CN113542313B - Third-party Internet of things platform equipment docking system and method - Google Patents

Abstract

The invention discloses a third-party Internet of things platform equipment docking system and a third-party Internet of things platform equipment docking method. The authentication service is used for receiving the authority information of the newly added third-party Internet of things platform and creating an authority module of the third-party Internet of things platform; the data analysis service is used for receiving a newly added plug-in of the third-party Internet of things platform, creating a platform space of the third-party Internet of things platform, and storing the plug-in of the third-party Internet of things platform into the platform space; the gateway service receives equipment data sent by the third-party Internet of things platform, calls an authentication service to perform authority authentication on the equipment data, and uploads the data when the equipment data is successfully authenticated; the adaptation service calls a data analysis service to perform data analysis on the equipment data to obtain analysis data, and the analysis data is transmitted to the local Internet of things equipment management platform. The system does not need to be developed again, the operation is simple and convenient, and the maintenance and development cost of the system is reduced.

Description

Third-party Internet of things platform equipment docking system and method

Technical Field

The embodiment of the invention relates to the technical field of Internet of things, in particular to a third-party Internet of things platform equipment docking system and method.

Background

The internet of things originates from the field of media and is the third revolution of the information technology industry. The internet of things is that any object is connected with a network through information sensing equipment according to an agreed protocol, and the object performs information exchange and communication through an information transmission medium so as to realize functions of intelligent identification, positioning, tracking, supervision and the like.

In order to solve the problem that various devices can be safely brought into the same management and monitoring of an Internet of things device management platform, the Internet of things device management platform is created, and some devices with the capability of being directly connected with a network can be directly connected into the Internet of things device management platform.

However, the devices of other third-party internet of things platforms cannot be directly connected to the internet of things device management platform, and operations such as data receiving, command issuing, device management and the like need to be performed by means of the third-party internet of things platform. At present, when different third-party Internet of things equipment management platform equipment is faced, the problems of poor expansibility and low compatibility can occur, even some Internet of things equipment management platforms only support one third-party Internet of things platform, when a third-party Internet of things platform needs to be newly added, the third-party Internet of things platform needs to be redeveloped, and the subsequent workload and difficulty are greatly increased.

Disclosure of Invention

The invention provides a third-party Internet of things platform equipment docking system and a third-party Internet of things platform equipment docking method, which are used for realizing rapid docking of third-party Internet of things platform equipment.

In a first aspect, an embodiment of the present invention provides a third-party internet of things platform device docking system, which includes a gateway service, an authentication service, an adaptation service, and a data parsing service, where:

the authentication service is used for receiving authority information of a newly added third-party Internet of things platform and creating an authority module of the third-party Internet of things platform;

the data analysis service is used for receiving a newly added plug-in of the third-party Internet of things platform, creating a platform space of the third-party Internet of things platform, and storing the plug-in of the third-party Internet of things platform into the platform space;

the gateway service receives the equipment data sent by the third-party Internet of things platform, calls the authentication service to carry out authority authentication on the equipment data, and uploads the data when the equipment data is successfully authenticated;

the adaptation service calls the data analysis service to perform data analysis on the equipment data to obtain analysis data, and the analysis data is transmitted to a local internet of things equipment management platform.

In a second aspect, an embodiment of the present invention further provides a third-party internet of things platform device docking method, including:

receiving authority information of a newly added third-party Internet of things platform based on authentication service, and creating an authority module of the third-party Internet of things platform;

receiving a newly added plug-in of the third-party Internet of things platform based on a data analysis service, creating a platform space of the third-party Internet of things platform, and storing the plug-in of the third-party Internet of things platform into the platform space;

receiving equipment data sent by the third-party Internet of things platform based on a gateway service, calling the authentication service to perform authority authentication on the equipment data, and uploading the data when the equipment data is successfully authenticated;

and calling the data analysis service based on the adaptation service to perform data analysis on the equipment data to obtain analysis data, and transmitting the analysis data to a local Internet of things equipment management platform.

According to the technical scheme, the configuration files required by the third-party Internet of things platform are added through the data analysis service and the authentication service, so that the system has the capability of being in butt joint with the third-party Internet of things platform equipment, and when equipment information of the third-party Internet of things platform is received, the third-party Internet of things platform equipment is in butt joint through authority authentication and data analysis. The system does not need to be developed again, the operation is simple and convenient, and the maintenance and development cost of the system is reduced.

Drawings

Fig. 1 is a schematic structural diagram of a third-party internet of things platform device docking system according to an embodiment of the present invention;

fig. 2 is a schematic diagram of an architecture of a data parsing service according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of a newly added platform provided by an embodiment of the present invention;

FIG. 4 is a schematic diagram of a add-on package provided by an embodiment of the present invention;

FIG. 5 is a schematic diagram of a newly added plug-in type provided by an embodiment of the present invention;

fig. 6 is a schematic diagram of third-party internet of things platform device docking provided in the embodiment of the present invention;

FIG. 7 is a diagram of a message queue provided by an embodiment of the present invention;

fig. 8 is a schematic flow chart of a third-party internet of things platform device docking method according to a second embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention. It should be further noted that, for the convenience of description, only some of the structures related to the present invention are shown in the drawings, not all of the structures.

Example one

Fig. 1 is a schematic structural diagram of a third-party platform device docking system for internet of things according to an embodiment of the present invention, where the third-party platform device docking system is used to dock a device of a third-party platform for internet of things quickly. This third party thing networking platform equipment butt joint system includes: gateway service 110, authentication service 120, adaptation service 130, data parsing service 140; wherein the content of the first and second substances,

the authentication service 120 is configured to receive authority information of a newly added third-party internet of things platform, and create an authority module of the third-party internet of things platform;

the data analysis service 140 is configured to receive a newly added plug-in of the third-party internet of things platform, create a platform space of the third-party internet of things platform, and store the plug-in of the third-party internet of things platform into the platform space;

the gateway service 110 receives the device data sent by the third-party internet of things platform, calls the authentication service to perform authority authentication on the device data, and uploads the data when the device data is successfully authenticated;

the adaptation service 130 calls the data analysis service to perform data analysis on the device data to obtain analysis data, and transmits the analysis data to the local internet of things device management platform.

In this embodiment, the local internet of things device management platform may be a building internet of things device management platform, and the third-party internet of things platform is another internet of things platform that is different from the local internet of things device management platform, for example, but not limited to, a telecommunication internet of things platform, a mobile internet of things platform, a hua internet of things platform, a millet internet of things platform, and the like. Because the equipment of the third-party Internet of things platform cannot be directly connected to the local Internet of things equipment management platform in an abutting mode, the operations of receiving data, issuing commands, managing equipment and the like need to be executed by means of the third-party Internet of things platform. In the embodiment, the third-party-based internet of things platform is provided for realizing the rapid docking of the third-party internet of things platform equipment and the local internet of things equipment management platform.

The authentication service 120 is used for authority management of each third-party internet of things platform in butt joint with a local internet of things device management platform, and the authority management includes two parts of user identity authentication and authorization. Before a new device of the third-party internet of things platform is docked, docking preparation is performed based on the authentication service 120 and the data parsing service 140. Specifically, the authentication service 120 includes a first interaction module, where the first interaction module is configured to render a first interaction page on a display device, and receive permission information of the third-party internet of things platform; the authentication service 120 associates the permission module of the third party internet of things platform with the third party internet of things platform. The first interactive page may be a web page, wherein the web page is provided with a permission management control, such as an additional permission control, a deletion permission control, a modification permission control, and the like, and when it is detected that the permission management control is selected, a corresponding permission management instruction is generated. Specifically, when the newly added permission control is clicked or selected, a corresponding permission module is created based on the input permission information. It should be noted that the created permission module and the third-party internet of things platform have an association relationship, for example, the association may be established between the identifier of the third-party internet of things platform and the created permission module, and the corresponding permission module may be quickly called based on the identifier of the third-party internet of things platform. Optionally, the authentication service 120 is provided with an authority relation library, where the authority relation library is used to store authority modules of the third-party internet of things platforms and association relations between the third-party internet of things platforms and the respective authority modules.

Optionally, the permission of the third-party internet of things platform includes one or more of a device positioning permission, a data reporting permission, an instruction issuing permission, a device management permission, and a data subscription permission.

In the embodiment, the authority of the third-party Internet of things platform to be docked can be established on the authentication service through the first interactive page rendered on the display device, re-development is not needed, and maintenance and development cost is reduced.

The data analysis service 140 is used for performing differential analysis on data and instructions of different third-party internet of things platform devices. Because the data formats of the device applications of different third-party internet of things platforms are different, or the device data or the command is encrypted, the data analysis service 140 may convert the data format of the device data or the command of the third-party internet of things platform into a readable data format, or decrypt the encrypted device data or the command.

When a new device of the third-party internet of things platform is docked, the data parsing service 140 dynamically increases a data parsing format required by the third-party internet of things platform to be docked. Specifically, the data parsing service 140 includes a second interaction module, where the second interaction module is configured to render a second interaction page on the display device, and collect management operations on the third-party internet of things platform; the data analysis service is used for executing management operation of the third-party Internet of things platform.

In this embodiment, a second interaction page is rendered on the display device by calling a second interaction module, where the second interaction page may be a web page, and the web page may be provided with a platform management control and a plug-in management control. When the click or the selection of any control is detected, generating a corresponding management instruction to execute corresponding management operation, wherein the management operation comprises platform management operation and plug-in management operation.

Referring to fig. 2, fig. 2 is a schematic diagram of an architecture of a data parsing service provided in an embodiment of the present invention, where the data parsing service includes a platform management module, a plug-in library management module, and a plug-in type management module. The platform management module is used for executing the newly added platform, deleting and modifying the created platform and generating at least one item of a platform list; the plug-in library management module is used for executing at least one of adding a plug-in, deleting and modifying the stored plug-in and generating a plug-in list; the plug-in type management module is used for executing at least one of adding a plug-in type, deleting a stored plug-in type, modifying and generating a plug-in type list.

Optionally, a control corresponding to each function of each management module in the platform management module, the plug-in library management module, and the plug-in type management module is disposed on the second interactive page, for example, a newly added platform control, a platform deletion control, a platform modification control, a platform list management control, a newly added plug-in control, a plug-in deletion control, a plug-in modification control, a plug-in list management control, a newly added plug-in type control, a plug-in type deletion control, a plug-in type modification control, a plug-in type list management control, and the like.

For example, a third-party internet of things platform to be docked can be created through a newly added platform control, referring to fig. 3, where fig. 3 is a schematic diagram of the newly added platform provided by the embodiment of the present invention. As can be seen from fig. 3, when a platform is newly added, the platform name, the platform description, the platform plug-in, and the platform deployment of the newly added third-party internet of things platform should be included. The platform name, the platform description and the platform deployment can be obtained through corresponding input controls on the second interactive page. Further, at least one plug-in corresponding to the third-party internet of things platform to be docked can be added through the newly added plug-in control, where the plug-in is used for analyzing device data and instructions of the third-party internet of things platform, for example, refer to fig. 4, and fig. 4 is a schematic diagram of the newly added plug-in provided in the embodiment of the present invention. As can be seen from fig. 4, when any plug-in is newly added, the new plug-in includes a plug-in name, a plug-in description, a plug-in type, and a data parsing dictionary list of the newly added plug-in, where the parsing dictionary is used to perform format conversion on data to be parsed. The parsing dictionary list may include functions of adding, modifying, and deleting the parsing dictionary. And acquiring the name, description, type and data analysis dictionary list of the plug-in through the corresponding input control on the second interactive page to realize the addition of the plug-in.

Plug-in type management is used to define the common characteristics of a class of plug-ins and to define plug-in templates to provide templates when a plug-in management module creates a data parsing dictionary. Specifically, the plug-in type can be newly added, deleted and modified through a newly added plug-in type control, a plug-in type deleting control, a plug-in type modifying control and the like. Referring to fig. 5, fig. 5 is a schematic diagram of a newly added plug-in type provided by an embodiment of the present invention. When a plug-in type is newly added, the newly added plug-in type comprises a plug-in type name, a plug-in type description and a plug-in template. The plug-in type name, the plug-in type description and the plug-in template can be obtained through a corresponding input control on the second interactive page, and can also be obtained through an input interface so as to realize the newly added plug-in type.

The platform list is used for storing an identifier of a third-party internet of things platform which is docked and is to be docked, and may be, for example, a name of the third-party internet of things platform. The plug-in list is used for storing plug-ins or plug-in identifiers of the third-party Internet of things platforms. The plug-in type list is used for storing type information of plug-ins, wherein the plug-in types include but are not limited to measurement event analysis plug-in types, position event analysis plug-in types, alarm event analysis plug-in types, system instruction analysis plug-in types, application instruction analysis plug-in types and the like.

In this embodiment, the data parsing service 140 and the authentication service 120 receive a configuration file modification operation on an interactive page, and the data parsing service 140 and the authentication service 120 execute the configuration file modification operation, so as to have a capability of interfacing with a third-party internet of things platform to be interfaced. The system does not need to be redeveloped, has strong expansibility and usability, and reduces the maintenance and development cost of the system.

Referring to fig. 6, fig. 6 is a schematic diagram of third-party internet of things platform device docking provided in the embodiment of the present invention. The third-party internet of things platform sends the device data to the gateway service 110, and the gateway service 110 calls the authentication service 120 to perform authority authentication on the device data. The gateway service 110 may remotely invoke the authentication service 120 to perform permission authentication on the device data based on a GPRC (Google Remote Procedure Call Protocol). The device data carries an identifier of a third-party Internet of things platform. The authentication service 120 calls the authority corresponding to the third-party internet of things platform to authenticate the device data based on the identifier of the third-party internet of things platform in the device data. And uploading the equipment data when the authentication is successful, and intercepting the equipment data when the authentication is failed.

Optionally, the system includes a first message queue, and the first message queue is used for storing the device data uploaded by the gateway service 110. The first message queue comprises a plurality of information themes which are respectively used for storing data of different themes. Exemplarily, referring to fig. 7, fig. 7 is a schematic diagram of a message queue provided by an embodiment of the present invention. Wherein the information topic in the first message queue is determined according to the topic published by the gateway service 110. The first message queue receives the device data uploaded by the gateway service 110, stores the device data into a corresponding topic, and sequentially sends the device data in the subscribed topic to the adaptation service 130 according to the topic subscribed by the adaptation service 130.

The device data uploaded by the gateway service 110 may be configured with a theme identifier, and the theme identifier may be set by the gateway service 110 or may be carried by the device data itself. Illustratively, the information topic may include, but is not limited to, a data reporting topic, an instruction issuing topic, a device adding topic, a device deleting topic, a device state changing topic, and the like. The first message queue may add new information topics based on the device data uploaded by the gateway service 110.

Different types of data are stored in different information themes through the first message queue, so that different types of equipment data can be transmitted respectively, the request response time can be reduced, application decoupling can be realized, and the instantaneous concurrency can be improved.

The adaptation service 130 calls the data analysis service 140 to perform data analysis on the device data to obtain analysis data, and transmits the analysis data to the local internet of things device management platform. The data analysis service 140 calls a plug-in corresponding to the third-party internet of things platform based on the identifier of the third-party internet of things platform in the device data, and performs data analysis on the device data to obtain analysis data.

Optionally, the system further includes a security platform, when the device data is encrypted, the data parsing service 140 calls a decryption interface of the security platform to decrypt the device data to obtain plaintext device data, and the data parsing service 140 parses the plaintext device data to obtain parsed data.

The data parsing service 140 transmits the parsed data to the adaptation service 130, and the adaptation service 130 uploads the parsed data to a second message queue, which is used for storing the parsed data transmitted by the adaptation service 130. The second message queue comprises at least one information theme, and the at least one information theme stores analysis data of different themes respectively. And according to the data theme subscribed by the local Internet of things equipment management platform, sending the corresponding analytic data to the local Internet of things equipment management platform, and realizing the butt joint of the third-party Internet of things platform equipment and the local Internet of things equipment management platform.

According to the technical scheme, the configuration files required by the third-party Internet of things platform are added through the data analysis service and the authentication service, so that the system has the capability of being in butt joint with the third-party Internet of things platform equipment, and when equipment information of the third-party Internet of things platform is received, the third-party Internet of things platform equipment is in butt joint through authority authentication and data analysis. The system does not need to be developed again, the operation is simple and convenient, and the maintenance and development cost of the system is reduced.

Example two

Fig. 8 is a schematic flow chart of a third-party internet of things platform device docking method provided in the second embodiment of the present invention, which is suitable for rapidly implementing docking of a third-party internet of things platform device. The method comprises the following steps:

s210, receiving the authority information of the newly added third-party Internet of things platform based on the authentication service, and creating an authority module of the third-party Internet of things platform.

S220, receiving the newly added plug-in of the third-party Internet of things platform based on the data analysis service, creating a platform space of the third-party Internet of things platform, and storing the plug-in of the third-party Internet of things platform to the platform space.

S230, receiving the equipment data sent by the third-party Internet of things platform based on a gateway service, calling the authentication service to perform authority authentication on the equipment data, and uploading the data when the equipment data authentication is successful.

S240, calling the data analysis service based on the adaptation service to perform data analysis on the equipment data to obtain analysis data, and transmitting the analysis data to a local Internet of things equipment management platform.

Optionally, the authentication service calls a first interaction module, renders a first interaction page on the display device, collects permission information of the third-party internet of things platform through the first interaction page, creates a permission module of the third-party internet of things platform, and associates the permission module of the third-party internet of things platform with the third-party internet of things platform.

Optionally, the data parsing service calls a second interaction module, renders a second interaction page on the display device, collects management operations on the third-party internet of things platform, executes the management operations on the third-party internet of things platform, and creates a third-party internet of things platform and a plug-in for the third-party internet of things platform.

And the gateway service uploads the successfully authenticated device data to a first message queue, and the first message queue stores the device data correspondingly according to the theme of the device data. And sequentially sending the device data corresponding to the subscription theme to the adaptation service according to the subscription theme of the adaptation service.

The adaptation service receives analysis data obtained by analyzing the equipment data by the data analysis service and transmits the analysis data to the second message queue, and the second message queue correspondingly stores the analysis data according to the theme and sequentially sends the equipment data corresponding to the subscription theme to the local internet of things equipment management platform according to the subscription theme of the local internet of things equipment management platform.

According to the technical scheme, the configuration files required by the third-party Internet of things platform are added through the data analysis service and the authentication service, so that the system has the capability of being in butt joint with the third-party Internet of things platform equipment, and when equipment information of the third-party Internet of things platform is received, the third-party Internet of things platform equipment is in butt joint through authority authentication and data analysis. The system does not need to be developed again, the operation is simple and convenient, and the maintenance and development cost of the system is reduced.

It is to be noted that the foregoing is only illustrative of the preferred embodiments of the present invention and the technical principles employed. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present invention has been described in greater detail by the above embodiments, the present invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the spirit of the present invention, and the scope of the present invention is determined by the scope of the appended claims.

Claims (6)

1. The utility model provides a third party thing networking platform equipment butt joint system which characterized in that, includes gateway service, authentication service, adaptation service, data analysis service, wherein:

the authentication service is used for receiving authority information of a newly added third-party Internet of things platform and creating an authority module of the third-party Internet of things platform;

the data analysis service is used for receiving a newly added plug-in of the third-party Internet of things platform, creating a platform space of the third-party Internet of things platform, and storing the plug-in of the third-party Internet of things platform into the platform space;

the gateway service receives the equipment data sent by the third-party Internet of things platform, calls the authentication service to carry out authority authentication on the equipment data, and uploads the data when the equipment data is successfully authenticated;

the adaptation service calls the data analysis service to perform data analysis on the equipment data to obtain analysis data, and the analysis data is transmitted to a local Internet of things equipment management platform;

the authentication service comprises a first interaction module, wherein the first interaction module is used for rendering a first interaction page on display equipment and receiving authority information of the third-party Internet of things platform; the authentication service associates an authority module of the third-party Internet of things platform with the third-party Internet of things platform;

the data analysis service comprises a second interaction module, a platform management module, a plug-in library management module and a plug-in type management module, and the management operation comprises platform management operation and plug-in management operation, wherein the second interaction module is used for rendering a second interaction page on display equipment and collecting the management operation on the third-party Internet of things platform; the data analysis service is used for executing management operation of the third-party Internet of things platform;

the plug-in library management module is used for executing at least one of adding a plug-in, deleting and modifying the stored plug-in and generating a plug-in list;

the plug-in type management module is used for executing at least one of adding a plug-in type, deleting a stored plug-in type, modifying and generating a plug-in type list.

2. The system according to claim 1, wherein the system comprises a first message queue and a second message queue, wherein the first message queue is used for storing the device data uploaded by the gateway service;

the second message queue is used for storing the analysis data transmitted by the adaptive service.

3. The system of claim 1, wherein the device data carries an identifier of the third party platform of the internet of things.

4. The system of claim 3, wherein the authentication service invokes a right corresponding to the third-party IOT platform to authenticate the device data based on an identifier of the third-party IOT platform in the device data.

5. The system of claim 3, wherein the data parsing service invokes a plug-in corresponding to the third-party IOT platform based on the identifier of the third-party IOT platform in the device data, and performs data parsing on the device data to obtain parsed data.

6. A third-party Internet of things platform equipment docking method is characterized by comprising the following steps:

receiving authority information of a newly added third-party Internet of things platform based on authentication service, and creating an authority module of the third-party Internet of things platform;

receiving a newly added plug-in of the third-party Internet of things platform based on a data analysis service, creating a platform space of the third-party Internet of things platform, and storing the plug-in of the third-party Internet of things platform into the platform space;

receiving equipment data sent by the third-party Internet of things platform based on a gateway service, calling the authentication service to carry out authority authentication on the equipment data, and uploading the data when the equipment data is successfully authenticated;

calling the data analysis service based on the adaptation service to perform data analysis on the equipment data to obtain analysis data, and transmitting the analysis data to a local internet of things equipment management platform;

the authentication service is used for calling a first interaction module, rendering a first interaction page on display equipment, acquiring authority information of a third-party Internet of things platform through the first interaction page, creating an authority module of the third-party Internet of things platform, and associating the authority module of the third-party Internet of things platform with the third-party Internet of things platform;

calling a second interaction module based on the data analysis service, rendering a second interaction page on display equipment, collecting management operation on the third-party Internet of things platform, executing the management operation of the third-party Internet of things platform, and creating a third-party Internet of things platform and a plug-in of the third-party Internet of things platform;

calling a plug-in library management module to execute at least one of adding a plug-in, deleting and modifying a stored plug-in and generating a plug-in list based on the data analysis service;

and calling a plug-in type management module based on the data analysis service to execute at least one of adding a plug-in type, deleting a stored plug-in type, modifying and generating a plug-in type list.

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