CN115695479A - Internet of things communication platform and internet of things communication method - Google Patents

Abstract

The invention discloses an Internet of things communication platform and an Internet of things communication method, wherein the Internet of things communication platform comprises: the application server is provided with a plurality of communication interfaces which are respectively used for being connected with third-party service platforms corresponding to a plurality of communication types so as to realize interaction of communication data between the application server and the third-party service platforms; the network server is connected with the application server and is used for receiving the communication data sent by the application server and transmitting the communication data to the network module for data processing; and the file information manager is connected with the application server and is used for providing preset communication identification information for the application server so that the application server distributes the communication data to the corresponding network server according to the preset communication identification information. The method and the device can reduce the complexity of the network service program and improve the communication service quality of the Internet of things.

Description

Internet of things communication platform and internet of things communication method

Technical Field

The invention relates to the technical field of Internet of things, in particular to an Internet of things communication platform and an Internet of things communication method.

Background

With the development of the internet of things technology, more and more devices can be accessed to a network for controlling use, in order to adapt to various complex environments, more and more devices of various communication types are provided, and multiple communication modes can be provided for the same device, that is, the same device carries multiple communication modules, so that the complexity of a network service program interacting with the device is improved.

On the basis, the technology application of the internet of things needs to consider various communication interaction modes of the equipment, and in the interaction process of communication data, customized processing needs to be carried out according to the communication types of the communication data so as to adapt to various communication modes, thereby causing repeated development.

Therefore, how to reduce the complexity of a network service program for communication data of multiple communication types, so as to improve the quality of the communication service of the internet of things, is a difficult problem to be solved urgently in the technical field of the internet of things at present.

Disclosure of Invention

The main purpose of the application is to provide an internet of things communication platform and an internet of things communication method, and the purpose is to receive devices of multiple communication types or communication protocols simultaneously based on one internet of things communication platform and perform communication data interaction with the devices, so that the complexity of a network service program is reduced, and the quality of communication service of the internet of things is improved.

In order to achieve the above object, the present application provides an internet of things communication platform, which includes:

the application server is provided with a plurality of communication interfaces which are respectively used for being connected with third-party service platforms corresponding to a plurality of communication types so as to realize communication data interaction between the application server and the third-party service platforms;

the network server is connected with the application server and is used for receiving the communication data sent by the application server and transmitting the communication data to a network module for data processing;

and the file information manager is connected with the application server and is used for providing preset communication identification information for the application server so that the application server distributes the communication data to the corresponding network server according to the preset communication identification information.

Optionally, the internet of things communication platform further comprises a human-computer interaction module, wherein the human-computer interaction module is connected with the archive information manager and used for updating the preset communication identification information to the archive information manager.

Optionally, the internet of things communication platform further comprises a data monitoring module, wherein the data monitoring module is connected with the human-computer interaction module and used for monitoring a communication channel to obtain an interaction record of communication data and sending the interaction record of the communication data to the human-computer interaction module.

Optionally, the number of the application servers is multiple, and the application servers are set according to the communication type of the third-party service platform.

The application also provides an internet of things communication method, which is applied to the internet of things communication platform in the above embodiment, and the internet of things communication method includes:

acquiring communication data sent by a third-party service platform;

comparing preset communication identification information with the communication type of the communication data to obtain a comparison result;

and distributing the communication data to a network server corresponding to the communication type according to the comparison result so that the network server transmits the communication data to a network module for data processing.

Optionally, before comparing preset communication identification information with the communication type of the communication data to obtain a comparison result, the communication method of the internet of things further includes:

and responding to an information updating instruction sent by the man-machine interaction module, and updating the preset communication identification information.

Optionally, the internet of things communication method further includes:

responding to an information monitoring instruction, monitoring a communication channel to obtain an interaction record of the communication data;

and sending the interaction record of the communication data to the human-computer interaction module so as to display the interaction record through the human-computer interaction module.

Optionally, the obtaining of the communication data sent by the third-party service platform includes:

responding to a mode setting instruction, and setting an interaction mode corresponding to the mode setting instruction;

and acquiring communication data sent by a third-party service platform based on the interaction mode.

Optionally, the internet of things communication method further includes:

and responding to a network server setting instruction, setting network servers of multiple communication types so as to respectively receive the communication data of the multiple communication types transmitted by the application server through the network servers and transmit the communication data of the multiple communication types to corresponding network modules.

Optionally, the internet of things communication method further includes:

and responding to the setting instruction of the application server, and setting the application servers of multiple communication types so that the application servers are respectively connected with third-party service platforms of multiple communication types through communication interfaces to realize the interaction of communication data.

The application provides a communication platform of thing networking, including application server, network server and archives information server, in practical application, application server is equipped with a plurality of communication interfaces, is connected with the third party service platform of multiple communication type respectively through these a plurality of communication interfaces to realize the interaction of the communication data between communication platform of thing networking and the third party service platform. After the application server receives communication data sent by the third-party service platform, the communication type of the communication data is compared with preset communication identification information to obtain a comparison result, the communication data is distributed to the corresponding network server according to the comparison result, and finally the network server transmits the communication data to the corresponding network module for processing.

Therefore, the internet of things communication platform provided by the application is simultaneously connected with equipment of multiple communication types or communication protocols based on one internet of things communication platform and carries out communication data interaction with the equipment, so that the internet of things does not need to be customized according to the communication types of the communication data in the communication data interaction process to cause repeated development, and the compatibility problem between the equipment of multiple communication types and the network platform of the current fixed communication mode does not need to be considered, thereby reducing the complexity of a network service program and improving the quality of the communication service of the internet of things.

Drawings

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

Fig. 1 is a schematic block diagram of an internet of things communication platform provided in the present application.

Fig. 2 is an application block diagram of an internet of things communication platform in an embodiment of the present application.

Fig. 3 is a flowchart of steps of a communication method of the internet of things provided in the present application.

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

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

It should be noted that, if directional indications (such as up, down, left, right, front, and back … …) are involved in the embodiment of the present invention, the directional indications are only used to explain the relative position relationship between the components, the motion situation, and the like in a specific posture (as shown in the drawing), and if the specific posture is changed, the directional indications are changed accordingly.

In addition, if there is a description of "first", "second", etc. in an embodiment of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, technical solutions between the embodiments may be combined with each other, but must be based on the realization of the technical solutions by a person skilled in the art, and when the technical solutions are contradictory to each other or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

As shown in fig. 1, the present invention provides an internet of things communication platform 100, where the internet of things communication platform 100 includes:

the application server 120 is provided with a plurality of communication interfaces, and the plurality of communication interfaces are respectively used for being connected with third-party service platforms corresponding to a plurality of communication types so as to enable the application server and the third-party service platforms to realize communication data interaction;

the network server 130 is connected with the application server and is used for receiving the communication data sent by the application server and transmitting the communication data to a network module for data processing;

and the archive information manager 110 is connected with the application server and is used for providing preset communication identification information for the application server so that the application server distributes the communication data to the corresponding network server according to the preset communication identification information.

The application provides a communication platform of thing networking, including application server, network server and archives information server, in practical application, application server is equipped with a plurality of communication interfaces, is connected with the third party service platform of multiple communication type respectively through these a plurality of communication interfaces to realize the interaction of the communication data between communication platform of thing networking and the third party service platform. After the application server receives communication data sent by the third-party service platform, the communication type of the communication data is compared with preset communication identification information to obtain a comparison result, the communication data is distributed to the corresponding network server according to the comparison result, and finally the network server transmits the communication data to the corresponding network module for processing.

In one possible embodiment, for example, the application server is connected to a certain Vpn through a first communication interface to enable interaction of LoraNsA-type communication data between third-party service platforms connected to the Vpn, connected to waters through a second communication interface to enable interaction of LoraNsB-type communication data between waters, and connected to GasHes through a third communication interface to enable interaction of NB-type communication data between GasHes. Then, based on the file information manager, providing preset communication identification information including that the LoraNsA type corresponds to the network server a, the LoraNsB type corresponds to the network server B, and the NB type corresponds to the network server C, the application server allocates the LoraNsA type of communication data acquired by the Vpn to the network server a, so that the network server a transmits the LoraNsA type of communication data to the LoraNsA type of network module for data processing, and similarly, the application server allocates the LoraNsB type of communication data acquired by the waters to the network server B, so that the network server B transmits the LoraNsB type of communication data to the LoraNsB type of network module for data processing, and similarly, the application server allocates the NB type of communication data acquired by the GasHes to the network server C, so that the network server C transmits the NB type of communication data to the NB type of network module for data processing.

In a possible embodiment, the application server provides multiple API access interfaces, sends data to corresponding devices, controls windows of the devices, and the like, and may be configured to configure a data push interface, including device data push, device communication quality push, and response information push for whether sending data to the devices is successful, and the application server may select an uplink path, i.e., an external third-party service platform, and a downlink path, i.e., a network server, according to profile information of the devices.

In a possible embodiment, the network server is further configured to forward the push data of the device module to the application server.

In a possible embodiment, the profile information manager is further configured to store some relevant information of the communication device, including a communication mode of the communication device, a type of a network server currently used by the communication device, and an address of a third-party service platform to which the push data of the communication device corresponds.

Therefore, the communication platform of the internet of things provided by the application is simultaneously connected with the equipment with multiple communication types or communication protocols based on one communication platform of the internet of things and carries out communication data interaction with the equipment, so that the internet of things does not need to carry out customized processing according to the communication types of the communication data in the communication data interaction process to cause repeated development, and the compatibility problem between the equipment with multiple communication types and the network platform with the current fixed communication mode does not need to be considered, thereby reducing the complexity of a network service program and improving the quality of the communication service of the internet of things.

Furthermore, the communication platform of the internet of things further comprises a human-computer interaction module, wherein the human-computer interaction module is connected with the archive information manager and used for updating the preset communication identification information for the archive information manager.

Specifically, the human-computer interaction module may be a human-computer interaction interface, or a terminal device connected to the communication platform of the internet of things and used for receiving a user instruction, and the user may send an information update instruction to the archive information manager through the human-computer interaction module, so as to change the preset communication identifier information stored in the archive information manager, for example, change the correspondence between the communication type and the network server, for example, change the network server a corresponding to the LoraNsA type to the network server B corresponding to the LoraNsA type, or create a new communication type NB type, set up a network server C corresponding to the NB type, and add device information of a third-party service platform to the archive information manager, and so on.

Furthermore, the communication platform of the internet of things further comprises a data monitoring module, wherein the data monitoring module is connected with the human-computer interaction module and used for monitoring a communication channel to obtain an interaction record of communication data and sending the interaction record of the communication data to the human-computer interaction module.

Specifically, the data monitoring module monitors a communication channel between the application server and the third-party service platform, a communication channel between the application server and the network server, and a communication channel between the network server and the network module, so as to obtain interaction records such as a real-time transmission state of communication data, a transmission success rate of the communication data, a connection state of the third-party service platform, and the like, and send the interaction records to the human-computer interaction module, so that a user can check the interaction records through the human-computer interaction module.

Furthermore, the number of the application servers is multiple, and the application servers are set according to the communication type of the third-party service platform.

In particular, a plurality of application servers can be arranged to ensure the processing capacity of the communication platform of the internet of things for communication data.

As a possible embodiment, the multiple application servers may be configured to process the same type of communication data, for example, if the traffic of the LoraNsA type communication data is relatively large, 10 application servers are configured to process the LoraNsA type communication data, or if the traffic of the waterfes type communication data is relatively large, 10 application servers are configured to process the waterfes communication data.

As a possible embodiment, the multiple application servers may process different types of communication data, for example, the types corresponding to the third-party service platform are certain Vpn, waters and GasHes, the application servers are respectively configured, and for example, real-time interaction and timed interaction are based on different interaction modes, where a traffic of communication data to be processed by the real-time interaction is relatively large, 5 application servers are correspondingly configured, a traffic of communication data to be processed by the timed interaction is relatively small, 2 application servers are correspondingly configured, and so on.

In this way, the plurality of application servers are arranged to improve the data processing capability of the communication platform of the internet of things, and specific arrangement types of the plurality of application servers are not particularly limited.

Fig. 2 shows an application block diagram of the internet of things communication platform in an embodiment of the present application.

As shown in fig. 2, the internet of things communication platform includes a profile information manager 110DevArchive manager, an application server 120ApplicationServer, a web server 130NetworkServer, a human-computer interaction module 140UI interaction interface, and a data monitoring module 150 logmanager.

Specifically, the application server 120 applies the application server to provide an interface for external use, such as http/https, kafka, and mqtt, which is connected to a third-party service platform, for performing interaction of communication data with an external device, and then distributes data authentication and data analysis of an external request to the corresponding network server 130NetworkServer through an mqtt/kafka communication channel, where communication data sent by the application server 120 applies the server to the network server 130NetworkServer is distinguished according to a NetWorkID provided by the archive information manager 110, and the network server 130NetworkServer transmits the communication data to the corresponding network module, such as NB/Gprs Meter or LoraNsA Meter, for processing, acquires feedback information sent by the network module, and sends the feedback information to the application server 120 according to a communication mode/communication type/data format adapted to the third-party service platform, so that the application server 120 sends the feedback information to the application server 120, and the application server 120 sends the feedback information to the application server, where the feedback information is distinguished according to the third-party service platform, and the application server provides feedback information according to the callserver 110.

In this embodiment, the preset communication identifier information stored by the profile information manager 110DevArchive manager and provided to the application server 120ApplicationServer includes: the identifier meterId is used for distinguishing the external device, the identifier communiationID is used for distinguishing the communication module of the external device, the identifier netWorkServerID is used for distinguishing the communication data sent by the application server 120 to the network server 130NetworkServer, the identifier callBackID is used for distinguishing the feedback data, and the identifiers mqttAddr, httpAddr and Topic of the communication channel, and the like.

In this embodiment, the data interaction log and the communication quality information may also be obtained by the data monitoring module 150LogManage based on the Mqtt/Kafka communication channel, and sent to the UI interaction interface of the human-computer interaction module 140 for display, so as to be referred by the user.

As shown in fig. 3, the present invention further provides an internet of things communication method, which is applied to the internet of things communication platform according to the above embodiment, and the internet of things communication method includes the following steps S100 to S300.

Step S100, communication data sent by a third-party service platform is obtained;

specifically, the application server is connected with a third-party service platform through a communication interface, and acquires communication data of various communication types from the third-party service platform.

Step S200, comparing preset communication identification information with the communication type of the communication data to obtain a comparison result;

specifically, the preset communication identification information is stored in the file information server and is sent to the application server by the file information server, and the application server compares the preset communication identification information with the communication type of the communication data to obtain a comparison result.

Step S300, distributing the communication data to a network server corresponding to the communication type according to the comparison result, so that the network server transmits the communication data to a network module for data processing.

Specifically, for example, the communication type of the communication data is a LoraNsA type, the preset communication identification information includes that the LoraNsA type corresponds to the network server a, and the application server allocates the communication data to the network server a, so that the network server a transmits the communication data to a network module specially used for processing the LoraNsA type data.

Further, on the basis of the above embodiment, before comparing the preset communication identification information with the communication type of the communication data in the step S200 to obtain a comparison result, the communication method of the internet of things further includes the following step S201.

Step S201, updating the preset communication identification information in response to the information updating instruction sent by the human-computer interaction module.

The communication platform of the internet of things receives an information updating instruction triggered by a user through the man-machine interaction module and sends the information updating instruction to the file information manager, so that the preset communication identification information stored by the file information manager is changed according to the information updating instruction.

The modification of the preset communication identification information includes but is not limited to: and changing the corresponding relation between the communication type and the network server, for example, changing the network server A corresponding to the LoransA type into the network server B corresponding to the LoransA type, or creating a new communication type NB type, setting the network server C corresponding to the NB type, and adding equipment information of a third-party service platform to the archive information manager, and the like.

Further, on the basis of the above embodiment, the internet of things communication method further includes the following steps S401 and S402.

Step S401, responding to the information monitoring instruction, monitoring the communication channel to obtain the interaction record of the communication data.

And S402, sending the interaction record of the communication data to the human-computer interaction module for displaying through the human-computer interaction module.

Specifically, the information monitoring instruction can be triggered by a user actively, or the data monitoring module is triggered automatically, the data monitoring module monitors a communication channel between the application server and the third-party service platform, a communication channel between the application server and the network server directly, and a communication channel between the network server and the network module directly according to the information monitoring instruction, so that interaction records such as a real-time transmission state of communication data, a transmission success rate of the communication data, a connection state of the third-party service platform and the like are obtained, and the interaction records are sent to the man-machine interaction module, so that the user can check the interaction records through the man-machine interaction module.

Further, on the basis of the above embodiment, the acquiring of the communication data sent by the third party service platform in the step S100 includes the following steps S101 and S102.

Step S101, responding to a mode setting instruction, and setting an interaction mode corresponding to the mode setting instruction.

And step S102, communication data sent by the third-party service platform is obtained based on the interaction mode.

Specifically, the internet of things communication platform receives a mode setting instruction actively triggered by a user through a human-computer interaction module, and then sets a corresponding interaction mode for the application server according to the mode setting instruction, so that the application server performs communication data interaction with a third-party service platform based on the interaction mode.

As a possible embodiment, for example, since the waters is used for collecting communication data of the water meter, based on the characteristics of the communication data of the waters, in order to save the energy consumption of the device without real-time interaction, on this basis, the communication platform of the internet of things receives a mode setting instruction triggered by a user through the human-computer interaction module, and sets an application server connected with the waters to a timed interaction mode according to the mode setting instruction.

Further, on the basis of the above embodiment, the internet of things communication method further includes the following step S500.

Step S500, in response to the network server setting instruction, setting the network servers of multiple communication types to respectively receive the communication data of multiple communication types transmitted by the application server through the network servers, and transmit the communication data of multiple communication types to the corresponding network modules.

Specifically, the internet of things communication platform receives a network server setting instruction actively triggered by a user through a human-computer interaction module, and then sets corresponding network servers of multiple communication types according to the network server setting instruction.

As a possible embodiment, for example, the internet of things communication platform receives, through the human-computer interaction module, a network server setting instruction actively triggered by a user, and then sets, according to the network server setting instruction, a network server a corresponding to LoraNsA-type communication data, a network server B corresponding to LoraNsB-type communication data, and a network server C corresponding to NB-type communication data.

Further, on the basis of the above embodiment, the internet of things communication method further includes the following step S600.

Step S600, responding to the setting instruction of the application server, setting the application servers of multiple communication types, so that the application servers are respectively connected with third-party service platforms of multiple communication types through communication interfaces, and interaction of communication data is achieved.

Specifically, the internet of things communication platform receives an application server setting instruction actively triggered by a user through a human-computer interaction module, and then sets a plurality of corresponding application servers according to the application server setting instruction.

As a possible example, the multiple application servers may be configured to process the same type of communication data, for example, if the traffic of the LoraNsA type communication data is relatively large, 10 application servers are configured to process the LoraNsA type communication data, or if the traffic of the waterfes type communication data is relatively large, 10 application servers are configured to process the waterfes communication data.

As a possible embodiment, the multiple application servers may be configured to process different types of communication data, for example, the types corresponding to the third-party service platform are certain Vpn, waters hes, and GasHes, and the application servers are respectively configured, and for example, real-time interaction and timed interaction are based on different interaction modes, where traffic of communication data to be processed by the real-time interaction is relatively large, 5 application servers are correspondingly configured, traffic of communication data to be processed by the timed interaction is relatively small, 2 application servers are correspondingly configured, and the like.

It can be understood that the various application servers are arranged to improve the data processing capacity of the communication platform of the internet of things.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention, and all modifications and equivalents of the present invention, which are made by the contents of the present specification and the accompanying drawings, or directly/indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. The utility model provides a thing networking communication platform which characterized in that, thing networking communication platform includes:

the application server is provided with a plurality of communication interfaces which are respectively used for being connected with third-party service platforms corresponding to a plurality of communication types so as to realize communication data interaction between the application server and the third-party service platforms;

the network server is connected with the application server and is used for receiving the communication data sent by the application server and transmitting the communication data to a network module for data processing;

and the file information manager is connected with the application server and is used for providing preset communication identification information for the application server so that the application server distributes the communication data to the corresponding network server according to the preset communication identification information.

2. The communication platform of the internet of things of claim 1, further comprising a human-computer interaction module, wherein the human-computer interaction module is connected with the archive information manager and is used for updating the preset communication identification information for the archive information manager.

3. The communication platform of the internet of things as claimed in claim 2, further comprising a data monitoring module, wherein the data monitoring module is connected with the human-computer interaction module, and is used for monitoring a communication channel to obtain an interaction record of communication data and sending the interaction record of the communication data to the human-computer interaction module.

4. The internet of things communication platform as claimed in claim 1, wherein the number of the application servers is multiple, and the application servers are set according to the communication type of the third-party service platform.

5. An internet of things communication method is applied to the internet of things communication platform according to any one of claims 1 to 4, and comprises the following steps:

acquiring communication data sent by a third-party service platform;

comparing preset communication identification information with the communication type of the communication data to obtain a comparison result;

and distributing the communication data to a network server corresponding to the communication type according to the comparison result so that the network server transmits the communication data to a network module for data processing.

6. The communication method of the internet of things as claimed in claim 5, wherein before comparing preset communication identification information with the communication type of the communication data to obtain a comparison result, the communication method of the internet of things further comprises:

and responding to an information updating instruction sent by the man-machine interaction module, and updating the preset communication identification information.

7. The internet of things communication method of claim 5, further comprising:

responding to an information monitoring instruction, monitoring a communication channel to obtain an interaction record of the communication data;

and sending the interaction record of the communication data to the human-computer interaction module so as to display the interaction record through the human-computer interaction module.

8. The internet of things communication method of claim 5, wherein the obtaining of the communication data sent by the third-party service platform comprises:

responding to a mode setting instruction, and setting an interaction mode corresponding to the mode setting instruction;

and acquiring communication data sent by the third-party service platform based on the interaction mode.

9. The internet of things communication method of claim 5, further comprising:

and responding to a network server setting instruction, setting network servers of multiple communication types so as to respectively receive the communication data of the multiple communication types transmitted by the application server through the network servers and transmit the communication data of the multiple communication types to corresponding network modules.

10. The internet of things communication method of claim 5, further comprising:

and responding to the setting instruction of the application server, and setting the application servers of multiple communication types so that the application servers are respectively connected with third-party service platforms of multiple communication types through communication interfaces to realize the interaction of communication data.

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