CN113419920A - Real-time monitoring method for joint debugging test process of simulation test system of Internet of things management platform - Google Patents

Abstract

The invention provides a real-time monitoring method for a joint debugging test process of a simulation test system of an IOT (Internet of things) management platform, which is used for acquiring key information of an access process of equipment of the IOT management platform, and at least comprises equipment access interactive information, equipment online interactive information, equipment offline interactive information, equipment reported data information and platform issued command information; performing encapsulation desensitization treatment on the acquired process key information to obtain process data of equipment access joint debugging test, and displaying the obtained process data in real time; the method and the device realize real-time monitoring of the joint debugging test process, facilitate fault positioning processing and verification of accuracy and integrity of interactive information data, shorten the joint debugging test period and improve the working efficiency of joint debugging test.

Description

Real-time monitoring method for joint debugging test process of simulation test system of Internet of things management platform

Technical Field

The disclosure relates to the technical field of power internet of things, in particular to a real-time monitoring method for a joint debugging test process of a simulation test system of an internet of things management platform.

Background

The statements in this section merely provide background information related to the present disclosure and may not necessarily constitute prior art.

The electric power Internet of things is an important component of enterprise digital transformation, and the overall architecture of the electric power Internet of things comprises 4 layers of a perception layer, a network layer, a platform layer and an application layer. The method mainly uses internet thinking to reform the traditional information communication infrastructure, uses digital technology to power the traditional power grid, improves the perception capability and interaction capability of the power grid, and improves the operation quality and efficiency of the power grid and the social comprehensive energy efficiency. The intelligent Internet of things system is used as a future development direction of the power Internet of things, and unified standardized access of multi-source heterogeneous data is achieved by taking the Internet of things management platform as a core. The intelligent Internet of things system mainly comprises an Internet of things management platform, an edge Internet of things agent and standardized access of various types of terminals. Through the construction of an intelligent Internet of things system, the edge logic separation and the edge management sharing are realized, and the unified access, edge intelligence and sharing of various terminals of a company are promoted. The Internet of things management platform realizes access management of intelligent equipment such as edge Internet of things agents and has the functions of unified data model management, APP application management and the like, and a standardized data service interface is provided for the enterprise middlings.

The inventor finds that the existing power internet of things has the following problems:

(1) at present, in the process of promoting the construction of an intelligent internet of things system in the power industry, an internet of things management platform is a core functional platform, plays a role in starting, integrates service systems such as an upper internet of things management platform and a plurality of main station systems, and accesses massive terminal equipment and terminal sub-equipment to the lower internet of things management platform. Therefore, the integrated debugging workload of the internet of things management platform is large, and the error reporting position in the debugging process is difficult to locate.

(2) At present, an Internet of things management platform used in an intelligent Internet of things system for construction in the power industry is a relatively mature commercial product, functional modules are packaged completely, the content which can be operated and checked by a user is packaged well according to permissions, program operation log files are stored in a server and have no permission to be checked, and therefore the problems encountered in the process of accessing a master station system and equipment are difficult to locate, hidden problem details are difficult to find, the master station system joint debugging test period is long, and the equipment access period is long.

(3) At present, in the power industry, the equipment of a simulation joint debugging test environment simulation internet of things management platform is generally adopted to be accessed into the whole process to work, so that the pressure of the internet of things management platform is reduced. The simulation joint debugging test environment is mainly used for meeting various preparation works of accessing manufacturer equipment to an Internet of things management platform, including code debugging of terminal equipment, network debugging of sub-equipment and the terminal equipment and the like. In the process of joint debugging test, a functional method capable of quickly positioning the problem and finding the hidden problem is lacked.

(4) In the power industry, the number of main station systems for business personnel and users is large and various, and in the construction process of an intelligent internet of things system, the main station systems need to be integrated with an internet of things management platform to exchange data and control information. The intelligent internet of things system has the advantages that the integrated testing workload is large, the possible problems are various, the functional items for quickly positioning the integrated problems are lacked, technicians need to check the positioning problems of a large number of interface files, the integrated working period can be prolonged, and the intelligent internet of things system is not beneficial to the construction work of the intelligent internet of things system in the whole power industry.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides a method for monitoring the joint debugging test process of the simulation test system of the Internet of things management platform in real time, so that the real-time monitoring of the joint debugging test process is realized, the accuracy and the integrity of fault positioning processing and verification of interactive information data are facilitated, the joint debugging test period is shortened, and the working efficiency of joint debugging test is improved.

In order to achieve the purpose, the following technical scheme is adopted in the disclosure:

a real-time monitoring method for a joint debugging test process of a simulation test system of an Internet of things management platform comprises the following steps:

acquiring key information of an access process of the equipment of the Internet of things management platform, wherein the key information at least comprises equipment access interaction information, equipment online interaction information, equipment offline interaction information, equipment reported data information and platform issued command information;

and performing encapsulation desensitization treatment on the acquired process key information to obtain process data of equipment access joint debugging test, and displaying the obtained process data in real time.

Further, the encapsulation desensitization treatment is carried out on the acquired equipment access interaction information, and the method comprises the following processes:

the method comprises the steps of hiding equipment information for which the equipment applies for access, hiding authentication information for which the equipment applies for access, adding fault prompt information, and prompting fault reasons for which the equipment fails to access.

Further, the device access interaction processing procedure includes:

electrifying the terminal equipment, communicating with the edge Internet of things agent equipment, and importing the edited product model file into the Internet of things management platform simulation test system;

the edge Internet of things agent equipment is provided with a corresponding application program, edits a configuration file, and configures address, port, user name and password information required by MQTT protocol communication;

starting a container and an application program on the edge Internet of things agent equipment, wherein the edge Internet of things agent equipment is connected with the Internet of things management platform simulation test system, and the application program of the edge Internet of things agent equipment can automatically send a Topic message for registering the sub-equipment to the Internet of things management platform simulation test system when running;

after receiving the information of the registration sub-equipment, the protocol analysis module of the Internet of things management platform simulation test system analyzes the information, triggers the operation of the registration sub-equipment of the system, simultaneously analyzes the content to enter the equipment and access the interactive information encapsulation processing module, processes the information, hides the sensitive information of the edge Internet of things agent equipment, only selects the identification of the edge Internet of things agent equipment and the identification information of the sub-equipment to be registered, encapsulates the information into a registration message text of the sub-equipment, and displays the registration message text on a monitoring interface in real time;

after the registration module of the sub-equipment of the simulation test system of the IOT management platform finishes processing, feedback information fed back to the edge IOT agent equipment enters an equipment access interactive information packaging processing module at the same time; if the registration is successful, a message text for prompting the successful registration of the sub-equipment is packaged; and if the registration fails, packaging a message text for prompting the registration failure of the sub-equipment, prompting the failure reason, and displaying the message text on the monitoring interface in real time.

Further, the packaging desensitization treatment is carried out on the acquired online interaction information of the equipment, and the method comprises the following processes:

and hiding basic information of the online equipment, only disclosing identification information of the equipment, adding fault prompt information, and prompting fault reasons of online failure of the equipment.

Further, the online interaction processing process of the device includes:

applying for accessing a simulation test system of an Internet of things management platform, and electrifying and connecting the offline terminal equipment again;

running an application program of the edge Internet of things agent equipment, and automatically sending a Topic message of online sub-equipment to a simulation test system of an Internet of things management platform;

after receiving the on-line message of the sub-equipment, a protocol analysis module of the simulation test system of the Internet of things management platform analyzes the message, triggers the on-line operation of the sub-equipment of the system, simultaneously analyzes the content to enter an on-line interactive information packaging processing module of the equipment, processes the message, hides the sensitive information of the sub-equipment, only selects a sub-agent equipment identifier, packages the sensitive information into an on-line message text of the sub-equipment, and displays the on-line message text on a monitoring interface in real time;

after the on-line module of the sub-equipment of the simulation test system of the Internet of things management platform finishes processing, feedback information fed back to the edge Internet of things agent equipment simultaneously enters an on-line interactive information packaging processing module of the equipment, if the on-line state of the sub-equipment is successfully modified, a message text prompting the on-line success of the sub-equipment is packaged, if the on-line state of the sub-equipment is failed to be modified, a message text prompting the on-line failure of the sub-equipment is packaged, the failure reason is prompted, and the message text is displayed on a monitoring interface in real time.

Further, the encapsulation desensitization treatment is carried out on the acquired offline interaction information of the equipment, and the method comprises the following processes:

and hiding the basic information of the offline equipment, only disclosing the identification information of the equipment, adding fault prompt information, and prompting the fault reason of the offline failure of the equipment.

Further, the device offline interaction processing procedure includes:

applying for accessing a simulation test system of an Internet of things management platform, and performing offline power-off operation on online terminal equipment;

the running of the application program of the edge Internet of things agent equipment automatically sends a Topic message of the offline of the sub-equipment to a simulation test system of the Internet of things management platform;

after receiving the sub-equipment offline message, a protocol analysis module of the IOT (Internet of things) management platform simulation test system analyzes the message, triggers the operation of offline of the sub-equipment of the system, simultaneously analyzes the content, enters an equipment offline interactive information packaging processing module, processes the message, hides the sensitive information of the sub-equipment, only selects a sub-agent equipment identifier, packages the sub-agent equipment identifier into a sub-equipment offline message text, and displays the sub-equipment offline message text on a monitoring interface in real time;

after the sub-equipment offline module of the simulation test system of the IOT management platform finishes processing, feedback information fed back to the edge IOT agent equipment simultaneously enters an equipment offline interactive information packaging processing module, if the online state of the sub-equipment is successfully modified, a message text prompting the offline success of the sub-equipment is packaged, if the online state of the sub-equipment is failed to be modified, a message text prompting the offline failure of the sub-equipment is packaged, failure reasons are prompted, and the message text is displayed on a monitoring interface in real time.

Further, the method for performing encapsulation desensitization processing on the acquired data information reported by the equipment comprises the following steps:

packaging relevant information of the equipment, analyzing the data reported by the equipment, performing standardized processing on the data format reported by the equipment, throwing the data format to a foreground, adding fault prompt information, and prompting the failure of receiving and analyzing the data reported by the equipment.

Further, the process of processing data interaction reported by the device includes:

applying for accessing a simulation test system of an Internet of things management platform, and sending acquired data to edge Internet of things agent equipment by on-line terminal equipment;

running an application program of the edge Internet of things agent equipment, and automatically sending a Topic message of equipment reporting data to a simulation test system of an Internet of things management platform;

after receiving the data message reported by the sub-equipment, the protocol analysis module of the simulation test system of the IOT management platform analyzes and analyzes the message, triggers the operation of analyzing and storing the system data, simultaneously, the analyzed content enters the equipment reported data interaction information packaging processing module to process the message, hides the sensitive information of the sub-equipment, only selects the sub-agent equipment identification and the data information reported by the sub-equipment, packages the data message text reported by the sub-equipment, and displays the data message text reported by the sub-equipment on a monitoring interface in real time;

after the data reporting module of the IOT management platform simulation test system is processed, feedback information fed back to the edge IOT agent equipment enters an equipment offline interaction information packaging processing module at the same time, if the data reported by the sub-equipment is analyzed and stored successfully, a message text prompting the success of data reported by the sub-equipment is packaged, if the data reported by the sub-equipment is analyzed and stored unsuccessfully, a message text prompting the failure of data reported by the sub-equipment is packaged, the failure reason is prompted, and the message text is displayed on a monitoring interface in real time.

Further, the encapsulation desensitization treatment is carried out on the acquired platform issued command information, and the method comprises the following processes:

the platform is issued with command information for display, feedback information after the device receives the command is analyzed and processed, the device information of the feedback information is hidden, identification information of the device is disclosed, the feedback information is processed, and prompt information is added, wherein the prompt information comprises: the device receives the command successfully, the device receives the command unsuccessfully, the reason of failure reception, the platform issues the command successfully, the platform issues the command unsuccessfully and the reason of failure issue.

Further, the platform issues a command processing procedure, which includes:

the edge Internet of things agent equipment is connected to the Internet of things management platform simulation test system and adopts an MQTT protocol for communication.

And editing command information to be issued on a command management interface of the simulation test system of the Internet of things management platform.

And clicking a command issuing button on a command management interface of the IOT simulation test system, and issuing an edited command to the specified edge IOT agent equipment.

And meanwhile, the issued message content enters a platform issued command information encapsulation processing module to carry out message processing, sensitive information in the message is hidden, only the equipment identification and the issued command information are selected, and the platform issued command information text is encapsulated and displayed on a monitoring interface in real time.

After the edge Internet of things agent equipment receives the command message and finishes processing, feedback information fed back to the simulation test system of the Internet of things management platform enters a platform issuing command interaction information packaging processing module at the same time, if the command is successfully received, a message text prompting that the platform issues the command successfully is packaged, if the command is failed to receive or the command is failed to process, a message text prompting that the platform issues the command unsuccessfully is packaged, a failure reason is prompted, and the message text is displayed on a monitoring interface in real time.

Further, the obtained process data is displayed in real time, and the process data comprises:

the equipment accesses the basic information and the fault information after the application of interactive information processing; the equipment is online and exchanges basic information and fault information after information processing; the equipment is offline and exchanges basic information and fault information after information processing; the equipment reports the data information, the interaction information and the fault information after the data information processing; and the platform issues command information, equipment feedback information and fault information after command information processing.

Compared with the prior art, the beneficial effect of this disclosure is:

1. by adding a real-time monitoring mechanism of the simulation test system of the Internet of things management platform, the real-time monitoring of the joint debugging test process is realized, the accuracy and the integrity of fault positioning processing and verification interactive information data are facilitated, the joint debugging test period is shortened, and the working efficiency of joint debugging test is improved.

2. The equipment is accessed into the interactive information packaging processing module, so that the real-time monitoring and problem fault positioning in the process of equipment access joint debugging testing are realized, and the working efficiency of joint debugging testing is accelerated.

3. The real-time monitoring and problem fault positioning of the online joint debugging test process of the equipment are realized through the online interactive information packaging processing module of the equipment, and whether the online state of the equipment is consistent with the online state of the equipment or not is monitored in real time.

4. The real-time monitoring and problem fault location of the equipment offline joint debugging test process are realized through the equipment offline interaction information packaging processing module, and whether the offline state of the equipment is consistent with the offline state of the equipment or not is monitored in real time.

5. The device reported data information encapsulation processing module realizes real-time monitoring of the whole process of device reported data, realizes analysis of reported data protocol and encapsulation desensitization processing, and monitors the device reported data in real time.

6. The platform issued command information encapsulation processing module realizes real-time monitoring of the whole process of platform issued commands, analysis and encapsulation desensitization processing of commands and interactive process information, and real-time monitoring platform issued control commands.

7. Through the real-time monitoring interface, the front-end page displays the key information after the packaging processing in the joint debugging process in real time, and a tester can conveniently check the step to which the test work progresses at any time.

Advantages of additional aspects of the disclosure will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the disclosure.

Drawings

The accompanying drawings, which are included to provide a further understanding of the disclosure, illustrate embodiments of the disclosure and together with the description serve to explain the disclosure and are not to limit the disclosure.

Fig. 1 is a functional diagram of a real-time monitoring module in a joint debugging process according to an embodiment of the present disclosure.

Fig. 2 is an architecture diagram of a joint debugging process real-time monitoring module according to an embodiment of the disclosure.

Detailed Description

The present disclosure is further described with reference to the following drawings and examples.

It should be noted that the following detailed description is exemplary and is intended to provide further explanation of the disclosure. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this disclosure belongs.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments according to the present disclosure. As used herein, the singular forms "a", "an" and "the" are intended to include the plural forms as well, and it should be understood that when the terms "comprises" and/or "comprising" are used in this specification, they specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof, unless the context clearly indicates otherwise.

The embodiments and features of the embodiments in the present disclosure may be combined with each other without conflict.

Example (b):

as shown in fig. 1 and fig. 2, an embodiment 1 of the present disclosure provides a method for monitoring a joint debugging test process of a simulation test system of an internet of things management platform in real time, which mainly includes:

the simulation test system carries out screening, packaging and desensitization treatment on a plurality of key steps and key interaction information in the equipment access process, displays the detailed process of equipment access joint debugging test in real time, and supports one-key emptying of a real-time monitoring interface to reduce content occupation, wherein the interactive information in the joint debugging test process is accurate or complete.

Key steps and key interaction information, including: equipment access request information, and feedback information of the simulation test system to the access request; the equipment uploads data information, and the simulation test system processes feedback information of the uploaded data information; the platform issues command information, and the equipment feeds back the feedback information of the command information; equipment disconnection information, namely feedback information of the simulation test system to the disconnection information; and requesting information for the equipment to be online.

The method is based on a rapid component development technology, various information interacted between a simulation test system and a marginal Internet of things agent through an MQTT protocol is subjected to protocol conversion, the converted interactive information is processed through a message encapsulation processing component, fault prompt information is added to form new encapsulation information, and the new encapsulation information is displayed on a monitoring page in real time.

Specifically, the method comprises the following steps: the device access interactive information packaging processing module, the device on-line interactive information packaging processing module, the device off-line interactive information packaging processing module, the platform issuing command information packaging processing module, the device reported data information packaging processing module and the real-time monitoring interface module.

The equipment access interactive information encapsulation processing module: aiming at the interactive information of the key step which is applied for accessing by the equipment, the equipment access interactive information packaging processing module carries out packaging desensitization processing on the key information and adds fault prompt information.

In the key step of equipment access, the edge Internet of things agent reports access equipment information which comprises information such as edge Internet of things agent equipment related information and connection information, sub-equipment identification, sub-equipment name, manufacturer ID and associated product model, the equipment access interactive information packaging processing module hides the connection information, the equipment manufacturer ID and the product model information of the edge Internet of things agent equipment, only selects the equipment identification of the edge Internet of things agent equipment, and the equipment identification and the sub-equipment name information of the sub-equipment are repackaged into concise and understandable equipment access application messages to be displayed on a monitoring interface in real time;

after the simulation test system of the IOT management platform triggers and finishes the registration operation of the sub-equipment, the equipment access interactive information packaging processing module packages and processes the result information fed back to the edge IOT agent equipment, if the sub-equipment is successfully added, a prompt message that the sub-equipment is successfully added is added into the packaged result information, if the sub-equipment is failed to be registered, failure prompt information is added into the packaged result information, and the failure reasons are colloquially described, such as the registration failure caused by the fact that the product types are not matched and the equipment identification is named irregularly, and the failure is displayed on a monitoring interface in real time.

The equipment online interaction information packaging processing module: aiming at the interactive information of the key step of the online state transformation of the equipment, the online interactive information packaging processing module of the equipment carries out packaging desensitization processing on the key information and adds fault prompt information.

In the key step of the online state transformation of the equipment, the edge Internet of things agent reports online information of the sub-equipment, wherein the online information comprises information such as relevant information and connection information of the edge Internet of things agent equipment, sub-equipment identification, sub-equipment name and sub-equipment connection;

after the simulation test system of the IOT management platform triggers and finishes online operation of the sub-equipment, the online interactive information packaging processing module of the equipment packages and processes result information fed back to the edge IOT agent equipment in the same way, if the online state of the sub-equipment is updated successfully, a prompt message of online of the sub-equipment is added in the packaged result information, if the online state of the sub-equipment is failed to change, a prompt message of online failure of the sub-equipment is added in the packaged result information, and the failure reason is colloquially described, for example, the state of the sub-equipment is already in an online state, the online state of the locked equipment in a database fails to update, and the sub-equipment is displayed on a monitoring interface in real time.

The equipment offline interaction information packaging processing module: and aiming at the interactive information of the key step of the equipment offline state transformation, the equipment offline interactive information packaging processing module carries out packaging desensitization processing on the key information and adds fault prompt information.

In the key step of equipment offline state transformation, the edge Internet of things agent reports the offline information of the sub-equipment, wherein the offline information comprises information such as edge Internet of things agent equipment related information and connection information, sub-equipment identification, sub-equipment name and sub-equipment connection;

after the simulation test system of the IOT management platform triggers and finishes the offline operation of the sub-equipment, the equipment offline interaction information packaging processing module feeds back result information to the edge IOT agent equipment for packaging in the same way, if the online state of the sub-equipment is updated successfully, a prompt message of the offline of the sub-equipment is added in the packaged result information, if the online state of the sub-equipment is failed to be changed, a prompt message of the offline failure of the sub-equipment is added in the packaged result information, and the failure reason is colloquially described, for example, the state of the sub-equipment is already in an offline state, the online state of the locked equipment in a database fails to be updated, and the failure reason is displayed on a monitoring interface in real time.

The device reports data information and encapsulates the processing module: aiming at the interactive information of the key step of the data reported by the equipment, the encapsulation processing module of the data reported by the equipment encapsulates and desensitizes the key information, analyzes the data reported by the equipment and adds fault prompt information.

In the key step of reporting data by the equipment, the edge internet of things agent reports data information which comprises relevant information and connection information of the edge internet of things agent equipment, basic information and connection information of the sub-equipment of the collected information, and the data information;

after the simulation test system of the IOT management platform triggers and finishes data analysis and storage operation, the equipment reported data information encapsulation processing module feeds back result information to the edge IOT agent equipment for encapsulation processing in the same way, if the data information analysis and storage is successful, a prompt message of successful data reporting is added in the encapsulated result information, if the data information analysis and storage is failed, data reporting failure prompt information is added in the encapsulated result information, and the failure reasons are colloquially described, for example, the data reporting and storage failure of a locked data in a database, the data reporting failure of a certain field value type which does not meet the requirement, the data reporting failure of a certain field value data which is too long, and the data reporting failure is displayed on a monitoring interface in real time.

The platform issues a command information packaging processing module: aiming at the interactive information of the key step of the platform issued command, the platform issued command information packaging processing module carries out packaging desensitization processing on the key information, analyzes the equipment feedback information and adds fault prompt information. In the key step of platform issuing command, the simulation test system of the IOT management platform issues command to the edge IOT agent, including the relevant information and connection information of the appointed edge IOT agent equipment and command instruction information, the platform issues command information packaging processing module to hide the connection information of the edge IOT agent equipment, only selects the equipment identification of the edge IOT agent equipment, and repackages the command information into concise and understandable command information to be displayed on the monitoring interface in real time;

after receiving the command, the edge internet of things agent feeds back information to the simulation test system of the internet of things management platform, the platform issued command information packaging processing module packages and processes the feedback information in the same way, if the feedback is successful information, a prompt message that the command is successfully issued is added in the packaged result information, if the feedback is successful information, a prompt message that the command is failed to issue is added in the packaged result information, and the failure reason is colloquially described, for example, if the feedback information is not received for a long time to prompt the network reason or the equipment reason that the command is failed to issue, and the command format fails to issue by mistake, the failure reason is displayed on the monitoring interface in real time.

The real-time monitoring interface module: the key information processed in the joint debugging process is displayed in real time, the problems are conveniently positioned, the accuracy and the integrity of interactive data are conveniently checked, the one-key screen clearing function is achieved, and real-time monitoring and targeted monitoring in the joint debugging test process are facilitated.

The terminal equipment accesses the simulation test system of the IOT management platform through the edge IOT agent equipment to perform joint debugging tests of equipment access, equipment on-line and off-line, equipment data reporting, platform command issuing and the like. Mutual information in the joint debugging process is analyzed through the protocol analysis module and then is subjected to screening, packaging and desensitization treatment, the processed mutual information is displayed on a joint debugging monitoring interface, the joint debugging working process can be checked, and meanwhile the accuracy and the integrity of the mutual information can be checked.

In this embodiment, the internet of things management platform is deployed at the cloud end, so as to implement online management and remote operation and maintenance of various types of edge internet of things agents and intelligent terminals, and perform unified management on various types of acquisition terminals. And gathering various types of acquired sensing data according to the unified Internet of things information model, performing model conversion and data preprocessing, and distributing the acquired sensing data to the enterprise middle platforms or related professional systems without storing the acquired sensing data for a long time.

The sensing layer device is a device which can measure and sense the state of a power grid object or environment and has all or partial functions of data processing, communication, human-computer interaction and the like, and mainly comprises an edge internet of things agent, a terminal device and a sensor.

The edge internet of things agent is network connection equipment deployed in a perception layer, realizes functions of interconnection, edge calculation, regional autonomy and the like between terminal equipment and an internet of things management platform, and is an intelligent special device without sensing acquisition. The edge Internet of things agent belongs to sensing layer equipment, can have various forms under different application scenes, can have edge calculation and Internet of things communication functions at the same time, and can also only have the Internet of things communication function.

The terminal device is a device which can measure and sense the state of a power grid object or environment, has all or partial functions of simple data processing, communication, human-computer interaction and the like, generally does not have edge computing capability, belongs to sensing layer devices, comprises an intelligent terminal and a non-intelligent terminal, and is generally a terminal node in an intelligent internet of things system.

The sub-equipment refers to various power terminals and sensor equipment which are hung on the edge Internet of things agent equipment through a local communication network.

MQTT refers to Message queuing technical Transport Protocol, is an internet of things transmission Protocol, is designed for lightweight publish/subscribe Message transmission, and aims to provide reliable network service for internet of things devices in low-bandwidth and unstable network environments.

The above description is only a preferred embodiment of the present disclosure and is not intended to limit the present disclosure, and various modifications and changes may be made to the present disclosure by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present disclosure should be included in the protection scope of the present disclosure.

Claims (10)

1. A real-time monitoring method for joint debugging test process of a simulation test system of an Internet of things management platform is characterized by comprising the following steps: the method comprises the following steps:

acquiring key information of an access process of the equipment of the Internet of things management platform, wherein the key information at least comprises equipment access interaction information, equipment online interaction information, equipment offline interaction information, equipment reported data information and platform issued command information;

and performing encapsulation desensitization treatment on the acquired process key information to obtain process data of equipment access joint debugging test, and displaying the obtained process data in real time.

2. The method for monitoring the joint debugging test process of the simulation test system of the internet of things management platform according to claim 1, wherein the method comprises the following steps:

the method for carrying out encapsulation desensitization treatment on the acquired equipment access interaction information comprises the following processes:

the method comprises the steps of hiding equipment information for which the equipment applies for access, hiding authentication information for which the equipment applies for access, adding fault prompt information, and prompting fault reasons for which the equipment fails to access.

3. The method for monitoring the joint debugging test process of the simulation test system of the internet of things management platform according to claim 1, wherein the method comprises the following steps:

packaging desensitization treatment is carried out on the acquired online interactive information of the equipment, and the method comprises the following processes:

and hiding basic information of the online equipment, only disclosing identification information of the equipment, adding fault prompt information, and prompting fault reasons of online failure of the equipment.

4. The method for monitoring the joint debugging test process of the simulation test system of the internet of things management platform according to claim 1, wherein the method comprises the following steps:

packaging desensitization treatment is carried out on the acquired equipment offline interaction information, and the method comprises the following processes:

and hiding the basic information of the offline equipment, only disclosing the identification information of the equipment, adding fault prompt information, and prompting the fault reason of the offline failure of the equipment.

5. The method for monitoring the joint debugging test process of the simulation test system of the internet of things management platform according to claim 1, wherein the method comprises the following steps:

the method for carrying out encapsulation desensitization processing on the acquired data information reported by the equipment comprises the following processes:

packaging relevant information of the equipment, analyzing the data reported by the equipment, performing standardized processing on the data format reported by the equipment, throwing the data format to a foreground, adding fault prompt information, and prompting the failure of receiving and analyzing the data reported by the equipment.

6. The method for monitoring the joint debugging test process of the simulation test system of the internet of things management platform according to claim 1, wherein the method comprises the following steps:

the method for carrying out encapsulation desensitization treatment on the acquired platform issued command information comprises the following processes:

the platform is issued with command information for display, feedback information after the device receives the command is analyzed and processed, the device information of the feedback information is hidden, identification information of the device is disclosed, the feedback information is processed, and prompt information is added, wherein the prompt information comprises: the device receives the command successfully, the device receives the command unsuccessfully, the reason of failure reception, the platform issues the command successfully, the platform issues the command unsuccessfully and the reason of failure issue.

7. The method for monitoring the joint debugging test process of the simulation test system of the internet of things management platform according to claim 1, wherein the method comprises the following steps:

displaying the obtained process data in real time, wherein the process data comprises:

the equipment accesses the basic information and the fault information after the application of interactive information processing; the equipment is online and exchanges basic information and fault information after information processing; the equipment is offline and exchanges basic information and fault information after information processing; the equipment reports the data information, the interaction information and the fault information after the data information processing; and the platform issues command information, equipment feedback information and fault information after command information processing.

8. The method for monitoring the joint debugging test process of the simulation test system of the internet of things management platform according to claim 1, wherein the method comprises the following steps:

the device access interaction processing process comprises the following steps:

electrifying the terminal equipment, communicating with the edge Internet of things agent equipment, and importing the edited product model file into the Internet of things management platform simulation test system;

the edge Internet of things agent equipment is provided with a corresponding application program, edits a configuration file, and configures address, port, user name and password information required by MQTT protocol communication;

starting a container and an application program on the edge Internet of things agent equipment, wherein the edge Internet of things agent equipment is connected with the Internet of things management platform simulation test system, and the application program of the edge Internet of things agent equipment can automatically send a Topic message for registering the sub-equipment to the Internet of things management platform simulation test system when running;

after receiving the information of the registration sub-equipment, the protocol analysis module of the Internet of things management platform simulation test system analyzes the information, triggers the operation of the registration sub-equipment of the system, simultaneously analyzes the content to enter the equipment and access the interactive information encapsulation processing module, processes the information, hides the sensitive information of the edge Internet of things agent equipment, only selects the identification of the edge Internet of things agent equipment and the identification information of the sub-equipment to be registered, encapsulates the information into a registration message text of the sub-equipment, and displays the registration message text on a monitoring interface in real time;

after the registration module of the sub-equipment of the simulation test system of the IOT management platform finishes processing, feedback information fed back to the edge IOT agent equipment enters an equipment access interactive information packaging processing module at the same time; if the registration is successful, a message text for prompting the successful registration of the sub-equipment is packaged; if the registration fails, a message text for prompting the registration failure of the sub-equipment is packaged, the failure reason is prompted, and the message text is displayed on a monitoring interface in real time;

alternatively, the first and second electrodes may be,

the online interaction processing process of the equipment comprises the following steps:

applying for accessing a simulation test system of an Internet of things management platform, and electrifying and connecting the offline terminal equipment again;

running an application program of the edge Internet of things agent equipment, and automatically sending a Topic message of online sub-equipment to a simulation test system of an Internet of things management platform;

after receiving the on-line message of the sub-equipment, a protocol analysis module of the simulation test system of the Internet of things management platform analyzes the message, triggers the on-line operation of the sub-equipment of the system, simultaneously analyzes the content to enter an on-line interactive information packaging processing module of the equipment, processes the message, hides the sensitive information of the sub-equipment, only selects a sub-agent equipment identifier, packages the sensitive information into an on-line message text of the sub-equipment, and displays the on-line message text on a monitoring interface in real time;

after the online module of the sub-equipment of the simulation test system of the Internet of things management platform finishes processing, feedback information fed back to the edge Internet of things agent equipment simultaneously enters an online interactive information packaging processing module of the equipment, if the online state of the sub-equipment is successfully modified, a message text prompting the online success of the sub-equipment is packaged, if the online state of the sub-equipment is failed to be modified, a message text prompting the online failure of the sub-equipment is packaged, the failure reason is prompted, and the message text is displayed on a monitoring interface in real time;

alternatively, the first and second electrodes may be,

the equipment offline interaction processing process comprises the following steps:

applying for accessing a simulation test system of an Internet of things management platform, and performing offline power-off operation on online terminal equipment;

the running of the application program of the edge Internet of things agent equipment automatically sends a Topic message of the offline of the sub-equipment to a simulation test system of the Internet of things management platform;

after receiving the sub-equipment offline message, a protocol analysis module of the IOT (Internet of things) management platform simulation test system analyzes the message, triggers the operation of offline of the sub-equipment of the system, simultaneously analyzes the content, enters an equipment offline interactive information packaging processing module, processes the message, hides the sensitive information of the sub-equipment, only selects a sub-agent equipment identifier, packages the sub-agent equipment identifier into a sub-equipment offline message text, and displays the sub-equipment offline message text on a monitoring interface in real time;

after the sub-equipment offline module of the simulation test system of the IOT management platform finishes processing, feedback information fed back to the edge IOT agent equipment simultaneously enters an equipment offline interactive information packaging processing module, if the online state of the sub-equipment is successfully modified, a message text prompting the offline success of the sub-equipment is packaged, if the online state of the sub-equipment is failed to be modified, a message text prompting the offline failure of the sub-equipment is packaged, failure reasons are prompted, and the message text is displayed on a monitoring interface in real time.

9. The method for monitoring the joint debugging test process of the simulation test system of the internet of things management platform according to claim 1, wherein the method comprises the following steps:

the interactive processing process of the reported data of the equipment comprises the following steps:

applying for accessing a simulation test system of an Internet of things management platform, and sending acquired data to edge Internet of things agent equipment by on-line terminal equipment;

running an application program of the edge Internet of things agent equipment, and automatically sending a Topic message of equipment reporting data to a simulation test system of an Internet of things management platform;

after receiving the data message reported by the sub-equipment, the protocol analysis module of the simulation test system of the IOT management platform analyzes and analyzes the message, triggers the operation of analyzing and storing the system data, simultaneously, the analyzed content enters the equipment reported data interaction information packaging processing module to process the message, hides the sensitive information of the sub-equipment, only selects the sub-agent equipment identification and the data information reported by the sub-equipment, packages the data message text reported by the sub-equipment, and displays the data message text reported by the sub-equipment on a monitoring interface in real time;

after the data reporting module of the IOT management platform simulation test system is processed, feedback information fed back to the edge IOT agent equipment enters an equipment offline interaction information packaging processing module at the same time, if the data reported by the sub-equipment is analyzed and stored successfully, a message text prompting the success of data reported by the sub-equipment is packaged, if the data reported by the sub-equipment is analyzed and stored unsuccessfully, a message text prompting the failure of data reported by the sub-equipment is packaged, the failure reason is prompted, and the message text is displayed on a monitoring interface in real time.

10. The method for monitoring the joint debugging test process of the simulation test system of the internet of things management platform according to claim 1, wherein the method comprises the following steps:

the platform issuing command processing process comprises the following steps:

the edge Internet of things agent equipment is connected to the Internet of things management platform simulation test system and adopts an MQTT protocol for communication.

And editing command information to be issued on a command management interface of the simulation test system of the Internet of things management platform.

And clicking a command issuing button on a command management interface of the IOT simulation test system, and issuing an edited command to the specified edge IOT agent equipment.

And meanwhile, the issued message content enters a platform issued command information encapsulation processing module to carry out message processing, sensitive information in the message is hidden, only the equipment identification and the issued command information are selected, and the platform issued command information text is encapsulated and displayed on a monitoring interface in real time.

After the edge Internet of things agent equipment receives the command message and finishes processing, feedback information fed back to the simulation test system of the Internet of things management platform enters a platform issuing command interaction information packaging processing module at the same time, if the command is successfully received, a message text prompting that the platform issues the command successfully is packaged, if the command is failed to receive or the command is failed to process, a message text prompting that the platform issues the command unsuccessfully is packaged, a failure reason is prompted, and the message text is displayed on a monitoring interface in real time.

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