In the application embodiment, after the user completes installation of the intelligent home system, there are several ways to control the intelligent home device through the intelligent device in the intelligent home system. In one mode, a user directly operates the intelligent equipment and clicks a key on the intelligent equipment to send the control instruction to control the intelligent household equipment; in another mode, a user can send the control instruction to an intelligent gateway in a house through a terminal device (such as a mobile phone, a tablet, a computer, and the like), the intelligent gateway forwards the control instruction to the intelligent device, and the corresponding intelligent device controls the corresponding intelligent home device according to the control instruction.

In one embodiment, a mode that a user forwards a control instruction to an intelligent device through an intelligent gateway may have a poor communication effect, if all intelligent devices in a house are directly communicated with the intelligent gateway, when the bandwidth of the intelligent gateway is limited or there are more intelligent devices accessing the intelligent gateway, congestion of the intelligent gateway may be caused. In this case, when receiving the device identifier (MAC address) of the intelligent device recorded for a specific house of a certain house type, the server 100 may determine, by combining the house type identifier of the house, that one intelligent device in the house is the master control device according to the house type information of the house, where the house type information corresponding to different house type identifiers is different, and transmit the control instruction from the terminal device through the master control device, where the specific steps are shown in fig. 8:

and step S433, presetting an installation position of the intelligent gateway, wherein the installation position is represented by a room identifier where the intelligent gateway is located.

Step S434, determining that the intelligent device located in the room where the intelligent gateway is located is a master control device.

In some embodiments, the server 100 defaults that the installation location of the smart gateway in each house type is located in the living room, and recognizes the smart home panel located in the living room as the master control device. Of course, the installation position of other rooms as the intelligent gateway can be determined according to the requirement. The main control device is used for forwarding the control instruction sent from the intelligent gateway to other intelligent devices in the house.

Step S435, determining that a second correspondence is established between the device identifier of the master control device and the communication address of the intelligent gateway.

The intelligent gateway is a control hub and a wireless route in the intelligent home system and is responsible for specific security alarm, household appliance control, power consumption information acquisition and the like. And performing data interaction with products such as the intelligent interactive terminal and the like in a wireless mode.

Optionally, the intelligent gateway may be a bluetooth gateway, and the intelligent control device is connected to the intelligent gateway through bluetooth; the intelligent gateway can also be a ZigBee (Zigbee protocol) gateway, and the intelligent control equipment is connected with the intelligent gateway through the ZigBee. The intelligent home equipment and the intelligent equipment can be accessed to the intelligent gateway to realize interconnection and communication with the external network equipment.

Optionally, the intelligent gateway may also actively search and connect the intelligent device through an infrared network, where the intelligent device is an intelligent device.

The intelligent device is controlled through the intelligent gateway, and the intelligent device needs to be configured firstly. In a general configuration mode, for each intelligent device, configuration information performed on the device needs to be input at an intelligent gateway, where the configuration information includes a device identifier (MAC address) of the intelligent device, and the intelligent gateway sequentially configures the input intelligent device. For example, when configuration is performed, the mobile terminal is connected with the intelligent gateway, and device information and related configuration information of the intelligent device to be configured are input into the mobile terminal and sent to the intelligent gateway. And the intelligent gateway searches the related intelligent equipment according to the equipment information and the related configuration information sent by the mobile terminal, configures the related intelligent equipment, performs networking with the related intelligent equipment and the like.

If the intelligent device and the intelligent gateway are installed, the user or the related staff manually configures the intelligent device and the intelligent gateway more cumbersome, so in this embodiment of the application, the server 100 establishes a second corresponding relationship between the device identifier (MAC address) of the intelligent device (i.e., the master control device) located in the living room in the house and the communication address of the intelligent gateway in advance, that is, the server 100 needs to establish a data item to record the device identifier (MAC address) of the intelligent device (i.e., the master control device) located in the living room in the house and the communication address of the intelligent gateway. Correspondingly, after the user completes the installation of the intelligent device and the intelligent gateway in the intelligent home system, the server 100 sends the second corresponding relationship to the intelligent gateway, that is, after the intelligent device and the intelligent gateway in the living room are powered on, the intelligent device in the living room requests to access the intelligent gateway, and the intelligent gateway can agree with the access of the intelligent device in the living room according to the received second corresponding relationship. The second corresponding relationship is established in advance in the server 100, so that manual configuration of the intelligent device needing to be accessed to the intelligent gateway can be avoided, and convenience is brought to a user for configuration of the intelligent device and the intelligent gateway.

Step S436, configuring the intelligent device and the master control device in the house except for the master control device to be in communication connection in the short-distance communication mode.

Optionally, the server 100 sets other intelligent devices in the house and a panel as a main control device to be in a short-distance communication mode, that is, the other intelligent devices may be connected to the main control device through communication connection modes such as bluetooth and ZigBee, and receive the control instruction transmitted by the main control device.

For example, when a user sends a control instruction for controlling a lighting system in a bedroom through a terminal device, the control instruction is sent to an intelligent gateway through a wireless local area network, the intelligent gateway sends the control instruction to an intelligent device (main control device) in a living room, the intelligent device (main control device) in the living room sends the control instruction to the intelligent device in the bedroom through a ZigBee communication mode, and the intelligent device in the bedroom can control the lighting system in the bedroom to be opened according to the received control instruction.

In another mode, when a user directly operates a certain intelligent home panel in the house, the intelligent device can directly control the corresponding intelligent home device according to the operation instruction, wherein the connection mode between the intelligent home device and the intelligent device can be realized through communication connection modes such as Bluetooth, WI-FI, ZigBee and the like, and the intelligent home device can be controlled without an intelligent gateway, in this case, the signal intensity of a wireless local area network accessing the intelligent gateway by the intelligent device is not considered, and the user can directly operate the intelligent device (for example, clicking a function control key of the intelligent device) to control the corresponding intelligent home device according to the control instruction corresponding to the function key.

In practical application, the intelligent device in the intelligent home system can directly realize the transmission of the control instruction between the intelligent device and the intelligent device through short-distance communication without transmitting the control instruction through the intelligent gateway and the main control device. For example, when a user needs to control the light system of the bedroom at the intelligent device of the toilet, the user can directly send a light control instruction to the intelligent device located in the bedroom at the intelligent device of the toilet, and the intelligent device located in the bedroom receives the light control instruction and controls the light system located in the bedroom according to the control instruction. In this embodiment, the server 100 is required to plan in advance which intelligent devices in the house can communicate in a short-range communication manner, and the specific steps are as shown in fig. 9:

step S437, obtaining the distance between the preset positions of every two rooms in the house;

the preset position in S437 may be a specific position in a room, which is designated in advance for installing the smart device, for example, may be a doorway, a bedside, a center point of the room, and the like. In implementation, for any two rooms, the server 100 may obtain preset positions of the two rooms according to the entered household type information, and calculate a distance between the preset positions of the two rooms. This spacing is actually indicative of the distance between the smart devices of the two rooms.

Step S438, if the distance is smaller than a preset threshold, determining the intelligent devices in the two rooms as a local cascade communication group;

and step S439, configuring two intelligent devices in each local cascade communication group to be in communication connection in a short-distance communication mode.

Wherein the preset threshold value can be set through tests or by experience. When the distance is smaller than the preset threshold, the distance between the two intelligent devices is small enough, and communication connection can be performed in a short-distance communication mode. In this case, the intelligent devices to be installed at the preset positions of the two rooms may be divided into one local cascade communication group, and the communication connection mode of the two intelligent devices in each local cascade communication group may be configured, where the communication connection mode is configured to be a short-range communication mode. Taking the short-range communication mode as the ZigBee communication mode as an example, the preset threshold may be 10 meters to 75 meters, that is, the preset threshold set by the server 100 is 10 meters to 75 meters.

Besides, the server 100 needs to generate different application scenario schemes for different scenarios in practical applications, that is, a scenario configuration scheme of the intelligent devices in the house, where the scenario configuration scheme is used for implementing linkage between the intelligent devices in the house under different application scenarios.

The application scenario schemes generated therein may include a return-to-home mode, a morning mode, a night mode, and a living room theater mode, etc. Correspondingly, after the home returning mode is started, the air conditioning system and the living room lighting system in the smart home system are turned on, that is, under the condition that the server 100 needs to be preset in the home returning mode, the smart device corresponding to the air conditioning system of the house sends an opening control instruction to the air conditioning system, and the smart device corresponding to the living room lighting system of the house sends an opening instruction to the living room lighting system, so that the smart device automatically opens the corresponding smart home device when the user selects the home returning mode. After the night mode is started, the lighting systems of all bedrooms are closed and the air conditioning system of the bedroom is opened, namely the server 100 needs to be preset under the condition of the night mode, the intelligent device corresponding to the air conditioning system of the bedroom of the house sends a starting control instruction to the air conditioning system, the intelligent device corresponding to the light system of the bedroom of the house sends a closing instruction to the light system of the bedroom, and therefore the intelligent device can automatically open the air conditioning system of the bedroom and close the lighting system of the bedroom under the condition that the user selects the night mode.

Step S440, adding the networking relationship to the binding information.

It can be understood that the scene configuration scheme generated in steps S410-S430 and the control scheme connected by short-distance communication between the smart devices are added to the binding information, so as to facilitate the to-be-installed smart devices to perform networking configuration according to the networking scheme in the binding information.

Referring to fig. 10, fig. 10 is another schematic flowchart of a method for configuring a networking of an intelligent device according to an embodiment of the present application, where the method may be applied to the server 100 shown in fig. 1, and steps included in the method are described below.

Step S1010, a house type identifier and binding information corresponding to the house type identifier are obtained, wherein the binding information comprises the equipment model and the networking relation of intelligent equipment required by the target installation position of a house with the house type identifier.

And step S1020, acquiring the equipment model of the intelligent equipment to be networked at the target installation position.

In this embodiment, the steps are similar to steps S110 to S120, and are not described herein again.

Step S1030, when the device model of the to-be-networked smart device at the target installation location is different from the device model of the smart device required by the target installation location, prompting that the networking configuration fails.

In practical application, when the device model of the smart device to be networked received by the server 100 is different from the device model of the smart device required by the target installation position, the server 100 does not send the configuration scheme in the corresponding networking relationship, and sends a configuration rejection instruction to the smart device to be networked.

According to the method provided by the embodiment of the application, the user type identification and the binding information corresponding to the user type identification are obtained, the equipment model of the intelligent equipment to be networked is obtained, the corresponding networking relation is determined according to the equipment model of the intelligent equipment, and the networking configuration of the intelligent equipment is completed according to the networking relation. Therefore, when the intelligent device is produced or customized in batches, the corresponding networking scheme can be generated aiming at the device identification of the intelligent device through the house type information of the target house, the intelligent device is configured according to the networking scheme when in installation and configuration, and inconvenience caused by complex networking planning in a subsequent installation and debugging process in a manual mode is avoided.

Referring to fig. 11, a block diagram of a networking configuration apparatus 1100 for an intelligent device according to an embodiment of the present application is shown. The apparatus 1100 may include: an information acquisition module 1110 and a networking configuration module 1120.

The information obtaining module 1110 is configured to obtain a house type identifier and binding information corresponding to the house type identifier, where the binding information includes an equipment model and a networking relationship of an intelligent device required by a target installation location of a house having the house type identifier, and obtain an equipment model of the intelligent device to be networked, which is located at the target installation location.

The networking configuration module 1120 is configured to perform networking configuration on the intelligent device to be networked at the target installation position according to the networking relationship when the device model of the intelligent device to be networked at the target installation position is the same as the device model of the intelligent device required by the target installation position.

Optionally, the information obtaining module 1110 may be further configured to obtain a target number of the intelligent devices required by the house with the house type identifier, and obtain the device models of the intelligent devices in the target number.

Optionally, the networking configuration module 1120 may be further configured to perform scene scheme configuration on the intelligent device to be networked at the target installation location according to the scene configuration scheme, and configure a control relationship between the intelligent device to be networked at the target installation location and the other intelligent devices in the house according to a communication manner between the intelligent devices.

Referring to fig. 12, a block diagram of a server 100 according to an embodiment of the present disclosure is shown, where the server 100 may perform a networking configuration method for an intelligent device according to an embodiment of the present disclosure.

The server 100 in the embodiment of the present application may include one or more of the following components: a processor 101, a memory 102, and one or more applications, wherein the one or more applications may be stored in the memory 102 and configured to be executed by the one or more processors 101, the one or more programs configured to perform the methods as described in the aforementioned method embodiments.

Processor 101 may include one or more processing cores. The processor 101 connects various parts within the overall server 100 using various interfaces and lines, and performs various functions of the server 100 and processes data by executing or executing instructions, programs, code sets, or instruction sets stored in the memory 102, and calling data stored in the memory 102. Alternatively, the processor 101 may be implemented in hardware using at least one of Digital Signal Processing (DSP), Field-Programmable Gate Array (FPGA), and Programmable Logic Array (PLA). The processor 101 may integrate one or more of a Central Processing Unit (CPU), a Graphics Processing Unit (GPU), a modem, and the like. Wherein, the CPU mainly processes an operating system, a user interface, an application program and the like; the GPU is used for rendering and drawing display content; the modem is used to handle wireless communications. It is understood that the modem may not be integrated into the processor 101, but may be implemented by a communication chip.

The Memory 102 may include a Random Access Memory (RAM) or a Read-Only Memory (Read-Only Memory). The memory 102 may be used to store instructions, programs, code sets, or instruction sets. The memory 102 may include a stored program area and a stored data area, wherein the stored program area may store instructions for implementing an operating system, instructions for implementing at least one function (such as a touch function, a sound playing function, an image playing function, etc.), instructions for implementing various method embodiments described below, and the like. The storage data area may also store data created by the server 100 in use (such as the various correspondences described above), and the like.

It can be clearly understood by those skilled in the art that, for convenience and brevity of description, the specific working processes of the above-described apparatuses and modules may refer to the corresponding processes in the foregoing method embodiments, and are not described herein again.

In the several embodiments provided in the present application, the coupling or direct coupling or communication connection between the modules shown or discussed may be through some interfaces, and the indirect coupling or communication connection between the devices or modules may be in an electrical, mechanical or other form.

In addition, functional modules in the embodiments of the present application may be integrated into one processing module, or each of the modules may exist alone physically, or two or more modules are integrated into one module. The integrated module can be realized in a hardware mode, and can also be realized in a software functional module mode.

Referring to fig. 13, a block diagram of a computer-readable storage medium according to an embodiment of the present application is shown. The computer-readable medium 1300 has stored therein program code that can be called by a processor to execute the method described in the above-described method embodiments.

The computer-readable storage medium 1300 may be an electronic memory such as a flash memory, an EEPROM (electrically erasable programmable read only memory), an EPROM, a hard disk, or a ROM. Optionally, the computer-readable storage medium 1300 includes a non-transitory computer-readable storage medium. The computer readable storage medium 1300 has storage space for program code 1310 for performing any of the method steps of the method described above. The program code can be read from or written to one or more computer program products. The program code 1310 may be compressed, for example, in a suitable form.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solutions of the present application, and not to limit the same; although the present application has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not necessarily depart from the spirit and scope of the corresponding technical solutions in the embodiments of the present application.

Claims (10)

1. A method for networking intelligent devices, the method comprising:

acquiring a house type identifier and binding information corresponding to the house type identifier, wherein the binding information comprises an equipment model and a networking relation of intelligent equipment required by a target installation position of a house with the house type identifier;

acquiring the equipment model of the intelligent equipment to be networked at the target installation position;

and when the equipment model of the intelligent equipment to be networked at the target installation position is the same as the equipment model of the intelligent equipment required by the target installation position, carrying out networking configuration on the intelligent equipment to be networked at the target installation position according to the networking relation.

2. The method of claim 1, wherein before the obtaining the subscriber identity and the binding information corresponding to the subscriber identity, the method further comprises:

acquiring the target number of intelligent devices required by the house with the house type identifier;

acquiring the equipment models of the intelligent equipment with the target quantity;

generating the networking relation according to the equipment models of the intelligent equipment with the target quantity;

and adding the networking relationship to the binding information.

3. The method of claim 2, wherein generating the networking relationship according to the device models of the target number of smart devices comprises:

and determining a communication mode between the intelligent devices, wherein the intelligent devices realize the transmission of control instructions through the communication mode.

4. The method of claim 3, wherein the determining the manner of communication between the smart devices comprises:

acquiring the distance between the preset positions of every two rooms in the house;

if the distance is smaller than a preset threshold value, determining the intelligent devices in the two rooms as a local cascade communication group;

configuring two intelligent devices in each local cascade communication group to be in communication connection in a short-distance communication mode.

5. The method of claim 2, wherein the generating the networking relationship according to the device models of the target number of smart devices further comprises:

and generating a scene configuration scheme of the intelligent equipment in the house, wherein the scene configuration scheme is used for realizing linkage between the intelligent equipment in the house under different application scenes.

6. The method according to claim 5, wherein the configuring, according to the networking relationship, the to-be-networked smart device at the target installation location includes:

according to the scene configuration scheme, carrying out scene scheme configuration on the intelligent equipment to be networked at the target installation position;

and configuring the control relationship between the intelligent equipment to be networked at the target installation position and other intelligent equipment in the house according to the communication mode between the intelligent equipment.

7. The method of claim 1, further comprising:

and when the equipment model of the intelligent equipment to be networked at the target installation position is different from the equipment model of the intelligent equipment required by the target installation position, prompting that the networking configuration is failed.

8. A networking configuration device of an intelligent device, the device comprising:

the system comprises an information acquisition module, a network management module and a network management module, wherein the information acquisition module is used for acquiring a house type identifier and binding information corresponding to the house type identifier, the binding information comprises an equipment model and a networking relation of intelligent equipment required by a target installation position of a house with the house type identifier, and the equipment model of the intelligent equipment to be networked at the target installation position is acquired;

and the networking configuration module is used for carrying out networking configuration on the intelligent equipment to be networked at the target installation position according to the networking relation when the equipment model of the intelligent equipment to be networked at the target installation position is the same as the equipment model of the intelligent equipment required by the target installation position.

9. A server, comprising:

one or more processors;

a memory;

one or more programs, wherein the one or more programs are stored in the memory and configured to be executed by the one or more processors, the one or more programs configured to perform the method of any of claims 1-7.

10. A computer-readable storage medium, characterized in that a program code is stored in the computer-readable storage medium, which program code can be called by a processor to perform the method according to any of claims 1-7.

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