CN115174704A - Integration method capable of realizing unified connection of multiple IoT platform Internet of things devices - Google Patents

Abstract

The invention provides an integration method capable of realizing uniform connection of Internet of things equipment with multiple IoT platforms. The integration method capable of realizing unified connection of the multi-IoT platform Internet of things equipment comprises the following steps: s1: the method comprises the steps that equipment reports equipment information through reliable connection established between the equipment and a three-party Internet of things platform, wherein the information comprises equipment state, attributes, events or instructions; s2: the three-party Internet of things platform forwards the equipment information to the Internet of things platform through the IOT unified connector, and equipment information reporting is achieved. According to the integration method capable of achieving unified connection of the multi-IoT platform Internet of things devices, provided by the invention, the three-party Internet of things device docking capability is provided for the Internet of things platform, the devices under different Internet of things platforms can be interconnected and intercommunicated, the ecological barriers of all the Internet of things platforms are broken, the device linkage under different Internet of things platforms under the same scene is realized, and cross-platform device interconnection, intercommunication and unified management are realized.

Description

Integration method capable of realizing unified connection of multiple IoT platform Internet of things devices

Technical Field

The invention relates to the field of Internet of things, in particular to an integration method capable of realizing uniform connection of multiple IoT platform Internet of things devices.

Background

Along with popularization of application of the internet of things, more and more devices are connected to the internet of things platform, and due to ecological barriers of the internet of things platforms, interconnection and intercommunication and unified control of the devices of the platforms cannot be achieved. The unified connection integration of the IoT platforms is mainly used for realizing the unified control of the IoT equipment, and mainly faces to cloud docking, namely reliable connection is established among the IoT platforms, equipment messages forwarded by the three-party IoT Internet of things in real time in a docked manner are received through the reliable connection manner, the equipment state, the object model attribute, events or instructions are reported to the IoT platforms in real time, the IoT platforms send down control instructions to the three-party IoT platforms through an Http protocol or other manners, and the three-party IoT platforms issue the control instructions to the equipment to realize cross-platform equipment control. The equipment attribute is used for describing the current state of the equipment, and is mainly used for displaying or detecting the real-time state of the equipment in function, for example, the intelligent bulb has the equipment attributes of color temperature, brightness, a power switch and the like, the equipment state refers to the on-line and off-line states of the equipment, the connection state of the equipment and the Internet of things platform is mainly described, the equipment event or instruction refers to an event triggered by the fact that the equipment attribute meets a certain condition or multiple conditions, the object model refers to the description of the event, attribute and operation of the equipment, the issuing control refers to remote control of the Internet of things platform, the equipment is enabled to execute specific instruction actions, and the reliable connection refers to a network connection mode established by an upper application protocol based on a TCP protocol.

Generally, an internet of things platform has a capability of pushing messages in real time, message forwarding can be realized by establishing a message pushing channel, and main protocols for pushing messages in real time include an MQTT protocol, an AMQP protocol and the like.

For customers, the equipment of each platform purchased by the customers is expected to be uniformly managed, and the uniform control of equipment of each brand under various scenes is realized. Due to ecological barriers of each platform, each platform device cannot realize unified control, a customer needs to order the same brand of device in a unified mode, purchased devices of different brands can only be managed independently, unified management cannot be realized, maintenance cost is increased, and purchasing cost is also increased.

Therefore, there is a need to provide an integration method capable of implementing unified connection of multiple IoT platform internet of things devices to solve the above technical problems.

Disclosure of Invention

The invention provides an integration method capable of realizing uniform connection of multiple IoT platform Internet of things devices, and solves the problem that due to ecological barriers of each platform, each platform device cannot realize uniform control. Therefore, a uniform Internet of things connection mode is provided for the client, the client can be accessed to the management platform more quickly, and the platform devices can be interconnected, uniformly controlled and uniformly managed in each scene.

In order to solve the technical problem, the invention provides an integration method capable of realizing unified connection of multiple IoT platform Internet of things devices, which comprises the following steps:

s1: the device is connected with a three-party Internet of things platform, and reports device information through reliable connection established between the device and the three-party Internet of things platform, wherein the device information comprises a device state, a physical model attribute, an event or an instruction;

s2: the three-party Internet of things platform is connected with a multi-IOT unified connector, the multi-IOT unified connector comprises a three-party Internet of things platform connector, a model translator, an Internet of things equipment connector, an Internet of things model mapper and an Internet of things configuration manager, and the three-party Internet of things platform connector receives equipment information forwarded by the three-party Internet of things platform through reliable connection established with the three-party Internet of things platform;

s3: the three-party Internet of things platform connector converts the equipment information into the Internet of things platform equipment state, the object model attribute, the event or the instruction through the object model translator;

s4: the Internet of things equipment connector is reliably connected with the Internet of things platform, and converted three-party Internet of things platform equipment information is reported to the Internet of things platform;

s5: the Internet of things platform issues control to the Internet of things equipment connector through reliable connection, the Internet of things equipment connector transmits an issued command into the object model translator, and the issued command is reversely translated into a three-party Internet of things platform calling service attribute;

s6: the object model translator transmits the translated three-party Internet of things platform calling service attribute to the three-party Internet of things platform connector, and the three-party Internet of things platform calling service attribute is submitted to the three-party Internet of things platform as a parameter by calling a remote control interface;

s7: the three-party Internet of things platform receives the request of the three-party Internet of things platform connector and then sends control to the equipment, the equipment responds to the three-party Internet of things platform instruction to make a specified action, and an instruction execution result is returned to the three-party Internet of things platform;

s8: the three-party Internet of things platform reports the equipment response result to the three-party Internet of things platform connector, the three-party Internet of things platform connector delivers the response result to the object model translator to translate the Internet of things platform response parameter, and finally the translated Internet of things platform response parameter is notified to the Internet of things platform through the Internet of things equipment connector, and the equipment issuing control process is completed.

Preferably, the internet of things device connector in S4 mainly functions to report a device state, an object model, an event, or an instruction to a platform or issue the device state, the object model, the event, or the instruction to a device.

Preferably, the internet of things equipment connector in the step S5 transmits an instruction control to the object model translator, and reversely translates the three-party internet of things platform call service attribute.

Preferably, after receiving the request of the three-party internet of things platform connector in the S6, the three-party internet of things platform issues control to the device, and the device responds to the instruction of the three-party internet of things platform to perform a specified action and returns the instruction execution result to the three-party internet of things platform.

Preferably, the multi-IoT internet-of-things system further comprises an Internet-of-things configuration manager and an Internet-of-things model mapper, and the three-party Internet-of-things platform connector, the model translator, the Internet-of-things equipment connector, the Internet-of-things configuration manager and the Internet-of-things model mapper jointly form the multi-IoT Internet-of-things unified connector.

Preferably, the client configures the butted three-party internet of things through the internet of things configuration manager, and establishes product mapping, object model mapping and object model description between the three-party internet of things platform and the internet of things platform through the internet of things object model mapper.

Preferably, the device information includes a device status, attribute, event or instruction.

Compared with the related art, the integration method capable of realizing unified connection of the multi-IoT platform Internet of things equipment has the following beneficial effects:

the invention provides an integration method capable of realizing uniform connection of multiple IoT (Internet of things) platform Internet of things devices, which can be accessed to a management platform more quickly by providing a uniform Internet of things connection mode for customers, so that the platform devices can be interconnected, uniformly controlled and uniformly managed in various scenes. The multi-IoT platform Internet of things equipment is uniformly connected, the three-party Internet of things platform equipment is synchronized and brought into the management range of the uniform Internet of things platform through the visual configuration page, the uniform management and monitoring of the equipment are realized, and a client does not need to operate a plurality of Internet of things platforms to carry out equipment management and equipment monitoring. By providing the three-party Internet of things equipment docking capability for the Internet of things platforms, equipment under different Internet of things platforms can be interconnected and intercommunicated, ecological barriers of the Internet of things platforms are broken, equipment linkage under different Internet of things platforms under scenes is realized, unified management of the equipment is realized, and a client only needs to manage the equipment under one Internet of things management platform; and cross-platform equipment interconnection and intercommunication are realized.

Drawings

Fig. 1 is a schematic flowchart of an integration method capable of implementing unified connection of multiple IoT platform internet of things devices according to the present invention;

fig. 2 is a system schematic block diagram of an integration method capable of implementing unified connection of multiple IoT platform internet of things devices according to the present invention;

FIG. 3 is a schematic diagram of a configuration system for creating a three-party Internet of things;

FIG. 4 is a schematic diagram of a system for creating product mappings;

FIG. 5 is a schematic diagram of a mapping configuration system for creating an object model;

FIG. 6 is a schematic diagram of an object model description system.

Reference numbers in the figures: 101. device, 102, tripartite internet of things platform, 103, tripartite internet of things platform connector, 104, object model translator, 105, internet of things device connector, 106, internet of things platform, 107, internet of things configuration manager, 108, internet of things object model mapper, 109, multi-IoT internet of things unified connector.

Detailed Description

The invention is further described with reference to the following figures and embodiments.

Please refer to fig. 1, fig. 2, fig. 3, fig. 4, and fig. 5 in combination, wherein fig. 1 is a schematic block diagram of a system for implementing an integration method for unified connection of multiple IoT platform internet of things devices according to the present invention; FIG. 2 is a schematic diagram of a configuration system for creating a three-party Internet of things; FIG. 3 is a schematic diagram of a system for creating product mappings; FIG. 4 is a schematic diagram of a mapping configuration system for creating an object model; FIG. 5 is a schematic diagram of an object model description system.

First embodiment

An integration method capable of realizing unified connection of multiple IoT platform Internet of things devices comprises the following steps:

s1: the device comprises a device (101), wherein the device (101) is connected with a three-party Internet of things platform (102), the device (101) reports state information of the device (101) by establishing reliable connection with the three-party Internet of things platform (102), and the device information comprises a device state, an object model attribute, an event or an instruction;

s2: the three-party Internet of things platform (102) is connected with a multi-IOT (Internet of things) unified connector, and the multi-IOT Internet of things unified connector comprises a three-party Internet of things platform connector (103), an object model translator (104), an Internet of things equipment connector (105), an Internet of things object model mapper (108) and an Internet of things configuration manager (107). The tripartite Internet of things platform connector (103) is used for receiving the equipment information forwarded by the tripartite Internet of things platform (102) by establishing reliable connection with the tripartite Internet of things platform (102);

s3: the three-party Internet of things platform connector (103) converts the equipment information into an Internet of things platform equipment state, an Internet of things model attribute, an event or an instruction through an object model translator (104);

s4: the Internet of things equipment connector (105) is reliably connected with the Internet of things platform (106), and the converted three-party Internet of things platform equipment information is reported to the Internet of things platform (106);

s5: the Internet of things platform (106) issues control to the Internet of things equipment connector (105) through reliable connection, the Internet of things equipment connector (105) transmits an issuing instruction into the object model translator (104), and the issuing instruction is reversely translated into a three-party Internet of things platform calling service attribute;

s6: the object model translator (104) transmits the translated three-party Internet of things platform calling service attribute to the three-party Internet of things platform connector (103), and the three-party Internet of things platform calling service attribute is submitted to the three-party Internet of things platform (102) as a parameter by calling a remote control interface;

s7: after receiving the request of the three-party Internet of things platform connector (103), the three-party Internet of things platform (102) issues control to the equipment (101), the equipment (101) responds to the instruction of the three-party Internet of things platform (102), makes a specified action, and returns the instruction execution result to the three-party Internet of things platform (102);

s8, the three-party Internet of things platform (102) reports the equipment response result to the three-party Internet of things platform connector (103), the three-party Internet of things platform connector (103) sends the response result to the object model translator (104) to translate the Internet of things platform response parameter, and finally the translated Internet of things platform response parameter is notified to the Internet of things platform (106) through the Internet of things equipment connector (105), so that the equipment issuing control flow is completed.

The internet of things device connector (105) in the S4 mainly has the function of reporting the device state, the object model, the event or the instruction to the platform or issuing the device state, the object model, the event or the instruction to the device (101).

And in the S5, the Internet of things equipment connector (105) transmits an instruction control to the object model translator (104) and reversely translates the three-party Internet of things platform calling service attribute.

After the three-party Internet of things platform (102) in the S6 receives the request of the three-party Internet of things platform connector (103), the control is sent to the equipment (101), the equipment responds to the instruction of the three-party Internet of things platform (102) to make a specified action, and an instruction execution result is returned to the three-party Internet of things platform (102).

The device information includes device status, attributes, events or instructions.

Compared with the related technology, the integration method capable of realizing the unified connection of the multi-IoT platform Internet of things equipment has the following beneficial effects:

the management platform can be accessed to the client more quickly by providing a uniform Internet of things connection mode for the client, so that the platform devices are interconnected, uniformly controlled and uniformly managed under various scenes. The multi-IoT platform Internet of things equipment is uniformly connected, the three-party Internet of things platform equipment is synchronized and brought into the management range of the uniform Internet of things platform through the visual configuration page, the uniform management and monitoring of the equipment are realized, and a client does not need to operate a plurality of Internet of things platforms to carry out equipment management and equipment monitoring. By providing the three-party Internet of things equipment docking capability for the Internet of things platforms, equipment under different Internet of things platforms can be interconnected and intercommunicated, ecological barriers of the Internet of things platforms are broken, equipment linkage under different Internet of things platforms under scenes is realized, unified management of the equipment is realized, and a client only needs to manage the equipment under one Internet of things management platform; and the cross-platform equipment interconnection and intercommunication are realized.

A second embodiment.

The method comprises the following steps:

s5: the Internet of things platform (106) issues control to the Internet of things equipment connector (105) through reliable connection, the Internet of things equipment connector (105) transmits an issued command to the object model translator (104), and the three-party Internet of things platform calls a service attribute through reverse translation;

s6: the object model translator (104) transmits the translated three-party Internet of things platform calling service attribute to the three-party Internet of things platform connector (103), and the three-party Internet of things platform calling service attribute is submitted to the three-party Internet of things platform (102) as a parameter by calling a remote control interface;

s7: after receiving the request of the three-party Internet of things platform connector (103), the three-party Internet of things platform (102) issues control to the equipment (101), the equipment (101) responds to the instruction of the three-party Internet of things platform (102), makes a specified action, and returns the instruction execution result to the three-party Internet of things platform (102);

s8: the three-party Internet of things platform (102) reports the equipment response result to the three-party Internet of things platform connector (103), the three-party Internet of things platform connector (103) sends the response result to the object model translator (104) to translate the Internet of things platform response parameter, and finally the translated Internet of things platform response parameter is notified to the Internet of things (106) through the Internet of things equipment connector (105), so that the equipment issuing control flow is completed.

And in the S5, the Internet of things equipment connector (105) transmits an instruction control to the object model translator (104) and reversely translates the three-party Internet of things platform calling service attribute.

And in the S6, the three-party Internet of things platform (102) sends control to the equipment (101) after receiving the request of the three-party Internet of things platform connector (103), the equipment responds to the instruction of the three-party Internet of things platform (102) to make a specified action, and an instruction execution result is returned to the three-party Internet of things platform (102).

Has the following beneficial effects: the translation device is used for mutually converting the object models of the two Internet of things platforms, accurately reporting the attributes and events of the converted object models to the respective Internet of things platforms, and issuing instructions to the equipment. Cloud docking is achieved.

Third embodiment

The multi-IoT Internet of things system comprises a three-party IoT platform connector (103), an IoT model translator (104), an IoT equipment connector (105), an IoT configuration manager (107) and an IoT object model mapper (108), and further comprises an IoT configuration manager (107) and an IoT object model mapper (108), wherein the three-party IoT platform connector, the IoT model translator (104), the IoT equipment connector (105), the IoT configuration manager (107) and the IoT object model mapper (108) jointly form a multi-IoT unified connector (109).

The customer configures the butted three-party Internet of things configuration through an Internet of things configuration manager (107), and establishes product mapping, object model mapping and object model description of a three-party Internet of things platform (102) and an Internet of things platform (106) through an Internet of things object model mapper (108).

Has the following beneficial effects: the three-party Internet of things platform equipment is synchronized and brought into the management range of the unified Internet of things platform, and equipment management and monitoring are realized. The client can carry out equipment management and equipment monitoring without operating a plurality of internet of things management platforms.

The above description is only an embodiment of the present invention, and is not intended to limit the scope of the present invention, and all equivalent structures or equivalent processes performed by the present invention or directly or indirectly applied to other related technical fields are included in the scope of the present invention.

Claims (7)

1. An integration method capable of realizing unified connection of multiple IoT platform Internet of things devices is characterized by comprising the following steps:

s1: the device (101) is connected with a three-party Internet of things platform (102), the device (101) reports state information of the device (101) by establishing reliable connection with the three-party Internet of things platform (102), and the device information comprises a device state, a physical model attribute, an event or an instruction;

s2: the three-party Internet of things platform (102) is connected with a multi-IOT unified connector, the multi-IOT unified connector comprises a three-party Internet of things platform connector (103), an object model translator (104), an Internet of things equipment connector (105), an Internet of things object model mapper (108) and an Internet of things configuration manager (107), and the three-party Internet of things platform connector (103) receives equipment information forwarded by the three-party Internet of things platform (102) by establishing reliable connection with the three-party Internet of things platform (102);

s3: the three-party Internet of things platform connector (103) converts the equipment information into an Internet of things platform equipment state, an Internet of things model attribute, an event or an instruction through an object model translator (104);

s4: the Internet of things equipment connector (105) is reliably connected with the Internet of things platform (106), and converted three-party Internet of things platform equipment information is reported to the Internet of things platform (106);

s5: the Internet of things platform (106) issues control to the Internet of things equipment connector (105) through reliable connection, the Internet of things equipment connector (105) transmits an issued instruction to the object model translator (104), and the three-party Internet of things platform calls service attributes through reverse translation;

s6: the object model translator (104) transmits the translated three-party Internet of things platform calling service attribute to the three-party Internet of things platform connector (103), and the three-party Internet of things platform calling service attribute is used as a parameter to be submitted to the three-party Internet of things platform (102) by calling a remote control interface;

s7: after receiving the request of the three-party Internet of things platform connector (103), the three-party Internet of things platform (102) issues control to the equipment (101), the equipment (101) responds to the instruction of the three-party Internet of things platform (102), makes a specified action and returns the instruction execution result to the three-party Internet of things platform (102);

s8: the three-party Internet of things platform (102) reports the equipment response result to the three-party Internet of things platform connector (103), the three-party Internet of things platform connector (103) delivers the response result to the object model translator (104) to translate the Internet of things platform response parameter, and finally the translated Internet of things platform response parameter is notified to the Internet of things platform (106) through the Internet of things equipment connector (105), so that the equipment issuing control process is completed.

2. The integration method capable of realizing unified connection of multiple IoT platforms, the IoT platform, the IoT internet of things device in S4 connector (105) mainly functions to report device status, object model, event or command to the platform or issue to the device.

3. The integration method capable of achieving unified connection of multiple IoT platforms, internet of things devices, according to claim 2, wherein the internet of things device connector (105) in S5 transmits an instruction control to the object model translator (104) to reversely translate the three-way internet of things platform call service attributes.

4. The integration method capable of realizing uniform connection of multiple IoT platform Internet of things devices according to claim 1, wherein after receiving the request of the three-party Internet of things platform connector (103) in S6, the three-party Internet of things platform (102) issues control to the device (101), and the device responds to the instruction of the three-party Internet of things platform (102) to perform a specified action and returns the instruction execution result to the three-party Internet of things platform (102).

5. The integration method capable of achieving the unified connection of the multi-IoT platform IOT devices as claimed in claim 1, further comprising an IOT configuration manager (107) and an IOT physical model mapper (108), wherein the three-party IOT platform connector (103), the physical model translator (104), the IOT device connector (105), the IOT configuration manager (107) and the IOT physical model mapper (108) together form the multi-IoT IOT unified connector (109).

6. The integration method capable of achieving unified connection of multiple IoT platform IOT devices according to claim 5, wherein the customer configures the docked three-party IOT configuration through the IOT configuration manager (107), and establishes product mapping, object model mapping and object model description of the three-party IOT platform (102) and the IOT platform (106) through the IOT object model mapper (108).

7. The integration method capable of implementing unified connectivity for multi-IoT platform internet of things (lot) devices of claim 1, wherein the device information comprises device status, attributes, events or instructions.

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