CN114501361A - Network distribution method, user setting method, server, control terminal and storage medium - Google Patents

Abstract

The embodiment of the disclosure provides a network distribution method, a user setting method, a server, a control terminal and a storage medium. The method comprises the following steps: the method comprises the steps that a distribution network request sent by a control terminal is obtained, the distribution network request is used for requesting to connect equipment to be distributed to a target network connected with the control terminal, and the distribution network request at least comprises unique equipment information for uniquely identifying the equipment to be distributed and user information bound by the control terminal; according to the unique equipment information, determining order information of the equipment to be networked, and determining user information mapped by the order information; performing user verification based on the user information bound by the control terminal and the user information mapped by the order information; and if the user passes the verification, the control terminal is informed to connect the equipment to be distributed to the target network. The distribution network of the network equipment to be distributed can be conveniently and efficiently realized.

Description

Network distribution method, user setting method, server, control terminal and storage medium

Technical Field

The embodiment of the disclosure relates to the technical field of internet of things, in particular to a network distribution method, a user setting method, a server, a control terminal and a storage medium.

Background

With the development of the internet of things technology, connecting household electronic equipment, office electronic equipment and even industrial electronic equipment through the internet of things technology has become more and more popular. The electronic equipment is connected through the Internet of things technology, so that a user can control the connected electronic equipment through a main control terminal (such as an intelligent sound box, a central control screen and the like), and the user can use and manage the electronic equipment conveniently.

The control terminal and the controlled electronic equipment are in the same network, which is the premise that the control terminal controls the electronic equipment, and the network distribution process of the electronic equipment is involved; the network distribution process may be considered a process of determining a network to which the electronic device is to access and causing the electronic device to access the network. Therefore, how to conveniently and efficiently realize the network distribution of the to-be-distributed network equipment for the electronic equipment (to-be-distributed network equipment for short) of the to-be-distributed network becomes a technical problem which needs to be solved by technical personnel in the field.

Disclosure of Invention

In view of this, the embodiments of the present disclosure provide a network distribution method, a user setting method, a server, a control terminal, and a storage medium, which can conveniently and efficiently implement a network distribution of devices to be distributed.

In order to achieve the above object, the embodiments of the present disclosure provide the following technical solutions.

In a first aspect, an embodiment of the present disclosure provides a network distribution method, including:

the method comprises the steps that a distribution network request sent by a control terminal is obtained, the distribution network request is used for requesting to connect equipment to be distributed to a target network connected with the control terminal, and the distribution network request at least comprises unique equipment information for uniquely identifying the equipment to be distributed and user information bound by the control terminal;

according to the unique equipment information, determining order information of the equipment to be networked, and determining user information mapped by the order information;

performing user verification based on the user information bound by the control terminal and the user information mapped by the order information;

and if the user passes the verification, the control terminal is informed to connect the equipment to be distributed to the target network. .

In a second aspect, an embodiment of the present disclosure provides a network distribution method, including:

scanning equipment to be distributed to obtain unique equipment information which uniquely identifies the equipment to be distributed;

generating a distribution network request at least based on the unique equipment information and user information bound by the control terminal, wherein the distribution network request is used for requesting to connect equipment to be distributed to a target network connected with the control terminal;

transmitting the distribution network request to a server;

acquiring information which is sent by a server and passes user verification, responding to the information, and connecting equipment to be networked to a target network; the server carries out user verification based on the user information bound by the control terminal and the user information mapped by the order information of the equipment to be distributed, and the order information is determined according to the unique equipment information.

In a third aspect, an embodiment of the present disclosure provides a user setting method, including:

displaying a first page, wherein the first page displays order information of equipment to be networked purchased by a user;

determining an associated user set by the user through the first page so that the order information is mapped with the user information of the user and the user information of the associated user; and when the user information bound by the control terminal of the equipment to be distributed is scanned and is consistent with the user information mapped by the order information, the equipment to be distributed is connected to a target network connected with the control terminal.

In a fourth aspect, an embodiment of the present disclosure provides a server, including at least one memory and at least one processor, where the memory stores one or more computer-executable instructions, and the processor invokes the one or more computer-executable instructions to perform the network distribution method according to the first aspect.

In a fifth aspect, an embodiment of the present disclosure provides a control terminal, including: at least one memory storing one or more computer-executable instructions and at least one processor invoking the one or more computer-executable instructions to perform the network distribution method as described above in the second aspect.

In a sixth aspect, embodiments of the present disclosure provide a storage medium storing one or more computer-executable instructions; the one or more computer-executable instructions, when executed, implement a network distribution method as described in the first or second aspect above, or a user setup method as described in the third aspect.

In a seventh aspect, an embodiment of the present disclosure provides a computer program, where the computer program is executed to implement the network distribution method according to the first aspect or the second aspect, or the user setting method according to the third aspect.

The network distribution method provided by the embodiment of the disclosure obtains a network distribution request sent by a control terminal, wherein the network distribution request is used for requesting to connect a device to be distributed to a target network connected with the control terminal, and the network distribution request at least comprises unique device information for uniquely identifying the device to be distributed and user information bound by the control terminal; according to the unique equipment information, determining order information of the equipment to be networked, and determining user information mapped by the order information; performing user verification based on the user information bound by the control terminal and the user information mapped by the order information; and if the user passes the verification, informing the control terminal to connect the equipment to be networked to the target network. It can be seen that in the embodiment of the present disclosure, under the condition that the user basically does not participate, the server determines the user information mapped by the order information of the device to be networked, starting from the unique device information of the device to be networked, which is carried by the network distribution request, based on the relationship between the unique device information, the order information, and the user information mapped by the order information; and then, user authentication is carried out on the basis of user information mapped by the order information and user information bound with a control terminal carried by a distribution network request, and when the user authentication is passed, a user of the equipment to be distributed is considered as a legal user, so that the equipment to be distributed is controlled by the control terminal to be connected to a target network where the control terminal is located, and the distribution process of the equipment to be distributed is completed. The network distribution method and the network distribution device can conveniently and efficiently realize the network distribution of the equipment to be distributed under the condition that users basically do not participate.

Drawings

In order to more clearly illustrate the embodiments of the present disclosure or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below, it is obvious that the drawings in the following description are only embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

Fig. 1 is a schematic diagram of an intelligent home system;

fig. 2 is a schematic diagram of a system architecture of a network to be distributed in an embodiment of the present disclosure;

FIG. 3 is a flow interaction diagram of a network distribution method in an embodiment of the disclosure;

FIG. 4 is a flow chart of determining order information based on unique device information in an embodiment of the present disclosure;

FIG. 5 is a display diagram of an interface for verification passing in an embodiment of the present disclosure;

FIG. 6 is a display diagram of an interface for failing validation in an embodiment of the present disclosure;

fig. 7 is a schematic diagram of a network distribution method performed at a server in an embodiment of the disclosure;

fig. 8 is a schematic diagram of a network distribution method executed at a control terminal in an embodiment of the present disclosure;

FIG. 9A is a flow chart of a user setup method provided by the disclosed embodiments;

FIG. 9B is an exemplary diagram of an order page;

fig. 10A is a block diagram of a distribution network device in an embodiment of the disclosure;

fig. 10B is another block diagram of a distribution network device in an embodiment of the disclosure;

fig. 11 is a block diagram of a server provided in an embodiment of the present disclosure.

Detailed Description

In the smart home scenario, there are numerous home electronics devices, such as smart televisions, smart refrigerators, smart air conditioners, smart door locks, smart curtains, and the like. In order to facilitate the management and use of these electronic devices by users, it is necessary for the users to use the control terminals as main control terminals (e.g., user terminals with electronic device management and control capabilities such as smart speakers), when the electronic devices and the control terminals are connected to the same network (e.g., WIFI network or local area network), the users can use the control terminals to control the electronic devices to turn off, turn on, and operate in different modes such as voice and interface interaction. When the control terminal needs to control and manage a new electronic device, and the new electronic device needs to access a network where the control terminal is located, a network distribution process of the electronic device is involved. For convenience of description, the embodiments of the present disclosure refer to a new electronic device that needs to be connected to a network where the control terminal is located, as a device to be networked. The device to be configured may be an electronic device having a networking function but not yet connected to a network, for example, the device to be configured is an electronic device newly purchased or reset by a user.

The user can connect the equipment to be networked to the network where the control terminal is located through a network distribution mode introduced by the use specification of the equipment to be networked. For example, a user knows the specific way in which the control terminal manages the device to be networked by reading a usage specification of the device to be networked, and operates the device to be networked to connect to the network according to the instruction of the specification. Although the above method can realize that the device to be configured is connected to the network where the control terminal is located, the method needs the user to participate in the operation, and the operation convenience and efficiency of the network distribution method are low. Based on this, the embodiment of the present disclosure provides a novel distribution network scheme, which effectively supplements an existing distribution network mode of a device to be distributed with a network.

The technical solutions in the embodiments of the present disclosure will be clearly and completely described below with reference to the drawings in the embodiments of the present disclosure, and it is obvious that the described embodiments are only a part of the embodiments of the present disclosure, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

In an intelligent home scene, a user can use the control terminal to manage and control electronic equipment such as an intelligent television, an intelligent air conditioner, an intelligent refrigerator, an intelligent curtain, an intelligent door lock and the like. In one example, fig. 1 is a schematic diagram of a smart home system. Referring to fig. 1, the smart home system 10 at least includes a control terminal 11, a smart television 12, and a smart air conditioner 13, where the control terminal 11 may interact with the smart television 12, and the control terminal 11 may also interact with the smart air conditioner 13. In the interaction process, the control terminal 11 can perform data acquisition and control on the intelligent television 12 and the intelligent air conditioner 13, and under the management of the control terminal 11, the intelligent television 12 and the intelligent air conditioner 13 can adjust the working state in real time according to a control signal sent by the control terminal.

It should be noted that the control terminal 11 may implement information interaction with the smart television 12 or the smart air conditioner 13 through a Wireless-Fidelity (WIFI for short) Wireless network communication technology. In other optional embodiments, the control terminal 11 may also interact with the smart television 12 and the smart air conditioner 13 in multiple docking manners such as cloud docking, bluetooth Mesh direct connection, and the like. In a further alternative, the control terminal 11 may also interact with the smart television 12 and the smart air conditioner 13 by using other communication methods, which are not limited.

Interaction between the control terminal and electronic equipment such as a smart television and a smart air conditioner needs to be performed in a state that the electronic equipment completes a network distribution, for example, the electronic equipment and the control terminal need to be connected to the same network. In order to realize efficient and convenient distribution of the electronic equipment, the control terminal is utilized to connect the equipment to be distributed to the network where the control terminal is located under the condition that the server verifies that the user bound by the control terminal is a legal user by means of a user verification mechanism of the server. As an alternative implementation, fig. 2 shows a schematic diagram of a system architecture for implementing a network distribution to a device to be distributed. As shown in fig. 2, the system architecture may include: the network equipment to be distributed 20, the control terminal 21 and the server 22.

The network-to-be-distributed device 20 may be an electronic device such as a smart television or a smart air conditioner that needs to be connected to a network where the control terminal is located. In some embodiments, the device 20 to be networked may be an electronic device newly purchased by the user that has not been connected to the network. In other embodiments, the device to be networked 20 may be an electronic device that is reset by a user, and the electronic device will reset the network connection information after the reset.

The control terminal 21 is a terminal having electronic device management and control capabilities. In some embodiments, the control terminal may be a smart speaker, and management of the electronic device that has completed the distribution network is implemented by the smart speaker, and in some embodiments, the control terminal may also be a terminal device such as a smart phone, a tablet computer, a portable computer, a television box, and the like.

The server 22 is a server device that provides computing services. The server 22 may be deployed on a network side, for example, the server 22 is a cloud server in a cloud. Since the server needs to respond to and process the service request, the server generally has the capability of assuming and securing the service. The server is constructed to include a processor, a hard disk, a memory, a system bus, etc., similar to a general-purpose computer architecture, but requires high processing power, stability, reliability, security, scalability, manageability, etc., due to the need to provide highly reliable services.

In some embodiments, the equipment to be networked mainly goes through the following stages from production and manufacture to use by users:

and (3) a delivery stage: when the equipment to be distributed is manufactured, setting unique equipment information of the equipment to be distributed; after the equipment to be distributed is produced, product packaging can be carried out on the equipment to be distributed, and equipment packaging codes can be arranged on the product packaging; the unique device information can be directly used as a device packaging code, and the unique device information can also have a mapping relation with the device packaging code; based on the method, when the equipment to be networked leaves a factory, unique equipment information is set in the equipment to be networked, and an equipment packaging code is set on a product package;

and (3) ex-warehouse stage: when the network equipment to be distributed is purchased by a user, the order database can record the order information of the network equipment to be distributed purchased by the user, and the network equipment to be distributed is taken out of the warehouse and is sent to the user; in the delivery or sending process of the equipment to be distributed, the delivery personnel or sending personnel can scan and obtain order information of the equipment to be distributed and equipment packaging codes arranged on product packages of the equipment to be distributed through scanning equipment such as a scanning gun, establish a mapping relation between the equipment packaging codes and the order information through the scanned information, and upload the mapping relation to a server.

And a network distribution stage: when a user obtains equipment to be distributed and the equipment to be distributed is powered on and started, the equipment to be distributed is identified and scanned by a control terminal at the user side. The control terminal generates a distribution network request based on the unique device information of the device to be distributed and the user information bound by the control terminal, wherein the unique device information is obtained through scanning, and the user information is sent to the server, so that the server verifies the user of the device to be distributed, and after the user verification is passed, the control terminal is informed to connect the device to be distributed to a target network where the device to be distributed is located, and the distribution network process of the device to be distributed is completed.

Based on the system architecture shown in fig. 2, fig. 3 shows a flow interaction diagram of a network distribution method provided by the embodiment of the present disclosure. As shown in fig. 3, the method flow may include the following steps.

And step S31, the control terminal sends a distribution network request to the server.

The distribution network request is generated by the control terminal and is used for requesting to connect the equipment to be distributed to a target network connected with the control terminal, and the distribution network request at least comprises unique equipment information for uniquely identifying the equipment to be distributed and user information bound by the control terminal.

The unique device information can be used for uniquely identifying the device to be distributed, and any device to be distributed has the corresponding unique device information. In some embodiments, when the device to be networked is manufactured, a media access Control Address (MAC) code of a unique identifier may be burned, and the MAC code may be used as unique device information of the device to be networked to uniquely identify the device to be networked. Certainly, the unique device information of the device to be networked is not limited to the MAC code, any device can perform a unique identification function on the device to be networked, and information set inside the device to be networked can be used as the unique device information.

The user information bound by the control terminal is the user information corresponding to the login user of the control terminal. In some embodiments, the user information may be a username, account ID, or the like, describing the user.

When the control terminal is a smart speaker, the process of sending the distribution network request based on the smart speaker may be: the intelligent sound box scans the peripheral equipment in real time, and generates a distribution network request for connecting the equipment to be distributed to a target network connected with the control terminal when the equipment to be distributed is electrified and not connected with the network, wherein the distribution network request at least comprises an MAC code of the equipment to be distributed and user information bound by the control terminal.

And step S32, the server determines order information of the equipment to be distributed according to the unique equipment information in the distribution network request.

As an alternative implementation, fig. 4 is a flowchart of determining order information based on unique device information in an embodiment of the present disclosure. The method flow may be implemented by a server, and referring to fig. 4, the method flow may include the following steps.

And step S41, determining the equipment packaging code of the equipment to be networked corresponding to the unique equipment information.

In some embodiments, the device package code may be unique device information of the device to be configured, that is, the unique device information is used as the device package code; in other embodiments, when the device package code is not the unique device information, the device package code and the unique device information have a mapping relationship, that is, the device package code may be determined by the unique device information of the device to be networked based on the mapping relationship between the device package code and the unique device information. The mapping relation between the equipment packaging code and the unique equipment information can be recorded in the server after the equipment to be networked is manufactured and the product is installed.

In some embodiments, the device wrapper code may be a SN (Serial Number) code.

And step S42, determining the order information mapped by the equipment packaging code of the equipment to be distributed according to the mapping relation between the equipment packaging code and the order information.

As described above, the device package code is set on the product package of the device to be networked when the device leaves the factory, and a mapping relationship is established with the order information of the device to be networked after scanning. Based on the determined equipment packaging code of the equipment to be networked, the server can search the mapping relation between the equipment packaging code and the order information so as to determine the mapped order information based on the current equipment packaging code.

Returning to fig. 3, in step S33, the user information mapped by the order information is obtained based on the order information of the device to be networked.

The order information records information of a user placing an order, equipment to be networked and the like, is actually an information collection, and can determine the user purchasing the equipment to be networked by inquiring the order information so as to determine corresponding user information.

In one example, a user submitting order information may be queried in an order database, and then user information of the user is obtained in the user database to obtain user information mapped by the order information.

The order database is a collection of a plurality of order information, the order database is matched based on the order information of the equipment to be networked, and a user submitting the order information is inquired in the order database based on the order information; after the user is determined, the user information of the user is obtained in the user database to obtain the user information mapped by the order information.

In further implementations, a user who submits order information (e.g., a user who purchases a device to be distributed) may also set an associated user (e.g., a friend, a family, etc.) on the order page, and the associated user may also be a user to which the order information is mapped. Therefore, the embodiment of the present disclosure may also query, in the order database, a user who submits order information and a related user that is set for the order information by the user, and further obtain, in the user database, user information of the user who submits the order information and user information of the related user, so as to obtain user information mapped by the order information. That is, in this example implementation, the user information of the order information map may include user information of the user who submitted the order information, and user information of the associated user set by the user who submitted the order information.

Step S34, the server verifies whether the user information bound by the control terminal is consistent with the user information mapped by the order information, if yes, step S35 is executed; if not, go to step S36.

After the user information mapped by the order information is obtained, user authentication can be performed on the user information bound by the control terminal to determine whether the user bound by the control terminal is a legal user. Specifically, the user information bound by the control terminal can be verified based on the user information mapped by the order information, and when the user information bound by the control terminal is consistent with the user information mapped by the order information, the user bound by the control terminal is a legal user of the device to be networked.

As an optional implementation, when the user information mapped by the order information is information of the user submitting the order information, the user information bound by the control terminal may be compared to determine whether the user information is consistent with the user information of the user submitting the order information. For example, the server may verify the user mobile phone number corresponding to the smart speaker, and when it is verified that the user mobile phone number corresponding to the smart speaker is consistent with the mobile phone number of the user submitting the order information, it is determined that the user information bound by the control terminal is a valid user.

In other optional embodiments, when the user information mapped by the order information includes information of a user submitting the order information and user information of an associated user, the user information bound by the control terminal may be compared with the user information of the user submitting the order information or whether the user information of the associated user is consistent, and if so, the user bound by the control terminal is a valid user.

The associated user may be other users set by the user who purchases the device to be networked, such as family, friends, and the like. Specifically, when the user who purchases the network to be distributed sets the associated user, the server may compare the user information bound by the control terminal with the information of the user who submits the order information, or whether the user information of the associated user is consistent, so as to compare the user information mapped by the order information with the user information bound by the control terminal.

In step S35, the server transmits the information that the user authentication is successful to the control terminal.

In step S36, the server transmits information indicating that the user authentication is not successful to the control terminal.

And step S37, the control terminal connects the device to be networked to the target network connected with the control terminal.

And step S38, the control terminal refuses the device to be networked to be connected to the target network connected with the control terminal.

The server can transmit information that the user passes the user verification or fails the user verification to the control terminal, and the control terminal determines whether to connect the device to be networked to a target network connected with the control terminal based on the information that the user passes the user verification or fails the user verification.

In some embodiments, when the server transmits the information that the user passes the verification to the control terminal, the control terminal receives the information that the user passes the verification, and the control terminal controls the equipment to be distributed to be connected to the target network based on preset connection information of the target network; when the server transmits the information that the user authentication fails to pass to the control terminal, the control terminal receives the information that the user authentication fails to pass, and the control terminal refuses to connect the device to be networked to the target network connected with the control terminal.

It should be noted that the control terminal is already connected to the target network, and for this reason, network information is stored in the control terminal in advance. In some examples, the network information may be WIFI connection information, and after the user verification passes, the control terminal may control the to-be-configured network device to connect to the WIFI network according to pre-stored WIFI connection information of the WIFI network; in other examples, the network information may also be local area network connection information, and then after the user verification passes, the control terminal may control the device to be networked to connect to the local area network.

For the above network distribution mode, the control terminal is taken as an intelligent sound box, and the device to be distributed is taken as an intelligent television as an example for explanation. Illustratively, the user calls the smart speaker and the user says "find television" for the smart speaker. And after receiving the instruction, the intelligent sound box starts to scan surrounding electronic equipment, and when the intelligent television to be distributed with the network is scanned, the only equipment information of the intelligent television is obtained. The intelligent sound box generates a distribution network request based on the bound user information and the unique device information of the intelligent television, and sends the distribution network request to the cloud server. The cloud server receives the request and processes the request; determining an equipment packaging code corresponding to the intelligent television based on the unique equipment information in the distribution network request; further determining order information mapped by the equipment packaging code of the intelligent television based on the mapping relation between the equipment packaging code and the order information; searching a user in an order database through the order information, and searching the user information in the user database based on the user to obtain user information mapped by the order information; comparing whether the user information bound by the intelligent sound box is consistent with the user information mapped by the order information or not; if the user authentication is consistent with the user authentication, determining that the user authentication is passed; and if not, determining that the user authentication is not passed.

And under the condition that the user verification is passed, the intelligent sound box connects the intelligent television to the target network. Fig. 5 is a display diagram of an interface under user authentication in an embodiment of the disclosure. If the user information bound by the intelligent sound box passes verification, as can be seen by combining fig. 5, the control terminal directly connects the intelligent television to the WIFI network where the control terminal is located, and the intelligent television plays the network program based on the WIFI network; the user can realize the control of working states such as closing, opening, volume adjustment and the like of the intelligent television through the intelligent sound box.

And under the condition that the user authentication fails, the smart sound box refuses the smart television to connect to the target network connected with the smart sound box. Fig. 6 is a display diagram of an interface under which user authentication is not passed according to an embodiment of the present disclosure. If the verification of the user information bound by the smart sound box is not passed, referring to fig. 6, it can be seen that the smart sound box refuses the smart television to connect to the WIFI network to which the smart sound box is connected, and the smart television displays that the smart television is not connected to the network.

The network distribution method provided by the embodiment of the disclosure obtains a network distribution request sent by a control terminal, wherein the network distribution request is used for requesting to connect a device to be distributed to a target network connected with the control terminal, and the network distribution request at least comprises unique device information for uniquely identifying the device to be distributed and user information bound by the control terminal; according to the unique equipment information, determining order information of the equipment to be networked, and determining user information mapped by the order information; performing user verification based on the user information bound by the control terminal and the user information mapped by the order information; and if the user passes the verification, informing the control terminal to connect the equipment to be networked to the target network. It can be seen that in the embodiment of the present disclosure, under the condition that the user basically does not participate, the server determines the user information mapped by the order information of the device to be networked, starting from the unique device information of the device to be networked, which is carried by the network distribution request, based on the relationship between the unique device information, the order information, and the user information mapped by the order information; and then, user authentication is carried out based on the user information mapped by the order information and the user information bound with the control terminal carried by the distribution network request, and when the user authentication passes, the user of the equipment to be distributed is considered as a legal user, so that the equipment to be distributed is controlled by the control terminal to be connected to a target network where the control terminal is located, and the distribution network process of the equipment to be distributed is completed. The network distribution method and the network distribution device can conveniently and efficiently realize the network distribution of the equipment to be distributed under the condition that users basically do not participate.

The following describes a network distribution method implemented at a server side according to an embodiment of the present disclosure. Fig. 7 is a network distribution method executed in a server in the embodiment of the present disclosure. The distribution network method provided by the server can be referred to in correspondence with the content of the method described above.

Referring to fig. 7, the network distribution method performed at the server side may include the following steps.

Step S71, a distribution network request sent by the control terminal is obtained, the distribution network request is used for requesting to connect the equipment to be distributed to a target network connected with the control terminal, and the distribution network request at least comprises unique equipment information for uniquely identifying the equipment to be distributed and user information bound by the control terminal.

And step S72, according to the unique equipment information, determining order information of the equipment to be networked, and determining user information mapped by the order information.

And step S73, carrying out user authentication based on the user information bound by the control terminal and the user information mapped by the order information.

And step S74, if the user passes the verification, the control terminal is informed to connect the device to be networked to the target network.

For more specific function implementation and expansion functions of the server, reference may be made to the description of the corresponding parts above, and details are not described here.

The embodiment of the disclosure also provides a network distribution method executed at the control terminal. Fig. 8 is a network distribution method executed at a control terminal according to an embodiment of the present disclosure. The distribution network method provided by the control terminal can be referred to in correspondence with the content of the method described above.

Referring to fig. 8, the network distribution method performed at the control terminal may include the following steps.

And step S81, scanning the equipment to be networked to obtain unique equipment information which uniquely identifies the equipment to be networked.

And step S82, generating a distribution network request at least based on the unique device information and the user information bound by the control terminal, wherein the distribution network request is used for requesting to connect the device to be distributed to a target network connected with the control terminal.

And step S83, transmitting the distribution network request to the server.

Step S84, obtaining the information that the user passes the verification sent by the server, responding to the information, and connecting the device to be networked to the target network; the server performs user verification based on user information bound by the control terminal and user information mapped by order information of the equipment to be networked, and the order information is determined according to the unique equipment information.

For more specific function implementation and expansion functions of the control terminal, reference may be made to the description of the corresponding parts above, and details are not described here.

In the embodiment of the disclosure, the control terminal can scan the equipment to be networked, generate a network distribution request based on the unique equipment information of the equipment to be networked and the user information bound by the control terminal, and send the network distribution request to the server, the server performs user verification on the user information bound by the control terminal based on the received network distribution request, and when the user verification passes, the server responds to the information and connects the equipment to be networked to the target network. In the embodiment of the disclosure, the control terminal can verify the user identity bound by the control terminal by using the server under the condition that the user basically does not participate, and automatically connect the equipment to be networked to the network where the control terminal is located when the user passes the verification, so as to realize the network distribution of the electronic equipment. Therefore, by the mode, the electronic equipment distribution network can be conveniently and efficiently realized under the condition that the user basically does not participate.

In some further embodiments, a user who purchases the device to be networked may set the associated user on an order page where the device to be networked is purchased, so that the user mapped by the order information of the device to be networked may set the associated user in a user-defined manner by the user, in addition to the user who purchases the device to be networked. As an optional implementation, fig. 9A shows an optional flowchart of a user setting method provided in the embodiment of the present disclosure, and by this method, a user who purchases a device to be networked may set other associated users for order information, and this method may be implemented by a terminal device of the user, for example, a smart phone, a notebook computer, and the like that are used by the user to purchase the device to be networked. Referring to fig. 9A, the method flow may include the following steps.

In step S91, a first page is displayed, where the first page shows order information of the device to be networked purchased by the user.

The first page may be an order page of the device to be networked, or other pages which can display order information of the device to be networked and can set a related user for the order information of the device to be networked.

In step S92, the associated user set by the user through the first page is determined so that the order information is mapped with the user information of the user and the user information of the associated user.

In the embodiment of the disclosure, the first page may provide an entrance for setting the associated user in addition to showing the order information of the device to be networked purchased by the user, so that the user who purchases the device to be networked may set the associated user for the order information of the device to be networked through the first page. In an example, fig. 9B is an exemplary diagram illustrating an order page, and referring to fig. 9B, the order page may show order information of a device to be networked, which is purchased by a user, and the user may enter a page entry for setting an associated user through the order page, so as to set other associated users for the order information.

In the embodiment of the present disclosure, the order information of the device to be networked may be mapped with the user information of the purchasing user and the user information of the associated user, so as to determine the user information mapped by the order information of the device to be networked. Furthermore, when the subsequent equipment to be networked is delivered to a certain user through logistics, the control terminal of the user can scan the equipment to be networked, and then if the server determines that the user information bound by the control terminal is consistent with the user information mapped by the order information of the equipment to be networked, the equipment to be networked can be connected to a target network connected with the control terminal; the specific distribution network process can refer to the description of the corresponding parts, and is not expanded here.

The following describes a distribution network device provided in the embodiments of the present disclosure from the perspective of a server. The device content described below can be regarded as a functional module that is required to be set by a server to implement the network distribution method provided by the embodiment of the present disclosure. The contents of the distribution network device described below may be referred to in correspondence with the contents of the distribution network method described above.

As an alternative implementation, fig. 10A illustrates a block diagram of a distribution network device provided in the embodiment of the present disclosure. Referring to fig. 10A, the distribution network apparatus may include:

an obtaining module 110, configured to obtain a distribution network request sent by a control terminal, where the distribution network request is used to request that a device to be distributed is connected to a target network to which the control terminal is connected, and the distribution network request at least includes unique device information uniquely identifying the device to be distributed and user information bound by the control terminal;

the information determining module 111 is configured to determine, according to the unique device information, order information of the device to be networked, and determine user information mapped by the order information;

a user verification module 112, configured to perform user verification based on the user information bound by the control terminal and the user information mapped by the order information;

and a notification sending module 113, configured to notify the control terminal to connect the to-be-distributed network device to a target network if the user verification passes.

Optionally, the information determining module 111 is configured to determine, according to the unique device information, that the order information of the device to be networked includes:

determining the equipment packaging code of the equipment to be networked corresponding to the unique equipment information;

and determining the order information mapped by the equipment packaging code of the equipment to be networked according to the mapping relation between the equipment packaging code and the order information.

Optionally, the mapping relationship between the device packaging code and the order information is established by scanning the order information of the device to be networked and the device packaging code set on the product package of the device to be networked.

Optionally, the equipment packaging code of the equipment to be networked is arranged on the product packaging of the equipment to be networked; the equipment packaging code is the unique equipment information of the equipment to be distributed, or has a mapping relation with the unique equipment information.

Optionally, the information determining module 111 is configured to determine that the user information mapped by the order information includes:

and querying a user submitting the order information in an order database, and acquiring the user information of the user in the user database to obtain the user information mapped by the order information.

Optionally, the user verification module 112 is configured to perform user verification based on the user information bound to the control terminal and the user information mapped by the order information, and includes:

and comparing the user information bound by the control terminal with the user information of the user submitting the order information to determine whether the user information is consistent with the user information of the user submitting the order information.

Optionally, the user verification module 112 is configured to determine that the user information mapped by the order information includes:

inquiring a user submitting the order information and a related user set for the order information by the user in an order database, and acquiring the user information of the user and the user information of the related user in the user database to obtain the user information mapped by the order information;

optionally, the user verification module 112 is configured to perform user verification based on the user information bound to the control terminal and the user information mapped by the order information, and includes:

and comparing the user information bound by the control terminal with the user information of the user submitting the order information or the user information of the associated user to determine whether the user information is consistent.

Optionally, the notifying and sending module 113, configured to notify the control terminal to connect the device to be networked to the target network, includes:

and transmitting the information that the user passes the verification to the control terminal so that the control terminal controls the equipment to be networked to be connected to the target network based on the preset connection information of the target network.

The distribution network device provided by the embodiment of the disclosure is introduced from the perspective of the control terminal. The device content described below may be considered as a functional module that is required to be set by the control terminal to implement the network distribution method provided by the embodiment of the present disclosure. The contents of the distribution network device described below may be referred to in correspondence with the contents of the distribution network method described above.

As an alternative implementation, fig. 10B shows a block diagram of a distribution network device provided in the embodiment of the present disclosure. Referring to fig. 10B, the distribution network apparatus may include:

the scanning module 120 is configured to scan a device to be configured to obtain unique device information uniquely identifying the device to be configured;

a distribution network request generating module 121, configured to generate a distribution network request based on at least the unique device information and user information bound by the control terminal, where the distribution network request is used to request that a device to be distributed is connected to a target network to which the control terminal is connected;

a distribution network request sending module 122, configured to transmit the distribution network request to a server;

the distribution network execution module 123 is configured to acquire information that the user verification passed and sent by the server, respond to the information, and connect the device to be distributed to the target network; the server carries out user verification based on the user information bound by the control terminal and the user information mapped by the order information of the equipment to be distributed, and the order information is determined according to the unique equipment information.

The distribution network device provided by the embodiment of the disclosure performs user verification on the user information bound by the control terminal through the server, automatically completes distribution network under the condition that the user verification passes, and realizes convenient and efficient distribution network of the equipment to be distributed under the condition that the user basically does not participate.

The embodiment of the disclosure also provides a server. The server can execute the network distribution method provided by the embodiment of the disclosure. In some embodiments, fig. 11 is a block diagram of a server in an embodiment of the present disclosure. As shown in fig. 11, the server may include: at least one processor 1, at least one communication interface 2, at least one memory 3 and at least one communication bus 4.

In the embodiment of the present disclosure, the number of the processor 1, the communication interface 2, the memory 3, and the communication bus 4 is at least one, and the processor 1, the communication interface 2, and the memory 3 complete mutual communication through the communication bus 4.

Alternatively, the communication interface 2 may be an interface of a communication module for performing network communication.

Alternatively, the processor 1 may be a CPU, a GPU (Graphics Processing Unit), an NPU (embedded neural network processor), an FPGA (Field Programmable Gate Array), a TPU (tensor Processing Unit), an AI chip, an asic (application Specific Integrated circuit), or one or more Integrated circuits configured to implement the embodiments of the present disclosure.

The memory 3 may comprise a high-speed RAM memory and may also comprise a non-volatile memory, such as at least one disk memory.

The memory 3 stores one or more computer-executable instructions, and the processor 1 calls the one or more computer-executable instructions to execute the network distribution method executed by the server provided by the embodiment of the disclosure.

The embodiment of the disclosure also provides a control terminal. Fig. 11 shows a specific implementation block diagram, which includes at least one memory and at least one processor, where the memory stores one or more computer-executable instructions, and the processor calls the one or more computer-executable instructions to execute the network distribution method executed by the control terminal according to the embodiment of the present invention.

The embodiment of the present disclosure also provides a storage medium, where the storage medium stores one or more computer-executable instructions, and when the one or more computer-executable instructions are executed, the distribution network method executed by the server or the control terminal, or the user setting method provided by the embodiment of the present disclosure, is implemented.

The embodiment of the present disclosure also provides a computer program, where the computer program is executed to implement the network distribution method executed by the server or executed by the control terminal, or the user setting method provided by the embodiment of the present disclosure.

While various embodiments provided by the disclosed embodiments have been described above, various alternatives described in the various embodiments can be combined and cross-referenced without conflict to extend the variety of possible embodiments that can be considered disclosed and disclosed in the embodiments of this disclosure.

While the disclosed embodiments are disclosed above, the present application is not so limited. Various changes and modifications may be effected therein by one of ordinary skill in the pertinent art without departing from the scope or spirit of the present disclosure, and it is intended that the scope of the present disclosure be defined by the appended claims.

Claims (12)

1. A network distribution method comprises the following steps:

the method comprises the steps that a distribution network request sent by a control terminal is obtained, the distribution network request is used for requesting to connect equipment to be distributed to a target network connected with the control terminal, and the distribution network request at least comprises unique equipment information for uniquely identifying the equipment to be distributed and user information bound by the control terminal;

according to the unique equipment information, determining order information of the equipment to be networked, and determining user information mapped by the order information;

performing user verification based on the user information bound by the control terminal and the user information mapped by the order information;

and if the user passes the verification, the control terminal is informed to connect the equipment to be distributed to the target network.

2. The method according to claim 1, wherein the determining, according to the unique device information, order information of the device to be networked comprises:

determining the equipment packaging code of the equipment to be networked corresponding to the unique equipment information;

and determining the order information mapped by the equipment packaging code of the equipment to be networked according to the mapping relation between the equipment packaging code and the order information.

3. The method according to claim 2, wherein the mapping relationship between the equipment packaging code and the order information is established by scanning the order information of the equipment to be networked and the equipment packaging code set on the product packaging of the equipment to be networked.

4. The method of claim 2, wherein the device package code of the device to be networked is provided on a product package of the device to be networked; the equipment packaging code is the unique equipment information of the equipment to be distributed, or has a mapping relation with the unique equipment information.

5. The method of claim 1, wherein the determining the user information of the order information mapping comprises:

querying a user submitting the order information in an order database, and acquiring the user information of the user in a user database to obtain user information mapped by the order information;

the performing user verification based on the user information bound by the control terminal and the user information mapped by the order information comprises:

and comparing the user information bound by the control terminal with the user information of the user submitting the order information to determine whether the user information is consistent with the user information of the user submitting the order information.

6. The method of claim 1, wherein the determining the user information of the order information mapping comprises:

inquiring a user submitting the order information and a related user set for the order information by the user in an order database, and acquiring the user information of the user and the user information of the related user in the user database to obtain the user information mapped by the order information;

the performing user verification based on the user information bound by the control terminal and the user information mapped by the order information comprises:

and comparing the user information bound by the control terminal with the user information of the user submitting the order information or the user information of the associated user to determine whether the user information is consistent.

7. The method of claim 1, wherein the notifying the control terminal to connect the device to be networked to a target network comprises:

and transmitting the information that the user passes the verification to the control terminal so that the control terminal controls the equipment to be networked to be connected to the target network based on the preset connection information of the target network.

8. A network distribution method comprises the following steps:

scanning equipment to be distributed to obtain unique equipment information which uniquely identifies the equipment to be distributed;

generating a distribution network request at least based on the unique equipment information and user information bound by the control terminal, wherein the distribution network request is used for requesting to connect the equipment to be distributed to a target network connected with the control terminal;

transmitting the distribution network request to a server;

acquiring information which is sent by the server and passes user verification, responding to the information, and connecting the equipment to be networked to the target network; the server carries out user verification based on the user information bound by the control terminal and the user information mapped by the order information of the equipment to be distributed, and the order information is determined according to the unique equipment information.

9. A user setting method, comprising:

displaying a first page, wherein the first page displays order information of equipment to be networked purchased by a user;

determining an associated user set by the user through the first page so that the order information is mapped with the user information of the user and the user information of the associated user; and when the user information bound by the control terminal of the equipment to be distributed is scanned and is consistent with the user information mapped by the order information, the equipment to be distributed is connected to a target network connected with the control terminal.

10. A server, comprising: at least one memory and at least one processor, the memory storing one or more computer-executable instructions, the processor invoking the one or more computer-executable instructions to perform the distribution network method of any of claims 1-7.

11. A control terminal, comprising: at least one memory and at least one processor, the memory storing one or more computer-executable instructions, the processor invoking the one or more computer-executable instructions to perform the network distribution method of claim 8.

12. A storage medium, wherein the storage medium stores one or more computer-executable instructions that, when executed, implement the network distribution method of any of claims 1-7, or the network distribution method of claim 8, or the user setup method of claim 9.

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