CN113765719A - Instant implementation method for unified management, monitoring and maintenance of access of Internet of things - Google Patents

Abstract

The invention discloses an instant implementation method for unified management, monitoring and maintenance of access of the Internet of things, which comprises the following steps: configuring an Internet of things platform; integrating corresponding sensors, intelligent instruments and control equipment/gateways according to the industry characteristics to obtain comprehensive Internet of things basic equipment matched with each industry; and connecting the comprehensive Internet of things basic equipment and other Internet of things equipment to an Internet of things platform, and connecting the Internet of things platform to an application platform for unified management, monitoring and maintenance. The method and the system have the effects of conveniently managing, monitoring and maintaining the unified access of the internet of things equipment.

Description

Instant implementation method for unified management, monitoring and maintenance of access of Internet of things

Technical Field

The application relates to the technical field of Internet of things, in particular to an instant implementation method for unified management, monitoring and maintenance of Internet of things access.

Background

The Internet of things (IoT), i.e., "Internet of things," is an extended and expanded network based on the Internet, and combines various information sensing devices with the network to form a huge network, thereby realizing interconnection and intercommunication of people, machines and things at any time and any place.

In the Internet of things, related sensors, intelligent instruments and control equipment are numerous, interfaces are different, and communication protocols are different; traditionally, the access platform based on the internet of things cannot realize standardization of multiple transmission protocols at the same time, and only can realize separate access of MQTT, NB and COAP which are several mainstream protocols, so that the workload is large, and the stability is difficult to ensure.

The patent with publication number CN111343020A discloses a unified management method and device for multi-protocol internet of things devices, in which basic information of multiple gateways and device information of multiple internet of things devices are configured, where the basic information includes protocol information supported by each gateway; binding each Internet of things device to a gateway of a corresponding protocol according to the basic information and the device information; generating configuration information, and issuing the configuration information to the plurality of gateways through an Internet of things cloud platform component so that each gateway is connected to the bound Internet of things equipment; data of the plurality of internet of things devices is collected from the plurality of gateways through an internet of things cloud platform component.

The content provides a unified management method and device for internet of things equipment, and meanwhile, the application provides a new technical scheme.

Disclosure of Invention

In order to facilitate management, monitoring and maintenance of unified access of the Internet of things equipment, the application provides an instant implementation method for unified management, monitoring and maintenance of the Internet of things access.

In a first aspect, the present application provides an instant implementation method for unified management, monitoring and maintenance of access to an internet of things, which adopts the following technical scheme:

an instant implementation method for unified management, monitoring and maintenance of access of the Internet of things comprises the following steps:

configuring an Internet of things platform;

integrating corresponding sensors, intelligent instruments and control equipment/gateways according to the industry characteristics to obtain comprehensive Internet of things basic equipment matched with each industry; and the number of the first and second groups,

and connecting the comprehensive Internet of things basic equipment and other Internet of things equipment to an Internet of things platform, and connecting the Internet of things platform to an application platform for unified management, monitoring and maintenance.

Optionally, the internet of things platform is built based on a configuration architecture.

Optionally, the other internet of things devices include audio/video internet of things devices, and the communication protocol architecture thereof is that a service protocol and a basic communication protocol are separated, and an MQTT protocol is adopted in a bottom layer.

Optionally, the device is configured to: the system comprises a first authentication module, a second authentication module and a third authentication module, wherein the first authentication module is used for actively authenticating an Internet of things platform and acquiring a sessionKey for encrypting an access service link between equipment and the Internet of things equipment; and the system is used for actively acquiring the equipment access service from the Internet of things platform and establishing MQTT connection with the equipment access service through the acquired sessionkey to carry out service communication.

Optionally, the device prestores information codes representing the integration level and the integration category of the module; the Internet of things platform prestores configuration information of comprehensive Internet of things basic equipment with various integration levels and integration types in various industries, and is configured as follows: the system is used for acquiring and identifying the information code of the integrated internet of things basic equipment after the integrated internet of things basic equipment is accessed, and calling corresponding configuration information according to the information code.

Optionally, the method further includes: configuring an edge Internet of things agent node;

synthesize thing allies oneself with basic equipment or other thing allies oneself with equipment and connect in marginal thing allies oneself with agent node, marginal thing allies oneself with agent node and connects thing networking platform, thing networking platform configuration is: there are multiple access protocols.

Optionally, the edge gateway is further configured to integrate an audio and video access edge gateway with the edge internet of things proxy node.

Optionally, the internet of things platform is used for performing unified pre-management, monitoring and maintenance on the internet of things data, and includes:

generating a dynamic curve graph based on numerical information in the internet of things data;

configuring a monitoring alarm module to monitor and alarm the dynamic curve graph; and the number of the first and second groups,

and recording the alarm event, and generating a summary analysis chart according to the alarm event.

In summary, the present application includes at least one of the following beneficial technical effects: the complexity of accessing equipment into the Internet of things is simplified, and certain flexibility of the Internet of things is reserved; and the equipment is relatively convenient to configure after being accessed, and automatic matching is realized based on the reserved information.

Drawings

FIG. 1 is a schematic overall flow diagram of the process;

FIG. 2 is a communication protocol architecture diagram of the equipment of the Internet of things according to the method;

fig. 3 is a schematic diagram of the internet of things structure of the platform of the method.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses an instant implementation method for unified management, monitoring and maintenance of access to the Internet of things.

Example 1:

referring to fig. 1, an instant implementation method for unified management, monitoring and maintenance of access to internet of things includes the following steps:

s101, configuring an Internet of things platform;

s102, integrating corresponding sensors, intelligent instruments and control equipment/gateways according to industry characteristics to obtain comprehensive Internet of things basic equipment matched with each industry; and the number of the first and second groups,

s103, connecting the comprehensive Internet of things basic equipment and other Internet of things equipment to an Internet of things platform, and connecting the Internet of things platform to an application platform for unified management, monitoring and maintenance.

The difficulty of implementing the internet of things is that one hardware access layer: besides various types of access sensors and intelligent instruments, the communication links are various, and the protocols are different; meanwhile, the equipment installation amount is large, and the stability and the reliability are relatively poor.

According to the content of the method, the equipment corresponding to each functional module is deeply integrated in a hardware access layer, so that the hardware cost and the implementation cost can be reduced on one hand, and on the other hand, the data is uploaded or received through the same communication module after integration, so that the access difficulty is reduced; in addition, because all sensors, intelligent instruments and the like are integrated, uniformly configured and applied, the system is relatively suitable for large-scale enterprises and the like, the standards are uniform, and later-period inconvenience caused by supply of multiple manufacturers of all modules is reduced.

Comprehensive internet of things infrastructure such as: and integrating the PM2.5 sensor, the carbon dioxide sensor, the illumination sensor and the temperature and humidity sensor with the intelligent gateway/DTU terminal. It can be understood that the integrated internet of things base device can integrate different functional modules according to the industry requirements, and the specific implementation thereof, that is, patents and open source data of the multi-sensor integration technology exist, so that the details are not repeated.

With respect to the application platform, it can be understood that: the third-party service platform is used for carrying out specific application on the basis of the data acquired by the Internet of things platform so as to realize different service functions; under the above example of the integrated internet of things infrastructure, the application platform in this case may be a smart agriculture platform.

After the integration and integration of the internet of things devices, the configuration of protocols and the like of different devices is still a problem, and for this reason, the method also selects: and building an internet of things platform based on the configuration architecture.

The above "configuration software" concept based on the industrial control field specifically implements a platform as shown by YFIOs, and in the case of configuring the platform, partial development content can be omitted for the access of the device, and it is only necessary to add a user device configuration function based on YFIOs, thereby facilitating unified management and the like.

Example 2:

the difference from example 1 is that: the options reserved for accessing the non-integrated internet of things device, namely other internet of things devices, comprise audio and video internet of things devices; meanwhile, the communication protocol architecture is set to be as follows: service protocol and basic communication protocol are separated (as shown in fig. 2); the method is also set to adopt an MQTT protocol at the bottom layer, namely in the embodiment, the session channel interface adopts the MQTT protocol, and the structure of the MQTT protocol is divided into three sections: fixed header + variable header + payload, as shown in the MQTT protocol structure table below.

It can be understood that, at this time, as shown in fig. 3, the interior of the platform of the internet of things is divided into: besides a load balancing service module, a device access service module, an event service module and the like, the system also comprises a picture service module and a video service module. The modules can be an integral service module for providing services to the outside or relatively independent service modules.

Load balancing service: and is responsible for device authentication. The equipment actively authenticates the load balancing service, and after the authentication is passed, the equipment is loaded to the plurality of equipment access services in a balancing manner in a redirection manner.

The equipment accesses the service: services that manage, control, configure device functions. Support for attributes, operations, events.

Event service: and the service is responsible for receiving and processing events.

Picture service: and the server is responsible for storing the pictures and supports the functions of uploading and downloading the pictures and the like.

Video service: the system is responsible for the transmission of media data and supports the functions of real-time preview, video playback, voice talkback and the like.

The other internet of things devices are arranged mainly for realizing open internet of things access, and the complex networking platform realizes unified access management, monitoring and maintenance of device resources.

Further, to ensure smooth access of the device, the method further includes: configuring the device to: the system comprises a first authentication module, a second authentication module and a third authentication module, wherein the first authentication module is used for actively authenticating an Internet of things platform and acquiring a sessionKey for encrypting an access service link between equipment and the Internet of things equipment; and the system is used for actively acquiring the equipment access service from the Internet of things platform and establishing MQTT connection with the equipment access service through the acquired sessionkey to carry out service communication.

Example 3:

the difference from example 1 or 2 is that: the device prestores information codes representing the degree of integration and the category of integration of the module. Correspondingly, the internet of things platform prestores configuration information of comprehensive internet of things basic equipment with various integration levels and integration categories in various industries, and is configured as follows: the system is used for acquiring and identifying the information code of the integrated internet of things basic equipment after the integrated internet of things basic equipment is accessed, and calling corresponding configuration information according to the information code.

Such as: a, integrating 3 function modules (temperature, humidity, carbon dioxide and PM 2.5), defining the integration level to be 4 by using information codes, and distinguishing by using the information codes according to the types of the function modules; subsequently, after the equipment is accessed, the equipment access service of the platform identifies the equipment, and corresponding pre-stored configuration information is called to complete configuration work so as to improve the convenience of access.

Example 4:

the differences from example 1, example 2 or example 3 are: configuring an edge Internet of things agent node; the comprehensive IOT basic equipment or other IOT equipment is connected to the edge IOT agent node, and the edge IOT agent node is connected with the IOT platform.

The edge Internet of things agent node greatly releases the calculation pressure of the data center, reduces the delay time from data acquisition of the data center to local equipment, and improves the user experience.

Moreover, the following advantages exist: it is common today to fill the camera on a rod at the side of the road; this is because the equipment cannot be shared due to the difference of platforms of each department, and one equipment needs to be installed by itself. The edge internet of things proxy node is introduced, and actually, in order to introduce the gateway, the wide access capability of the gateway is utilized, so that convenience is provided for unified management and the like of the internet of things equipment.

In addition to the above, the above-mentioned selection in the method is particularly embodied in the case that the platform of the internet of things does not adopt the above-mentioned configuration architecture, and under this scenario, the platform may select the EMQ X as a core, thereby implementing unified access, centralized control, and the like of the equipment of the internet of things.

It is noted that the platform is configured to: multiple access protocol capabilities are provided, such as multiple protocol access capabilities providing MQTT, CoAP, LwM2M, HTTP, and the like. At the moment, the Internet of things platform can be directly connected with intelligent equipment through MQTT/CoAP and the like, and can also be connected with sensors and intelligent equipment through MQTT/HTTP, namely, various flexible Internet of things equipment is convenient to perform unified management and the like of the Internet of things equipment.

Further, in the method, an integrated audio and video access Edge gateway of the Edge internet of things proxy node is also configured, and on the basis of the above example, the audio and video gateway is integrated in the EXQ X Edge to obtain a new integrated Edge gateway.

Compared with other modes, the unified Internet of things and video access edge gateway is provided at the moment, and the unified access of the Internet of things and the edge end of the video equipment is realized.

Example 5:

the differences from examples 1 to 4 are: the thing networking platform is used for carrying out unified preliminary management, control and maintenance to thing networking data, and includes:

generating a dynamic curve graph based on numerical information in the internet of things data;

configuring a monitoring alarm module to monitor and alarm the dynamic curve graph; and the number of the first and second groups,

and recording the alarm event, and generating a summary analysis chart according to the alarm event.

Monitoring and alarming, such as alarming of abnormal equipment parameters; summarizing and analyzing the chart, such as counting the total times of the same type of alarm events, calculating the frequency of the same type of alarm events and the like.

According to the method, the intelligent operation and maintenance monitoring platform can be initially constructed by using the material network platform, partial data are preprocessed, and unified management of subsequent service layers is facilitated.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. An instant implementation method for unified management, monitoring and maintenance of access to the Internet of things is characterized by comprising the following steps:

configuring an Internet of things platform;

integrating corresponding sensors, intelligent instruments and control equipment/gateways according to the industry characteristics to obtain comprehensive Internet of things basic equipment matched with each industry; and the number of the first and second groups,

and connecting the comprehensive Internet of things basic equipment and other Internet of things equipment to an Internet of things platform, and connecting the Internet of things platform to an application platform for unified management, monitoring and maintenance.

2. The method for realizing the real-time access unified management, monitoring and maintenance of the internet of things according to claim 1, wherein the method comprises the following steps: the Internet of things platform is built based on a configuration framework.

3. The method for realizing the real-time access unified management, monitoring and maintenance of the internet of things according to claim 1, wherein the method comprises the following steps: the other internet of things equipment comprises audio and video internet of things equipment, the communication protocol architecture of the equipment is that a service protocol and a basic communication protocol are separated, and an MQTT protocol is adopted at the bottom layer.

4. The method for implementing internet of things access unified management monitoring and maintenance in real time as claimed in claim 3, wherein the device is configured to: the system comprises a first authentication module, a second authentication module and a third authentication module, wherein the first authentication module is used for actively authenticating an Internet of things platform and acquiring a sessionKey for encrypting an access service link between equipment and the Internet of things equipment; and the system is used for actively acquiring the equipment access service from the Internet of things platform and establishing MQTT connection with the equipment access service through the acquired sessionkey to carry out service communication.

5. The method for realizing the access unified management, monitoring and maintenance of the internet of things according to claim 1 or 4, characterized in that: the device prestores information codes representing the integration level and the integration category of the module; the Internet of things platform prestores configuration information of comprehensive Internet of things basic equipment with various integration levels and integration types in various industries, and is configured as follows: the system is used for acquiring and identifying the information code of the integrated internet of things basic equipment after the integrated internet of things basic equipment is accessed, and calling corresponding configuration information according to the information code.

6. The method for realizing the real-time access unified management, monitoring and maintenance of the internet of things according to claim 1, further comprising the following steps: configuring an edge Internet of things agent node;

synthesize thing allies oneself with basic equipment or other thing allies oneself with equipment and connect in marginal thing allies oneself with agent node, marginal thing allies oneself with agent node and connects thing networking platform, thing networking platform configuration is: there are multiple access protocols.

7. The method for realizing the real-time access unified management, monitoring and maintenance of the internet of things according to claim 1, wherein the method comprises the following steps: the method is also configured to integrate the audio and video access edge gateway by the edge Internet of things proxy node.

8. The method for realizing unified management, monitoring and maintenance of access to internet of things of claim 1, wherein the internet of things platform is used for unified pre-management, monitoring and maintenance of internet of things data, and comprises:

generating a dynamic curve graph based on numerical information in the internet of things data;

configuring a monitoring alarm module to monitor and alarm the dynamic curve graph; and the number of the first and second groups,

and recording the alarm event, and generating a summary analysis chart according to the alarm event.

Images