CN111917824B - Internet of things equipment configuration method and device, computer equipment and storage medium - Google Patents

Abstract

The application relates to an Internet of things device configuration method, an Internet of things device configuration device, a computer device and a storage medium. The method comprises the following steps: receiving an Internet of things equipment configuration instruction, wherein the Internet of things equipment configuration instruction carries a product model identifier of a target product model; searching a product attribute field corresponding to the product model identifier, and generating a first equipment attribute field corresponding to the to-be-configured Internet of things equipment according to the product attribute field; feeding back the first equipment attribute field to a sending end corresponding to the configuration instruction of the internet of things equipment, so that the sending end displays the first equipment attribute field, and a first field value recorded for the first equipment attribute field is obtained; and receiving a first field value corresponding to the first equipment attribute field sent by the sending end, and storing the first equipment attribute field and the first field value as first configuration information of the Internet of things equipment. The configuration efficiency of the Internet of things equipment can be improved by adopting the method.

Description

Internet of things equipment configuration method and device, computer equipment and storage medium

Technical Field

The present application relates to the field of internet of things, and in particular, to a method and apparatus for configuring an internet of things device, a computer device, and a storage medium.

Background

With the development of the internet of things technology, an internet of things platform appears. The internet of things platform is a platform for providing interaction with application programs and other internet of things devices for users, and can provide services such as one-stop internet of things device access, internet of things device management, monitoring operation and maintenance, data circulation, data storage and the like.

When the internet of things device is managed, the configuration of each internet of things device is separated, and specific attribute fields to be configured for each internet of things device need to be manually input or selected. When the number of the internet of things devices is huge, a large number of repeated operations exist for the configuration of each internet of things device, so that the configuration efficiency of the internet of things device is low.

Disclosure of Invention

In view of the foregoing, it is desirable to provide an internet of things device configuration method, apparatus, computer device, and storage medium that can improve the efficiency of internet of things device configuration.

An internet of things device configuration method, the method comprising:

receiving an Internet of things equipment configuration instruction, wherein the Internet of things equipment configuration instruction carries a product model identifier of a target product model;

searching a product attribute field corresponding to the product model identifier, and generating a first equipment attribute field corresponding to the to-be-configured Internet of things equipment according to the product attribute field;

Feeding back the first equipment attribute field to a sending end corresponding to the configuration instruction of the internet of things equipment, so that the sending end displays the first equipment attribute field, and a first field value recorded for the first equipment attribute field is obtained;

and receiving a first field value corresponding to the first equipment attribute field sent by the sending end, and storing the first equipment attribute field and the first field value as first configuration information of the Internet of things equipment.

An internet of things device configuration apparatus, the apparatus comprising:

the instruction receiving module is used for receiving an Internet of things equipment configuration instruction which carries a product model identifier of a target product model;

the field generation module is used for searching a product attribute field corresponding to the product model identifier and generating a first equipment attribute field corresponding to the to-be-configured Internet of things equipment according to the product attribute field;

the field feedback module is used for feeding back the first equipment attribute field to the sending end corresponding to the internet of things equipment configuration instruction so that the sending end displays the first equipment attribute field and acquires a first field value recorded for the first equipment attribute field;

the configuration information determining module is configured to receive a first field value corresponding to a first device attribute field sent by the sending end, and store the first device attribute field and the first field value as first configuration information of the internet of things device.

A computer device comprising a memory storing a computer program and a processor which when executing the computer program performs the steps of:

receiving an Internet of things equipment configuration instruction, wherein the Internet of things equipment configuration instruction carries a product model identifier of a target product model;

searching a product attribute field corresponding to the product model identifier, and generating a first equipment attribute field corresponding to the to-be-configured Internet of things equipment according to the product attribute field;

feeding back the first equipment attribute field to a sending end corresponding to the configuration instruction of the internet of things equipment, so that the sending end displays the first equipment attribute field, and a first field value recorded for the first equipment attribute field is obtained;

and receiving a first field value corresponding to the first equipment attribute field sent by the sending end, and storing the first equipment attribute field and the first field value as first configuration information of the Internet of things equipment.

A computer readable storage medium having stored thereon a computer program which when executed by a processor performs the steps of:

receiving an Internet of things equipment configuration instruction, wherein the Internet of things equipment configuration instruction carries a product model identifier of a target product model;

searching a product attribute field corresponding to the product model identifier, and generating a first equipment attribute field corresponding to the to-be-configured Internet of things equipment according to the product attribute field;

Feeding back the first equipment attribute field to a sending end corresponding to the configuration instruction of the internet of things equipment, so that the sending end displays the first equipment attribute field, and a first field value recorded for the first equipment attribute field is obtained;

and receiving a first field value corresponding to the first equipment attribute field sent by the sending end, and storing the first equipment attribute field and the first field value as first configuration information of the Internet of things equipment.

According to the method, the device, the computer equipment and the storage medium for configuring the Internet of things equipment, the Internet of things equipment configuration instruction is received, and the Internet of things equipment configuration instruction carries the product model identification of the target product model; searching a product attribute field corresponding to the product model identifier, and generating a first equipment attribute field corresponding to the to-be-configured Internet of things equipment according to the product attribute field; feeding back the first equipment attribute field to a sending end corresponding to the configuration instruction of the internet of things equipment, so that the sending end displays the first equipment attribute field, and a first field value recorded for the first equipment attribute field is obtained; and receiving a first field value corresponding to the first equipment attribute field sent by the sending end, and storing the first equipment attribute field and the first field value as first configuration information of the Internet of things equipment. Therefore, the attribute fields of the internet of things equipment under the product model can be quickly and in linkage generated according to the pre-configured general attribute fields of the product model, so that certain repeated operation is avoided, and the configuration efficiency of the internet of things equipment is improved.

Drawings

FIG. 1 is an application environment diagram of an Internet of things device configuration method in one embodiment;

FIG. 2 is a flow chart of a method for configuring an Internet of things device according to an embodiment;

FIG. 3 is a flow diagram of generating configuration instructions for an Internet of things device in one embodiment;

FIG. 4 is a schematic flow diagram of configuring a product model in one embodiment;

FIG. 5 is a flowchart illustrating steps for obtaining a first field value entered for a first device attribute field in one embodiment;

FIG. 6 is a flow diagram of determining second configuration information in one embodiment;

FIG. 7 is a flow diagram of configuring a slave device in one embodiment;

FIG. 8 is a schematic diagram of an Internet of things device configuration method in one embodiment;

FIG. 9 is a block diagram of an apparatus for configuring an Internet of things device in one embodiment;

fig. 10 is an internal structural view of a computer device in one embodiment.

Detailed Description

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

It will be understood that the terms "first," "second," and the like, as used herein, may be used to describe various elements, but these elements are not limited by these terms unless otherwise specified. These terms are only used to distinguish one element from another element.

The configuration method of the Internet of things device can be applied to an application environment shown in fig. 1. As shown in fig. 1, the application environment includes a terminal 102 and a server 104. Wherein the terminal 102 communicates with the server 104 via a network. The terminal 102 may be, but not limited to, various personal computers, notebook computers, smartphones, tablet computers, and portable wearable devices, and the server 104 may be an independent physical server or a server cluster formed by a plurality of physical servers.

Specifically, the terminal 102 may send an internet of things device configuration instruction to the server 104, where the internet of things device configuration instruction carries a product model identifier of the target product model. Server 104 may search for a product attribute field corresponding to the product model identifier, generate a first device attribute field corresponding to the to-be-configured internet of things device according to the searched product attribute field, and return the first device attribute field to terminal 102. The terminal 102 may display the first device attribute field and send the obtained first field value entered for the first device attribute field to the server 104. Server 104 takes the received first field value corresponding to the first device attribute field as the first configuration information of the internet of things device, and stores the first configuration information.

In one embodiment, as shown in fig. 2, an internet of things device configuration method is provided, and the method is applied to the server in fig. 1 for illustration, and includes the following steps:

s202, receiving an Internet of things equipment configuration instruction, wherein the Internet of things equipment configuration instruction carries a product model identifier of a target product model.

The configuration instruction of the Internet of things equipment is an instruction with a configuration function and is used for generating a general equipment attribute field of the Internet of things equipment in a server. The product model is a general model abstracting the same type of internet of things equipment, and the internet of things equipment is a specific example of the product model, for example, when the product model is a camera, the internet of things equipment can be a camera I, a camera II and a camera III; when the product model is an air conditioner, the Internet of things equipment can be an air conditioner I, an air conditioner II and an air conditioner III. The product model identification is an identification for uniquely identifying the product model, and may specifically include a character string of at least one of letters, numbers, and symbols.

Specifically, the terminal can run an internet of things platform application, the terminal can display an application configuration interface through the internet of things platform application, a product management control and a device management control are displayed in the application configuration interface, and when triggering operation acting on the device management control is detected, the terminal can jump to the device management interface. The product model list is displayed in the equipment management interface, a user can select one product model from the product model list as a target product model, and the Internet of things equipment corresponding to the target product model is newly increased by triggering the equipment configuration control. When the triggering operation acting on the equipment configuration control is detected, generating an Internet of things equipment configuration instruction according to the product model identification of the target product model, and sending the Internet of things equipment configuration instruction to the server. For example, the user may generate an inline device configuration instruction by triggering a "new" button or an "edit" button. The Internet of things platform application is a client corresponding to the server. The triggering operation may specifically be a touch operation, a cursor operation, a key operation, or a voice operation.

In one embodiment, the physical device configuration instruction may further carry a user identifier, and the server may perform authority verification according to the user identifier. When the authority verification is passed, the server responds to the configuration instruction of the Internet of things device so as to improve the safety and accuracy of the configuration of the Internet of things device. Specifically, the server may store in advance a correspondence between the user identifier and the configuration permission, where the configuration permission may be at least one of a configuration permission, a non-configuration permission, a configuration permission for an internet of things device corresponding to a preset product model, or a non-configuration permission for an internet of things device corresponding to the preset product model. When the authentication of the rights fails, the server can reject the response Internet of things device configuration instruction and send a notification of rejecting the response Internet of things device configuration instruction to the terminal. The corresponding relationship between the user identifier and the configuration permission may be set according to job position information of the user, work content (for example, responsible item), etc., for example, the configuration permission corresponding to the user responsible for the related item of the camera is that the configuration permission is provided for the first camera (internet of things device) corresponding to the camera (product model).

S204, searching a product attribute field corresponding to the product model identification, and generating a first equipment attribute field corresponding to the to-be-configured Internet of things equipment according to the product attribute field.

Wherein the product attribute field includes at least one of an identity attribute field, a static attribute field, and a dynamic attribute field. The identity attribute field is used to configure identity information such as product name, product identifier, type of product (e.g., direct connection device, gateway sub-device). The static attribute field is information for configuring static fixing, such as installation height. The dynamic attribute field is used to configure dynamic unfixed information such as presence status, number of persons identified (number of persons identified by the camera). The identity attribute field is provided with a specific field value, for example, the product name is air conditioner, the product type is gateway device, i.e. the product model comprises identity attribute information. The static attribute field and the dynamic attribute field are provided with a field value interval, for example, an installation height of 4 meters to 10 meters. The first device attribute field corresponding to the internet of things device refers to a general device attribute field corresponding to the internet of things device, and the general device attribute field comprises at least one attribute field. The same general equipment attribute field can be included between the same type of the internet of things equipment, and field values corresponding to the general equipment attribute field can be different between the same type of the internet of things equipment.

Specifically, after receiving the configuration instruction of the internet of things device, the server may search a product attribute field corresponding to a product model identifier carried by the configuration instruction of the internet of things device. The server can generate the universal equipment attribute field of the Internet of things equipment corresponding to the target product model in a linkage mode according to the product attribute field corresponding to the target product model. For example, the product attribute fields of the target product model include "product name", "installation height", and "number of persons identified", and then the generic device attribute fields generated from the product attribute fields may include "device name", "installation height", and "number of persons identified".

In one embodiment, the static and dynamic ones of the product attribute fields may directly generate generic device attribute fields, such as "installation height" to generate "installation height". The identity attribute field in the product attribute field may be adaptively converted to a generic device attribute field, such as "product name" to "device name".

S206, feeding back the first equipment attribute field to the sending end corresponding to the Internet of things equipment configuration instruction, so that the sending end displays the first equipment attribute field, and a first field value recorded for the first equipment attribute field is obtained.

Specifically, the server may send the generated generic device attribute field corresponding to the internet of things device to the terminal. After receiving the universal equipment attribute field corresponding to the internet of things equipment, the terminal can display the equipment configuration interface through the application of the internet of things platform, and the universal equipment attribute field is displayed on the equipment configuration interface. The user can input the attribute value of the universal equipment attribute field in the equipment configuration interface, namely, input the field value of the universal equipment attribute field in the equipment configuration interface so as to realize the configuration of the internet of things equipment. When the general device attribute field includes a plurality of attribute fields, the user may input attribute values of the respective attribute fields, respectively. When all the field values are input, the field values corresponding to the universal device attribute fields can be sent to the server by triggering a control for indicating the end, such as a 'complete' button.

S208, receiving a first field value corresponding to the first equipment attribute field sent by the sending end, and storing the first equipment attribute field and the first field value as first configuration information of the Internet of things equipment.

Specifically, the server may receive a field value corresponding to the general device attribute field sent by the terminal, use the general device attribute field and the corresponding field value as configuration information of the internet of things device, and store the configuration information of the internet of things device.

In one embodiment, the product model corresponding to the internet of things device and the internet of things device can be stored in an associated mode, specifically, the internet of things device identifier of the internet of things device and the product model identifier of the corresponding product model can be associated, and the configuration information of the internet of things device comprises the internet of things device identifier. And the terminal can generate an Internet of things equipment query instruction according to the product model identification, and send the Internet of things equipment query instruction to the server so as to query configuration information of at least one Internet of things equipment corresponding to the product model. When the server receives an Internet of things equipment query instruction sent by the terminal, configuration information of at least one Internet of things equipment associated with the product model identification can be quickly found according to the product model identification carried by the Internet of things equipment query instruction, an Internet of things equipment list is generated according to the configuration information of each Internet of things equipment, and the Internet of things equipment list is fed back to the terminal. After receiving the internet of things device list, the terminal can display the internet of things device list so that a user can acquire configuration information of each internet of things device and manage the configuration information of the internet of things device. The user can modify, delete and add the configuration information of the internet of things device.

In the method for configuring the Internet of things equipment, the Internet of things equipment configuration instruction is received, and the Internet of things equipment configuration instruction carries the product model identification of the target product model; searching a product attribute field corresponding to the product model identifier, and generating a first equipment attribute field corresponding to the to-be-configured Internet of things equipment according to the product attribute field; feeding back the first equipment attribute field to a sending end corresponding to the configuration instruction of the internet of things equipment, so that the sending end displays the first equipment attribute field, and a first field value recorded for the first equipment attribute field is obtained; and receiving a first field value corresponding to the first equipment attribute field sent by the sending end, and storing the first equipment attribute field and the first field value as first configuration information of the Internet of things equipment. Therefore, the attribute fields of the internet of things equipment under the product model can be quickly and in linkage generated according to the pre-configured general attribute fields of the product model, so that certain repeated operation is avoided, and the configuration efficiency of the internet of things equipment is improved.

In one embodiment, as shown in fig. 3, before step S202, that is, before receiving the configuration instruction of the internet of things device, the method for configuring the internet of things device further includes:

s302, receiving a product model query instruction sent by a sending end, wherein the product model query instruction carries a user identifier.

The product model query instruction is an instruction with a query function and is used for querying a product model in a server. The user identification is an identification for uniquely identifying a user, and may specifically include a character string of at least one of letters, numbers, and symbols. The user identification may be user information such as account numbers and passwords, fingerprints, etc.

Specifically, the terminal can run an internet of things platform application. When a user triggers and opens the Internet of things platform application on the terminal, the Internet of things platform application displays a login interface, and the login interface displays a user information filling frame and a control for triggering login actions, such as a login button. When the triggering operation acting on the control is detected, a login instruction is generated according to user information input by a user, and the login instruction is sent to a server. After receiving the login instruction, the server verifies whether the user information carried by the login instruction is correct. And when the verification passes, sending a notification of the passing of the verification to the terminal. And after receiving the notification of passing the verification, the terminal jumps to the application configuration interface from the login interface. The application configuration interface is provided with a product management control and a device management control, and when triggering operation acting on the device management control is detected, the terminal can generate a product model query instruction according to user information of a current user and send the product model query instruction to the server.

S304, searching at least one product model corresponding to the user identifier, and generating a product model list according to the searched product model.

Wherein the list of product models includes information about at least one product model. The related information comprises at least one of identity attribute information, static attribute fields, dynamic attribute fields of the product model and an Internet of things equipment list corresponding to the product model. The internet of things device list includes configuration information of at least one internet of things device.

Specifically, after receiving the product model query instruction, the server may search the product model corresponding to the user identifier locally according to the user identifier carried by the product model query instruction, and generate a product model list according to the searched product model.

In one embodiment, the product model and the user identification are stored in association in the server, and the product model identification and the user identification of the product model may be associated. The product model and the Internet of things equipment are stored in a server in an associated mode, and the Internet of things equipment identification of the Internet of things equipment and the product model identification of the corresponding product model can be associated. Therefore, the server can locally find the product model associated with the user identifier according to the user identifier, and can locally find the configuration information of the Internet of things equipment associated with the product model identifier according to the product model identifier of the product model.

S306, feeding back the product model list to the sending end, so that the sending end displays the product model list, the product model selected from the product model list is obtained as a target product model, and a configuration instruction of the Internet of things equipment is generated according to the target product model.

Specifically, the server may return a list of product models to the terminal. After receiving the product model list, the terminal may display the product model list in the device management interface. The user can select one product model from the product model list as a target product model, and generate a configuration instruction of the Internet of things device according to the target product model selected by the user, and then send the configuration instruction of the Internet of things device to the server. In addition, when the product model list includes the internet of things device list, if the terminal receives the product model list, the product model list may be displayed in the device management interface first, and the internet of things device list may be hidden. After determining the target product model, if the target product model has a corresponding internet of things device list, the corresponding internet of things device list of the target product model can be displayed in a device management interface, so that a user can obtain configuration information of the configured internet of things device under the product model. When a user needs to add the Internet of things device, an Internet of things device configuration instruction can be generated through a trigger device configuration control.

In the above embodiment, the product model query instruction sent by the sending end is received, the product model query instruction carries a user identifier, at least one product model corresponding to the user identifier is searched, a product model list is generated according to the searched product model, the product model list is fed back to the sending end, so that the sending end displays the product model list, a product model selected from the product model list is obtained as a target product model, and a configuration instruction of the internet of things equipment is generated according to the target product model. Therefore, the product model is searched according to the user identification, the product model searching efficiency and the product model searching accuracy can be improved, and the product models configured by other users are prevented from being obtained by mistake. And generating an Internet of things equipment configuration instruction according to the target product model, thereby being convenient and quick.

In one embodiment, as shown in fig. 4, before step S302, that is, before receiving the product model query instruction sent by the sending end, the method for configuring an internet of things device further includes:

s402, receiving a product model configuration instruction sent by a sending end, wherein the product model configuration instruction carries configuration information of product attribute fields and user identification, the configuration information of the product attribute fields is generated according to field configuration operation of a product model configuration interface acting on the sending end, the product model configuration interface comprises a candidate field area and a field editing area, the candidate field area displays a product model preset field, and the field editing area is used for inputting newly added fields.

The product model configuration instruction is an instruction with a configuration function and is used for configuring a product model. The field configuration operation includes at least one of a selection operation and an input operation.

Specifically, the terminal can run an internet of things platform application, the terminal can display an application configuration interface through the internet of things platform application, a product management control and a device management control are displayed in the application configuration interface, and when triggering operation acting on the product management control is detected, the terminal can jump to the product management interface. The user may add a product model by triggering a product configuration control. When a triggering operation on the device configuration control is detected, a jump may be made to the product model configuration interface. The candidate field area and the field editing area are displayed in the product model configuration interface. The candidate field area comprises a product model preset field, wherein the product model preset field can be an identity attribute field, and the preset field can be used for configuring identity attribute information of all product models. Since all product models may include the same identity attribute field, a candidate field region for configuring identity attribute information of the product model may be preset. The preset fields may include a product name, a product identifier, a type to which the product belongs (e.g., direct connection device, gateway sub-device), etc. The candidate field area may be subjected to a selection operation, for example, a type "direct connection device" to which the product belongs is checked, and the candidate field area may be subjected to an input operation, for example, a product name "camera" is input. Configuration information of product attribute fields of the product model part can be generated through selection operation and input operation of the candidate field areas. The field editing area is used for inputting a newly added field, and the newly added field can be at least one of a static attribute field and a dynamic attribute field. The field editing area can be input with configuration information of the custom field, such as "installation height" of the newly added static attribute field, the attribute name is "installation height", the attribute identifier is "A", the data type is "integer", the data value range is "5-10", and the unit is "meter". Configuration information of product attribute fields of the product model part can be generated through input operation of the field editing area. After the configuration information of all the product attribute fields is input, a control for indicating the end, such as a 'finish' button, can be triggered, and a product model configuration instruction is generated according to the configuration information of the product attribute fields and the user identification and is sent to the server.

S404, creating a product model according to the configuration information of the product attribute field.

And S406, storing the created product model and the user identification in an associated mode.

Specifically, after receiving the product model configuration instruction, the server may create a product model according to the configuration information of the product attribute field, and store the product model and the user identifier in an associated manner.

In the above embodiment, a product model configuration instruction sent by a sending end is received, where the product model configuration instruction carries configuration information of a product attribute field and a user identifier, the configuration information of the product attribute field is generated according to a field configuration operation of a product model configuration interface acting on the sending end, the product model configuration interface includes a candidate field area and a field editing area, the candidate field area displays a product model preset field, the field editing area is used for inputting a newly added field, configuring a product model according to the configuration information of the product attribute field, and storing the configured product model and the user identifier in an associated manner. Thus, configuration information of product attribute fields of the product model is designed through the visual interface, and convenience and rapidness are realized. And storing the product model and the user identification in an associated manner, so that the user can independently manage the product model configured by the user and the Internet of things equipment corresponding to the product model.

In one embodiment, as shown in fig. 5, the first device attribute field carries a field constraint condition, where the field constraint condition is determined according to configuration information of the product attribute field, and the obtaining a first field value recorded for the first device attribute field specifically includes:

s502, the sender acquires an initial field value recorded for a first equipment attribute field.

S504, when the initial field value meets the field constraint condition, the initial field value is taken as a first field value.

S506, when the initial field value does not meet the field constraint condition, generating and displaying prompt information.

Wherein the field constraints include at least one of a data type and a range of data values. The field constraint condition of the general equipment attribute field is the constraint condition in the configuration information of the product attribute field corresponding to the general equipment attribute field.

Specifically, in order to improve accuracy of configuration of the internet of things device, a field value input by a user needs to satisfy a field constraint condition in configuration information of a product attribute field. For example, an installation height product attribute field is configured in the product model, the data type of the constraint field value in the configuration information of the product attribute field is an integer, the data value range is 5-10, and then when the user configures the internet of things device, the input field value needs to be an integer and within 5-10 for the universal device attribute field of the installation height. When the server returns the universal device attribute field to the terminal, the field constraint condition can be returned together. When the initial field value entered by the user satisfies the field constraint, the initial field value may be used as the first field value. When the initial field value input by the user does not meet the field constraint condition, the terminal can display prompt information. The prompt information is used for prompting the user that the input field value is wrong and please input again.

In one embodiment, as shown in fig. 6, the method for configuring an internet of things device further includes:

s602, a second equipment attribute field of the Internet of things equipment is sent to the sending end, so that the sending end displays the second equipment attribute field, a second field value recorded for the second equipment attribute field is obtained, and the second equipment attribute field is an Internet of things equipment preset field of the Internet of things equipment.

S604, receiving a second field value sent by the sending end, and storing a second equipment attribute field and the second field value as second configuration information of the Internet of things equipment.

The preset field of the internet of things equipment is an attribute field which is not configured in the product model, is a personalized equipment attribute field of the internet of things equipment, and comprises at least one attribute field. The preset field may be written in advance by a fixed code, for example, the factory code of the camera includes personalized attribute information of the camera, such as manufacturer information, functions (for example, vehicle identification, face recognition, traffic monitoring, etc.) of the camera, and so on. The preset field can also be preset according to the physical position of the internet of things device. For example, the camera is hung on the front door, and besides the installation height, the performance requirement on the camera is higher, because the front door people flow is larger than the rear door people flow, and the image acquisition requirement is higher. Therefore, compared with the camera of the back door, the front door camera can be provided with more personalized attribute fields of camera performance.

Specifically, the server and the internet of things device establish communication connection, and the internet of things device can report data to the server through the communication connection. The server can extract a preset field from the reported data of the internet of things device as an attribute field of the personalized device of the internet of things device, for example, the function of a camera, the power of an air conditioner, and can set the preset field as the attribute field of the personalized device of the internet of things device according to the reported data of the internet of things device, for example, the camera performance of a front door camera. The server can send the acquired personalized equipment attribute field of the internet of things equipment to the terminal. After receiving the personalized equipment attribute field of the internet of things equipment, the terminal can display the equipment configuration interface through the application of the internet of things platform, and the personalized equipment attribute field is displayed on the equipment configuration interface. The user can input the attribute value of the attribute field of the personalized equipment in the equipment configuration interface, namely, input the field value of the attribute field of the personalized equipment in the equipment configuration interface, so as to further realize the configuration of the internet of things equipment. The server can receive a field value corresponding to the attribute field of the personalized equipment sent by the terminal, take the attribute field of the personalized equipment and the corresponding field value as configuration information of the internet of things equipment, and store the configuration information of the internet of things equipment.

In one embodiment, the default field value exists for a portion of the personalized device attribute field. The server may also extract a default field value of a part of the attribute field of the personalized device from the reported data of the physical connection device, for example, may extract a personalized device attribute field, which is a "function possessed by a camera", from the reported data of the physical connection device, and may also extract a default field value "vehicle identification" of the personalized device attribute field. If the personalized equipment attribute field has a default field value, the server can send the default field value corresponding to the personalized equipment attribute field to the terminal together when sending the personalized equipment attribute field to the terminal, and the default field value can be displayed together on an equipment configuration interface of the terminal.

In the above embodiment, corresponding personalized equipment attribute fields are configured for different internet of things equipment, and the personalized equipment attribute fields are combined with the general equipment attribute fields, so that personalized configuration of the internet of things equipment can be realized, and flexibility of the internet of things equipment configuration is improved.

In one embodiment, as shown in fig. 7, the method for configuring an internet of things device further includes:

s702, receiving a slave device configuration instruction, wherein the slave device configuration instruction carries an Internet of things device identifier of the Internet of things device.

S704, generating a slave device attribute field of the slave device according to the first device attribute field and the second device attribute field corresponding to the Internet of things device identifier.

S706, feeding back the attribute field of the slave device to the sender, so that the sender displays the attribute field of the slave device and obtains a third field value recorded for the attribute field of the slave device.

S708, receiving the third field value corresponding to the slave device attribute field returned by the sending end, and storing the slave device attribute field and the third field value as third configuration information of the slave device.

The slave device configuration instruction is an instruction with a configuration function and is used for generating a slave device attribute field of the slave device in the server. The slave device refers to a child device of the internet of things device. The internet of things device is the parent device of the slave device. For example, when the internet of things device is a power control device, the sub-device of the internet of things device may be an intelligent socket controlled by the power control device.

In particular, an thing networking device may also have a slave child device, and the child device's associated attribute field may be generated based on the parent device's associated attribute field. The terminal may send a slave device configuration instruction to the server. After receiving the slave device configuration instruction, the server acquires a first device attribute field and a second device attribute field corresponding to the internet of things device identifier carried by the slave device configuration instruction, generates a slave device attribute field of the slave device according to the first device attribute field and the second device attribute field, and returns the slave device attribute field of the slave device to the terminal. The terminal may display the slave device attribute field in the device configuration interface, and the user may input a field value of the slave device attribute field in the device configuration interface and transmit it to the server. After receiving the field value corresponding to the attribute field of the slave device, the server takes the attribute field of the slave device and the corresponding field value as configuration information of the slave device, and stores the configuration information of the slave device.

In one embodiment, the internet of things device and the slave device of the internet of things device may be stored in an associated manner, and specifically, the internet of things device identifier of the internet of things device and the slave device identifier of the slave device of the internet of things device may be associated, where the configuration information of the slave device includes the slave device identifier.

In the above embodiment, the attribute fields of the slave devices under the internet of things device can be generated quickly and in a linked manner according to the attribute fields of the internet of things device, so that certain repeated operation is avoided, and the configuration efficiency of the slave devices is improved.

In a specific embodiment, the method of configuring an internet of things device is described in conjunction with the illustration of fig. 8. Fig. 8 is a schematic diagram of an internet of things device configuration method in one embodiment.

Specifically, the product model is a general model abstracting the same type of internet of things equipment, configuration information of product attribute fields of the product model can be configured through a visual interface (product configuration interface), and the product model is created according to the configured configuration information of the configured product attribute fields. The internet of things device is a specific example of a product model, and configuration information of the internet of things device can be configured through a visual interface (internet of things device configuration interface). The configuration information of the internet of things device refers to a field value corresponding to the attribute field of the internet of things device. The internet of things device attribute field comprises a personalized device attribute field and a general device attribute field, wherein the general device attribute field can be generated in linkage according to a product attribute field configured in a product model. The personalized equipment attribute field is a product attribute field which is not configured in the product model, and can be written in advance through a fixed code or preset according to the physical position of the internet of things equipment. And combining the universal equipment attribute field and the personalized equipment attribute field to obtain a final Internet of things equipment configuration interface. The user can input a field value in the configuration interface of the Internet of things equipment to realize the configuration of the Internet of things equipment. In addition, the internet of things device may also have a slave device, and configuration information of the slave device may be configured through a visual interface (slave device configuration interface). The configuration information of the slave device refers to a field value corresponding to the slave device attribute field. The slave device attribute field of the slave device may be generated from the internet of things device attribute field of the internet of things device. The user can input field values in the slave device configuration interface to realize the configuration of the slave device. The relevant information of the product model, the internet of things device and the slave device can be stored in the server. All the visual interfaces can be displayed in the corresponding clients of the server.

In the above embodiment, the universal equipment attribute field of the internet of things equipment under the product model can be quickly and in linkage generated according to the universal attribute field configured in the product model, so that certain repeated operation is avoided, and the efficiency of configuring the internet of things equipment is improved. And corresponding personalized equipment attribute fields are configured for different Internet of things equipment, and the personalized equipment attribute fields are combined with the general equipment attribute fields, so that the personalized configuration of the Internet of things equipment can be realized, and the flexibility of the configuration of the Internet of things equipment is improved. Moreover, the attribute field of the slave device under the Internet of things device can be generated quickly and in a linked manner according to the attribute field of the Internet of things device, so that certain repeated operation is avoided, and the configuration efficiency of the slave device is improved.

It should be understood that each step in the above-described flowcharts is shown in order as indicated by the arrow, but the steps are not necessarily performed in order as indicated by the arrow. The steps are not strictly limited to the order of execution unless explicitly recited herein, and the steps may be executed in other orders. Moreover, at least some of the steps in the flowcharts described above may include a plurality of steps or stages, which are not necessarily performed at the same time, but may be performed at different times, and the order of execution of the steps or stages is not necessarily sequential, but may be performed in turn or alternately with at least a part of other steps or stages.

In one embodiment, as shown in fig. 9, there is provided an apparatus for configuring an internet of things device, including: an instruction receiving module 902, a field generating module 904, a field feedback module 906, and a configuration information determining module 908, wherein:

the instruction receiving module 902 is configured to receive an internet of things device configuration instruction, where the internet of things device configuration instruction carries a product model identifier of a target product model;

the field generating module 904 is configured to search a product attribute field corresponding to the product model identifier, and generate a first device attribute field corresponding to the to-be-configured internet of things device according to the product attribute field;

the field feedback module 906 is configured to feed back the first device attribute field to the sender corresponding to the configuration instruction of the internet of things device, so that the sender displays the first device attribute field, and obtain a first field value recorded for the first device attribute field;

the configuration information determining module 908 is configured to receive a first field value corresponding to a first device attribute field sent by the sender, and store the first device attribute field and the first field value as first configuration information of the internet of things device.

In one embodiment, the instruction receiving module is further configured to receive a product model query instruction sent by the sending end, where the product model query instruction carries a user identifier; searching at least one product model corresponding to the user identifier, and generating a product model list according to the searched product model; and feeding back the product model list to the sending end so that the sending end displays the product model list, acquiring a product model selected from the product model list as a target product model, and generating a configuration instruction of the Internet of things equipment according to the target product model.

In one embodiment, the instruction receiving module is further configured to receive a product model configuration instruction sent by the sending end, where the product model configuration instruction carries configuration information of a product attribute field and a user identifier, the configuration information of the product attribute field is generated according to a field configuration operation of a product model configuration interface acting on the sending end, the product model configuration interface includes a candidate field area and a field editing area, the candidate field area displays a product model preset field, and the field editing area is used to input a newly added field; creating a product model according to configuration information of the product attribute field; and storing the created product model and the user identification in a correlated way.

In one embodiment, the first device attribute field carries a field constraint condition, wherein the field constraint condition is determined according to configuration information of the product attribute field, and the transmitting end acquires an initial field value recorded for the first device attribute field; when the initial field value meets the field constraint condition, taking the initial field value as a first field value; and when the initial field value does not meet the field constraint condition, generating and displaying prompt information.

In one embodiment, the field feedback module is further configured to send a second device attribute field of the internet of things device to the sender, so that the sender displays the second device attribute field, and obtains a second field value recorded for the second device attribute field, where the second device attribute field is an internet of things device preset field of the internet of things device. The configuration information determining module is further configured to receive a second field value sent by the sending end, and store the second device attribute field and the second field value as second configuration information of the internet of things device.

In one embodiment, the instruction receiving module is further configured to receive a slave device configuration instruction, where the slave device configuration instruction carries an internet of things device identifier of the internet of things device. The field generation module is further configured to generate a slave device attribute field of the slave device according to the first device attribute field and the second device attribute field corresponding to the internet of things device identifier. The field feedback module is further configured to feed back the slave device attribute field to the sender, so that the sender displays the slave device attribute field, and obtains a third field value recorded for the slave device attribute field. The configuration information determining module is further configured to receive a third field value corresponding to the slave device attribute field returned by the sending end, and store the slave device attribute field and the third field value as third configuration information of the slave device.

For specific limitation of the configuration device of the internet of things device, reference may be made to the limitation of the configuration method of the internet of things device hereinabove, and the description thereof will not be repeated here. All or part of the modules in the configuration device of the internet of things equipment can be realized by software, hardware and a combination thereof. The above modules may be embedded in hardware or may be independent of a processor in the computer device, or may be stored in software in a memory in the computer device, so that the processor may call and execute operations corresponding to the above modules.

In one embodiment, a computer device is provided, which may be a server, and the internal structure of which may be as shown in fig. 10. The computer device includes a processor, a memory, and a network interface connected by a system bus. Wherein the processor of the computer device is configured to provide computing and control capabilities. The memory of the computer device includes a non-volatile storage medium and an internal memory. The non-volatile storage medium stores an operating system, computer programs, and a database. The internal memory provides an environment for the operation of the operating system and computer programs in the non-volatile storage media. The database of the computer device is used for storing a product model, configuration information of the internet of things device, configuration information of the slave device and the like. The network interface of the computer device is used for communicating with an external terminal through a network connection. The computer program, when executed by a processor, implements a method for configuring an internet of things device.

It will be appreciated by those skilled in the art that the structure shown in fig. 10 is merely a block diagram of some of the structures associated with the present application and is not limiting of the computer device to which the present application may be applied, and that a particular computer device may include more or fewer components than shown, or may combine certain components, or have a different arrangement of components.

In one embodiment, a computer device is provided, including a memory and a processor, the memory storing a computer program that, when executed by the processor, causes the processor to perform the steps of the above-described method of configuring an internet of things device. The step of the method for configuring the internet of things device may be a step in the method for configuring the internet of things device in the foregoing embodiments.

In one embodiment, a computer readable storage medium is provided, storing a computer program, which when executed by a processor, causes the processor to perform the steps of the above-described method of configuring an internet of things device. The step of the method for configuring the internet of things device may be a step in the method for configuring the internet of things device in the foregoing embodiments.

Those skilled in the art will appreciate that implementing all or part of the above described methods may be accomplished by way of a computer program stored on a non-transitory computer readable storage medium, which when executed, may comprise the steps of the embodiments of the methods described above. Any reference to memory, storage, database, or other medium used in embodiments provided herein may include at least one of non-volatile and volatile memory. The nonvolatile Memory may include Read-Only Memory (ROM), magnetic tape, floppy disk, flash Memory, optical Memory, or the like. Volatile memory can include random access memory (Random Access Memory, RAM) or external cache memory. By way of illustration, and not limitation, RAM can be in the form of a variety of forms, such as static random access memory (Static Random Access Memory, SRAM) or dynamic random access memory (Dynamic Random Access Memory, DRAM), and the like.

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

The above examples merely represent a few embodiments of the present application, which are described in more detail and are not to be construed as limiting the scope of the invention. It should be noted that it would be apparent to those skilled in the art that various modifications and improvements could be made without departing from the spirit of the present application, which would be within the scope of the present application. Accordingly, the scope of protection of the present application is to be determined by the claims appended hereto.

Claims (10)

1. An internet of things device configuration method, comprising:

receiving an Internet of things equipment configuration instruction, wherein the Internet of things equipment configuration instruction carries a product model identifier of a target product model;

searching a product attribute field corresponding to the product model identifier, and converting the product attribute field to generate a first equipment attribute field corresponding to the to-be-configured Internet of things equipment; the first equipment attribute field is a general equipment attribute field of the internet of things equipment;

Feeding back the first equipment attribute field to a sending end corresponding to the Internet of things equipment configuration instruction, so that the sending end displays the first equipment attribute field and obtains a first field value recorded for the first equipment attribute field;

receiving a first field value corresponding to a first equipment attribute field sent by the sending end, and storing the first equipment attribute field and the first field value as first configuration information of the Internet of things equipment;

transmitting a second equipment attribute field of the internet of things equipment to the transmitting end, so that the transmitting end displays the second equipment attribute field, and acquiring a second field value recorded for the second equipment attribute field, wherein the second equipment attribute field is a personalized equipment attribute field of the internet of things equipment;

and receiving a second field value sent by the sending end, and storing the second equipment attribute field and the second field value as second configuration information of the Internet of things equipment.

2. The method of claim 1, wherein prior to receiving the internet of things device configuration instruction, the method further comprises:

receiving a product model query instruction sent by the sending end, wherein the product model query instruction carries a user identifier;

Searching at least one product model corresponding to the user identifier, and generating a product model list according to the searched product model;

and feeding back the product model list to the sending end, so that the sending end displays the product model list, a product model selected from the product model list is obtained as a target product model, and a configuration instruction of the Internet of things equipment is generated according to the target product model.

3. The method of claim 2, wherein prior to receiving the product model query command sent by the sender, the method further comprises:

receiving a product model configuration instruction sent by the sending end, wherein the product model configuration instruction carries configuration information of product attribute fields and user identification, the configuration information of the product attribute fields is generated according to field configuration operation of a product model configuration interface acting on the sending end, the product model configuration interface comprises a candidate field area and a field editing area, the candidate field area displays a product model preset field, and the field editing area is used for inputting a newly added field;

creating a product model according to the configuration information of the product attribute field;

And storing the created product model and the user identification in a correlated way.

4. The method of claim 3, wherein the first device attribute field carries a field constraint, the field constraint being determined from configuration information of the product attribute field, the obtaining a first field value entered for the first device attribute field comprising:

the transmitting end obtains an initial field value recorded for the first equipment attribute field;

when the initial field value meets the field constraint condition, taking the initial field value as a first field value;

and when the initial field value does not meet the field constraint condition, generating prompt information and displaying the prompt information.

5. The method of claim 1, wherein the product attribute field includes a static attribute field, a dynamic attribute field, and an identity attribute field, and the converting the product attribute field generates a first device attribute field corresponding to the internet of things device to be configured, including:

taking the static attribute field and the dynamic attribute field as a first general device attribute field;

converting the identity attribute field to generate a second general equipment attribute field;

And merging the first general equipment attribute field and the second general equipment attribute field to obtain the first equipment attribute field.

6. The method of claim 5, wherein the method further comprises:

receiving a slave device configuration instruction, wherein the slave device configuration instruction carries an Internet of things device identifier of the Internet of things device;

generating a slave device attribute field of the slave device according to the first device attribute field and the second device attribute field corresponding to the Internet of things device identifier;

feeding back the attribute field of the slave device to the transmitting end so that the transmitting end displays the attribute field of the slave device and acquires a third field value recorded for the attribute field of the slave device;

and receiving a third field value corresponding to the attribute field of the slave equipment returned by the transmitting end, and storing the attribute field and the third field value of the slave equipment as third configuration information of the slave equipment.

7. An internet of things device configuration apparatus, the apparatus comprising:

the instruction receiving module is used for receiving an Internet of things equipment configuration instruction which carries a product model identifier of a target product model;

The field generation module is used for searching a product attribute field corresponding to the product model identifier, and converting the product attribute field to generate a first equipment attribute field corresponding to the Internet of things equipment; the first equipment attribute field is a general equipment attribute field of the internet of things equipment;

the field feedback module is used for feeding back the first equipment attribute field to a sending end corresponding to the Internet of things equipment configuration instruction so that the sending end displays the first equipment attribute field and acquires a first field value recorded for the first equipment attribute field;

the configuration information determining module is used for receiving a first field value returned by the sending end and storing the first equipment attribute field and the first field value as first configuration information of the Internet of things equipment;

the configuration information determining module is further configured to send a second equipment attribute field of the internet of things equipment to the sending end, so that the sending end displays the second equipment attribute field, and obtains a second field value recorded for the second equipment attribute field, where the second equipment attribute field is a personalized equipment attribute field of the internet of things equipment; and receiving a second field value sent by the sending end, and storing the second equipment attribute field and the second field value as second configuration information of the Internet of things equipment.

8. The apparatus of claim 7, wherein the configuration information determination module is further configured to obtain field information for the product attribute field, the field information including field constraints; and when the first field value meets the field constraint condition, storing the first equipment attribute field and the first field value as first configuration information of the Internet of things equipment.

9. A computer device comprising a memory and a processor, the memory storing a computer program, characterized in that the processor implements the steps of the method of any of claims 1 to 6 when the computer program is executed.

10. A computer readable storage medium, on which a computer program is stored, characterized in that the computer program, when being executed by a processor, implements the steps of the method of any of claims 1 to 6.

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