CN114389963B - Whole-process debugging method and device for fast access of integrated terminal of Internet of things - Google Patents

Abstract

The invention discloses a whole process debugging method and device for fast access of an internet of things fusion terminal, comprising the following steps: the equipment primary modeling, secondary model information association, side-to-end equipment registration, fusion terminal online verification, real-time data storage and sampling data storage are convenient for engineering personnel to debug the terminal, the problem that each link is easy to occur when the fusion terminal is accessed is found, the verification is carried out on each flow of the fusion terminal such as access, data uploading, forwarding, storage and the like, and the node data information can be checked by clicking each link; when verification of a link fails, information such as the reason of the failure of the link can be checked.

Description

Whole-process debugging method and device for fast access of integrated terminal of Internet of things

Technical Field

The invention belongs to the technical field of power electronics, and particularly relates to an overall process debugging method and device for quick access of an internet of things fusion terminal.

Background

With the construction of the distribution internet of things, distributed energy and electric vehicles are accessed into a distribution network in a large scale, supply and demand interaction between users and a power grid is continuously increased, and challenges are provided for the area management of the distribution network. Meanwhile, a large number of fusion terminals are connected into the distribution network, and the acquisition and edge calculation capabilities of the fusion terminals provide high requirements and high standards for the power supply reliability and the power supply service capability of the urban distribution network. However, when a problem occurs in a certain link in the access process of the fusion terminal, the investigation is performed only manually at present, but the investigation is performed manually, which has the following disadvantages: the investigation efficiency is low, the difficulty is big, the cost is high, and timeliness is difficult to guarantee.

Disclosure of Invention

The invention aims to: in order to solve the problem that the quick access of the fusion terminal cannot be efficiently checked when the problem exists in the access process of the fusion terminal, the invention provides a whole-process debugging method and a whole-process debugging device aiming at the quick access of the fusion terminal of the Internet of things.

The technical scheme is as follows: the whole process debugging method for the fast access of the fusion terminal of the Internet of things comprises the following steps:

Step 1: judging whether the fusion terminal corresponding to the fusion terminal number has associated primary equipment according to the fusion terminal number, if so, judging whether power distribution exists according to the associated primary equipment number, and if so, executing the step 2; if the power distribution does not exist, sending a primary equipment unmodeled information prompt to a user side; if the associated primary equipment does not exist, a secondary equipment unassociated information prompt is sent to the user side;

Step 2: checking the registration condition of the side and end equipment according to the registration state of the fusion terminal corresponding to the fusion terminal number, and if the registration state is not available, sending an unregistered information prompt of the side and the end equipment to the user side; if the registration state exists, executing the step 3;

Step 3: judging the online state of the fusion terminal according to the online state value of the fusion terminal corresponding to the fusion terminal number, and executing the step 4 if the fusion terminal is online; if the fusion terminal is offline, sending a prompt that the online state verification of the fusion terminal is not passed and the offline information of the fusion terminal to a user side;

Step 4: inquiring data stored in real time by the fusion terminal in the uploading period according to the serial number of the fusion terminal, judging whether the number of the effective telemetry values in the uploading period of the fusion terminal is larger than a threshold value and whether the telemetry accumulated value is larger than or equal to 0, if the number of the effective telemetry values in the uploading period of the fusion terminal is larger than the threshold value and the telemetry accumulated value is larger than or equal to 0, executing the step 5, otherwise, transmitting the access service data to the Internet of things management platform and checking that the real-time data of the fusion terminal does not pass through a prompt;

Step 5: inquiring the sampled data according to the sampling time and the telemetry type, and if any adjacent sampling values in all the inquired sampled data are inconsistent, completing the whole process debugging; otherwise, sending the fusion terminal sampling data storage to the user side without prompting.

Further, when the online state of the fusion terminal is not checked and the fusion terminal is offline, related information is displayed to a user side for maintenance operation of the user according to a user request.

Further, when the online state of the fusion terminal is not checked and the fusion terminal is offline, displaying related information to a user side for maintenance operation of the user according to a user request, and specifically implementing the steps includes:

Acquiring an IP address of a fusion terminal input by a user from the user request, and calling a target diagnosis command to access the IP address to diagnose the port communication state of the fusion terminal to obtain the port communication state, wherein the target diagnosis command comprises at least one of the following components: ping commands, netstat commands.

Further, when the real-time data of the internet of things management platform forwarding access service data and the fusion terminal fails to pass the verification, related information is displayed to a user side for maintenance operation of the user according to the user request.

Further, when the real-time data verification of the internet of things management platform forwarding access service data and the fusion terminal fails, relevant information is displayed to the user side for maintenance operation of the user according to the user request, and the specific implementation steps include:

Acquiring a fusion terminal number input by a user from the user request, calling a navigation tree generation command, generating a navigation tree data format according to the fusion terminal number, and generating a secondary equipment navigation tree at one side and multiple ends at the user side;

Acquiring a secondary equipment navigation tree node, calling a command for forwarding a real-time message to obtain the real-time message, and packaging the real-time message into a form data format; calling a real-time data storage command to obtain real-time data storage of the secondary equipment navigation tree node, and packaging the real-time data storage of the secondary equipment navigation tree node into a form data format;

And displaying the real-time message packaged into the form data format and the real-time storage data of the secondary equipment navigation tree node packaged into the form data format on a user side.

Further, the real-time message packaged into the form data format and the secondary equipment navigation tree node packaged into the form data format are stored as history data in real time for the user to inquire.

Further, the storing data of the real-time message packaged into the form data format and the secondary equipment navigation tree node packaged into the form data format as history data in real time is stored for the user to inquire, and the specific implementation steps include:

And acquiring a user request, acquiring navigation tree nodes and time conditions selected by a user from the user request, calling a historical data query command to obtain historical data meeting the time conditions, and displaying on a user side.

Further, when the sampling data storage of the fusion terminal is failed, related information is displayed to a user side for maintenance operation of the user according to a user request.

Further, when the sampling data storage of the fusion terminal fails, related information is displayed to the user side for maintenance operation of the user according to the user request, and the specific implementation steps include:

Acquiring a sampling time period selected by a user from the user request, and calling a sampling value information inquiry module to obtain sampling value information meeting the sampling time period; and calling a line diagram generation command, and displaying the sampling value information meeting the sampling time period in a line diagram mode on a user side.

The invention discloses a whole process debugging device for fast access of an internet of things fusion terminal, which comprises the following steps:

The secondary model checking module is used for judging whether the fusion terminal corresponding to the fusion terminal number has associated primary equipment according to the fusion terminal number, if so, judging whether power distribution exists according to the associated primary equipment number, and if so, calling the side and end equipment registration checking module; if the power distribution does not exist, sending a primary equipment unmodeled information prompt to a user side; if the associated primary equipment does not exist, a secondary equipment unassociated information prompt is sent to the user side;

the side and end equipment registration verification module is used for verifying the registration condition of the side and end equipment according to the registration state of the fusion terminal corresponding to the fusion terminal number, and if the registration state is not available, sending an unregistered information prompt of the side and end equipment to the user side; if the registration state exists, calling an online state verification module of the fusion terminal;

The fusion terminal online state verification module is used for judging the online state of the fusion terminal according to the online state value of the fusion terminal corresponding to the fusion terminal number, and if the fusion terminal is online, the fusion terminal forwarding access service data and the real-time data verification module are called; if the fusion terminal is offline, sending a prompt that the online state verification of the fusion terminal is not passed and the offline information of the fusion terminal to a user side;

The system comprises an Internet of things management platform forwarding access service data and a fusion terminal real-time data verification module, wherein the Internet of things management platform forwarding access service data and the fusion terminal real-time data verification module is used for inquiring data stored in real time by the fusion terminal in an uploading period according to the serial number of the fusion terminal, judging whether the number of valid telemetry values in the uploading period of the fusion terminal is larger than a threshold value and whether a telemetry accumulated value is larger than or equal to 0, if the number of valid telemetry values in the uploading period of the fusion terminal is larger than the threshold value and the telemetry accumulated value is larger than or equal to 0, calling the fusion terminal sampling data storage verification module, otherwise, sending the Internet of things management platform forwarding access service data and the fusion terminal real-time data verification to a user side without prompting;

The fusion terminal sampling data storage and verification module is used for inquiring sampling data according to sampling time and telemetry types, and if any adjacent sampling values in all the inquired sampling data are inconsistent, the whole process debugging is completed; otherwise, sending the fusion terminal sampling data storage to the user side without prompting.

Further, the secondary model checking module, the side and end equipment registration checking module, the fusion terminal online state checking module, the internet of things management platform forwarding access service data, the fusion terminal real-time data checking module and the fusion terminal sampling data storage checking module are all realized based on a micro-service architecture and are all independently deployed at the cloud master station.

Further, the system also comprises a user request response module, which is used for displaying related information to a user side for maintenance operation of the user according to the user request.

Further, the user request response module includes: and the fusion terminal online state check fails and one or more of the fusion terminal offline user request response module, the internet of things management platform forwarding access service data, the fusion terminal real-time data check and check detail request response module and the fusion terminal sampling data storage check and check detail request response module.

Further, the converged terminal online state verification fails and the converged terminal offline user request response module is configured to obtain a user request when the converged terminal online state verification fails and the converged terminal offline, obtain an IP address of the converged terminal input by a user from the user request, and invoke a target diagnosis command to access the IP address to perform port communication state diagnosis on the converged terminal, so as to obtain a port communication state, where the target diagnosis command includes at least one of the following: ping commands, netstat commands.

Further, the request response module for checking and checking the real-time data of the access service data and the fusion terminal forwarded by the internet of things management platform is used for acquiring a user request when the real-time data of the access service data and the fusion terminal forwarded by the internet of things management platform fails to pass, acquiring a fusion terminal number input by a user from the user request, calling a navigation tree generation command, generating a navigation tree data format according to the fusion terminal number, and generating a secondary device navigation tree at one side by multiple ends; based on the secondary equipment navigation tree node, calling a command for forwarding the real-time message to obtain the real-time message, and packaging the real-time message into a form data format; calling a real-time data storage command of the fusion terminal to obtain real-time data storage of the fusion terminal, and packaging the real-time data storage of the fusion terminal into a form data format; and displaying the real-time message packaged into the form data format and the real-time storage data of the fusion terminal packaged into the form data format on a user side.

Further, the request response module for checking and checking details of the sampling data storage of the fusion terminal is used for acquiring a user request when the sampling data storage fails, acquiring a sampling time period selected by a user from the user request, and calling a sampling value information query command of the fusion terminal to acquire sampling value information meeting the sampling time period; and calling a line diagram generation command, and displaying the sampling value information meeting the sampling time period in a line diagram mode on a user side.

The beneficial effects are that: by adopting the debugging method or the debugging device, engineering personnel can conveniently debug the fusion terminal, the problems easily occurring in each link when the fusion terminal is accessed can be found in time, each flow of accessing, data uploading, forwarding, storing and the like of the fusion terminal can be verified, the whole complete operation process can be more clearly known, and the reason of verification failure in the prompting process can be more clearly understood; in the data access process, the field engineering personnel can intuitively locate the problem through the page and quickly solve the problem.

Drawings

FIG. 1 is a flow chart of the present invention;

FIG. 2 is a flow chart of the invention for acquiring all data associated with a converged terminal in accordance with an organization structure;

FIG. 3 is a flow chart of the modeling/association/registration check of the present invention;

FIG. 4 is a flow chart of the fusion terminal online verification of the present invention;

FIG. 5 is a flow chart of the fusion terminal forwarding access service data and real-time data verification of the present invention;

FIG. 6 is a flow chart of the fusion terminal sample data storage verification of the present invention;

FIG. 7 is a check main flow diagram user interface;

FIG. 8 is a user interface for modeling/association/registration verification;

FIG. 9 is a user interface for online verification of converged terminals;

FIG. 10 is a user interface for converged terminal forwarding access service data and real-time data verification;

FIG. 11 is a user interface for fusion terminal sample data storage verification.

Detailed Description

The technical scheme of the invention is further described with reference to the accompanying drawings and the embodiments.

As shown in fig. 1, the whole process debugging method of the present invention obtains and displays terminal service table data according to an organization structure, and performs problem investigation on the data. The steps of the method will now be described from the system side:

Step 1: the corresponding organization structure is obtained according to the login account authority, and all associated fusion terminal information is displayed according to the organization structure, and the specific implementation steps are as follows: the user fills in/selects the screening condition by selecting the navigation node in the navigation tree, the system reads all information of the region table and the associated internet of things management docking service table according to the navigation tree node selected by the user and the screening condition filled in/selected by the user, and obtains relevant information of all fusion terminals meeting the screening condition corresponding to the navigation tree node, wherein the relevant information refers to all data associated with the fusion terminals, the obtained relevant information is packaged into a table format, and the relevant information of all fusion terminals meeting the screening condition corresponding to the selected navigation tree node is displayed in the table format at the user side for the user to select at least one target fusion terminal, and the specific flow can be seen in fig. 2.

The organization structure in this step refers to an organization structure divided by geographic area, for example: province level, city level, county level and the like, the organization structure is displayed to a user in the form of a navigation tree, navigation nodes in the navigation tree correspond to areas of a certain region, and if the user selects one navigation tree node (for example, nanjing city) in the navigation tree and fills in screening conditions (for example, abnormal operation state), relevant information of all fusion terminals with abnormal operation state in the areas corresponding to Nanjing city is screened out. All data associated with the converged terminal indicated in this step include, but are not limited to, the following: terminal name, commissioning status, whether online, commissioning time, terminal IP, belonging project, belonging product, product version, device identification code, associated device, associated name, associated service type, associated mode, service information, creation time, data validity, belonging gateway, belonging feeder, whether to place subpoena book, device firmware version.

Step 2: and receiving and checking the request according to the data flow sent by the user, and carrying out fusion check on each target fusion terminal through the subsequent steps. The user clicks a data flow check button to send a data flow check request.

Step 3: and checking whether the secondary equipment, the edge equipment and the end equipment are modeled/associated/registered successfully or not through the target fusion terminal number, and checking to pass when the secondary equipment model is established and the edge equipment is registered.

The processing procedure of the modeling/association/registration verification step will now be described with reference to fig. 3: after receiving a data flow checking request from a user side, the system side judges whether primary equipment associated with the target fusion terminal exists according to the number of the target fusion terminal, and if the primary equipment associated with the target fusion terminal does not exist, a secondary equipment unassociated information prompt is sent to the user side; if so, checking whether the distribution transformer exists according to the number of the associated primary equipment; if the configuration transformer does not exist, sending a primary equipment unmodeled information prompt to a user side; if the configuration transformer exists, a secondary model verification passing prompt is sent to the user side, and side and end equipment registration condition verification is carried out according to the registration state of the target fusion terminal; if no registration state exists, sending an unregistered information prompt of the side and the end equipment to the user side; if the registration state exists, a modeling/association/registration verification passing prompt is sent to the user side.

Step 4: and checking the online state of the target fusion terminal, judging whether the fusion terminal is online, and if so, checking to pass.

The process of checking the online state of the target fusion terminal will be described with reference to fig. 4: when the modeling/association/registration check passes, the check is performed. The system reads the online state value according to the number of the target fusion terminal, judges the online state of the target fusion terminal based on the online state value, and sends a verification passing prompt of the online state of the target fusion terminal to a user side if the target fusion terminal is online; if the terminal is offline, sending a prompt that the online state verification of the target fusion terminal is not passed and the terminal offline information to the user side. And clicking the online check word of the fusion terminal after the user receives the prompt that the online state check of the target fusion terminal does not pass and the offline information of the terminal, inputting the IP address of the fusion terminal, and completing the user request transmission so as to acquire the related information for maintenance operation. At this time, the system displays relevant information to the user side for maintenance operation of the user according to the user request; the implementation manner of displaying the related information to the user side is various and is not limited to the specific implementation manner provided by the embodiment of the application. The following is a specific embodiment: acquiring an IP address of a fusion terminal input by a user and a target port needing to carry out communication state diagnosis from a user request, and calling a target diagnosis command to access the IP address to carry out port communication state diagnosis on the fusion terminal to obtain a port communication state, wherein the target diagnosis command comprises at least one of the following components: ping commands, netstat commands.

Step 5: the internet of things management platform forwards access service data and fuses real-time data storage verification of the terminal; judging whether the number of the effective telemetry values in the uploading period of the target fusion terminal is larger than a threshold value and whether the telemetry accumulated value is larger than or equal to 0, if the number of the effective telemetry values in the uploading period of the target fusion terminal is larger than the threshold value and the telemetry accumulated value is larger than or equal to 0, checking; otherwise, the verification is not passed.

The processing procedure of the step of storing and checking the real-time data of the integrated terminal by forwarding access service data by the internet of things management platform will now be described with reference to fig. 5: when the online state verification of the target fusion terminal passes the online verification, performing the online verification; the system acquires the serial numbers of the fusion terminals, the data types and the real-time storage data of the target fusion terminals, and performs verification according to the acquired data, namely, whether the number of the effective telemetry values in the uploading period of the target fusion terminals is larger than a threshold value and whether the telemetry accumulated value is larger than or equal to 0 is judged, and if the number of the effective telemetry values in the uploading period of the target fusion terminals is larger than the threshold value and the telemetry accumulated value is larger than or equal to 0, the verification is passed; otherwise, the verification is not passed. When the verification is not passed and the request for forwarding access service data and checking and viewing details of real-time data by the fusion terminal is received, displaying related information to a user side for maintenance operation of the user, and displaying the related information to the user side in various implementation modes, which are not limited to the specific implementation modes provided by the embodiment of the application. The following is a specific embodiment: acquiring a fusion terminal number input by a user from a user request, calling a navigation tree generation command, generating a navigation tree data format according to the fusion terminal number, and generating a secondary equipment navigation tree at one side and multiple ends at the user side; acquiring a secondary equipment navigation tree node from a user request, calling a command for forwarding the real-time message to obtain a real-time message of the Internet of things management platform, and packaging the real-time message of the Internet of things management platform into a form data format; calling a real-time data storage command to obtain real-time data storage of the secondary equipment navigation tree node, and packaging the real-time data storage of the secondary equipment navigation tree node into a form data format; real-time data of real-time messages of the Internet of things management platform packaged into the form data format and real-time storage data of the navigation tree nodes of the secondary equipment packaged into the form data format are displayed on a user side through two forms. And storing the real-time message packaged into the form data format and the real-time storage data of the secondary equipment navigation tree node packaged into the form data format as historical data for the user to inquire.

The implementation manner for the user to inquire is various and is not limited to the specific implementation manner provided by the embodiment of the application. The following is a specific embodiment: the user may query the history data by selecting a navigation tree node, clicking the history data, and selecting a time condition according to the displayed table. When receiving a historical data request sent by a user, the system calls a historical data command according to the navigation tree node and the data type to obtain required historical data, packages the required historical data into a table data format, returns the table data format to the user side, and displays a historical message of a certain time period of the navigation tree node on the user side. The user can inquire the uplink and downlink message data by selecting the navigation tree node, clicking the uplink and downlink message data and selecting the time condition, when the system receives an uplink and downlink message data request sent by the user, the system calls the uplink and downlink message inquiry command according to the acquired navigation tree node and data type to obtain the uplink and downlink message data, packages the uplink and downlink message data into a form data format, returns the form data format to the user side, and displays the uplink and downlink message data of a certain time period of the navigation tree node on the page of the user side.

The method for quickly positioning the access problem of the fusion terminal is provided for the site, wherein the related data are divided into real-time messages of an Internet of things management platform and real-time storage data of the fusion terminal, and the data types are divided into remote signaling and remote measurement. Real-time message of the internet of things management platform is inquired, real-time data storage of the terminal is supported and packaged, and a user can compare through visual data tables; and supporting the inquiry history message and the uplink and downlink message data. And on-site personnel forward and fuse the real-time storage data comparison of the terminal through the Internet of things management platform in the real-time data of the page, so that the problem can be rapidly positioned and cleared.

Step 6: storing and checking sampling data; and if any adjacent sampling values in all telemetry are inconsistent, checking is passed.

The processing procedure of the sample data storage verification step will now be described with reference to fig. 6: after the real-time data verification of the access service data and the fusion terminal forwarded by the internet of things management platform passes, the system analyzes and verifies sampling historical data according to sampling time and telemetry types, and if adjacent sampling values are inconsistent, the verification is successful; otherwise, the verification fails. When the system receives a request for storing check details of sampling data sent by a user, sampling value information is displayed to a user side in a line diagram, and the user can select a sampling time period and a telemetry type to inquire. The sampling value of the line graph shows that the condition screening of day, week, month, year, custom date, current, voltage, active, reactive and the like is supported for inquiry. The problem can be rapidly positioned and solved through the sampling value information displayed by the page line graph.

The invention also discloses a whole process debugging device for the quick access of the fusion terminal of the Internet of things, which is developed based on a micro-service architecture and implements the development ideas of high cohesion and low coupling. The complexity problem is solved by decomposing the huge monomer type application into a plurality of service methods; each service can be developed by a special development team, and a developer can freely select development technology to provide public interface service; the micro-service architecture mode is independent deployment of each micro-service, so that a developer does not need to coordinate the influence of other service deployment on the service, and the deployment speed is increased. The method specifically comprises the following steps:

The secondary model checking module is used for judging whether the fusion terminal corresponding to the fusion terminal number has associated primary equipment according to the fusion terminal number, if so, judging whether power distribution exists according to the associated primary equipment number, and if so, calling the side and end equipment registration checking module; if the power distribution does not exist, sending a primary equipment unmodeled information prompt to a user side; if the associated primary equipment does not exist, a secondary equipment unassociated information prompt is sent to the user side;

the side and end equipment registration verification module is used for verifying the registration condition of the side and end equipment according to the registration state of the fusion terminal corresponding to the fusion terminal number, and if the registration state is not available, sending an unregistered information prompt of the side and end equipment to the user side; if the registration state exists, calling an online state verification module of the fusion terminal;

The fusion terminal online state verification module is used for judging the online state of the fusion terminal according to the online state value of the fusion terminal corresponding to the fusion terminal number, and if the fusion terminal is online, the fusion terminal forwarding access service data and the real-time data verification module are called; if the fusion terminal is offline, sending a prompt that the online state verification of the fusion terminal is not passed and the offline information of the fusion terminal to a user side;

The system comprises an Internet of things management platform forwarding access service data and a fusion terminal real-time data verification module, wherein the Internet of things management platform forwarding access service data and the fusion terminal real-time data verification module is used for inquiring data stored in real time by the fusion terminal in an uploading period according to the serial number and the configuration domain number of the fusion terminal, judging whether the number of effective telemetry values in the uploading period of the fusion terminal is larger than a threshold value and whether a telemetry accumulated value is larger than or equal to 0, if the number of the effective telemetry values in the uploading period of the fusion terminal is larger than the threshold value and the telemetry accumulated value is larger than or equal to 0, calling the fusion terminal sampling data storage verification module, otherwise, sending the Internet of things management platform forwarding access service data and fusion terminal real-time data verification to a user side without prompting;

The fusion terminal sampling data storage and verification module is used for inquiring sampling data according to sampling time and telemetry types, and if any adjacent sampling values in all the inquired sampling data are inconsistent, the whole process debugging is completed; otherwise, sending the fusion terminal sampling data storage to the user side without prompting.

The fusion terminal online state checking failure and fusion terminal offline user request response module is used for acquiring a user request when the fusion terminal online state checking failure and fusion terminal offline, acquiring an IP address of the fusion terminal input by a user from the user request, and calling a target diagnosis command to access the IP address to carry out port communication state diagnosis on the fusion terminal to obtain a port communication state, wherein the target diagnosis command comprises at least one of the following components: ping commands, netstat commands.

The system comprises an Internet of things management platform forwarding access service data and a fusion terminal real-time data checking detail request response module, a navigation tree generation command and a secondary equipment navigation tree generation module, wherein the Internet of things management platform forwarding access service data and the fusion terminal real-time data checking detail request response module is used for acquiring a user request when the Internet of things management platform forwarding access service data and the fusion terminal real-time data checking fails, acquiring a fusion terminal number input by a user from the user request, generating a navigation tree data format according to the fusion terminal number, and generating a secondary equipment navigation tree at one side and multiple ends; based on the secondary equipment navigation tree node, calling a command for forwarding the real-time message to obtain the real-time message, and packaging the real-time message into a form data format; calling a real-time data storage command of the fusion terminal to obtain real-time data storage of the fusion terminal, and packaging the real-time data storage of the fusion terminal into a form data format; and displaying the real-time message packaged into the form data format and the real-time storage data of the fusion terminal packaged into the form data format on a user side.

The fusion terminal sampling data storage verification checking detail request response module is used for acquiring a user request when sampling data storage fails, acquiring a sampling time period selected by a user from the user request, and calling a fusion terminal sampling value information inquiry command to acquire sampling value information meeting the sampling time period; and calling a line diagram generation command, and displaying the sampling value information meeting the sampling time period in a line diagram mode on a user side.

The cloud master station comprises a secondary model verification module, an edge and end equipment registration verification module, a terminal online state verification module, an internet of things management platform forwarding access service data, a fusion terminal real-time data verification module and a fusion terminal sampling data storage verification module, wherein the secondary model verification module, the edge and end equipment registration verification module, the terminal online state verification module, the internet of things management platform forwarding access service data and the fusion terminal sampling data storage verification module are all realized based on a micro-service architecture and are all independently deployed at the cloud master station. Fig. 7 shows a user interface of a verification main flow chart, fig. 8 shows a user interface of modeling/association/registration verification, fig. 9 shows a user interface of terminal online verification, fig. 10 shows a user interface of internet of things management platform forwarding access service data and real-time data verification, and fig. 11 shows a user interface of sampling data storage verification, so that the invention verifies each flow of terminal from access, data uploading, forwarding, storage and the like, and shows whether the current terminal data access is successful or not through a flow chart, so that the whole complete operation process is more clearly known, and the reason of verification failure in the prompting process is shown; in the data access process, the field engineering personnel can intuitively locate the problem through the page and quickly solve the problem.

It will be appreciated by those skilled in the art that embodiments of the present application may be provided as a method, system, or computer program product. Accordingly, the present application may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present application may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

The present application is described with reference to flowchart illustrations of methods, apparatus (systems) and computer program products according to embodiments of the application. It will be understood that each of the flows in the flowchart may be implemented by computer program instructions. These computer program instructions may be provided to a computer that causes the computer to execute instructions that produce an effect that implement the functions specified in the flowchart block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows.

These computer program instructions may also be loaded onto a computer to cause a series of operational steps to be performed on the computer to produce a computer implemented process such that the instructions which execute on the computer provide steps for implementing the functions specified in the flowchart block or blocks.

The foregoing is merely a preferred embodiment of the present invention, and it should be noted that modifications and variations could be made by those skilled in the art without departing from the technical principles of the present invention, and such modifications and variations should also be regarded as being within the scope of the invention.

Claims (16)

1. The whole process debugging method for the quick access of the fusion terminal of the Internet of things is characterized by comprising the following steps of: the method comprises the following steps:

Step 1: judging whether the fusion terminal corresponding to the fusion terminal number has associated primary equipment according to the fusion terminal number, if so, judging whether power distribution exists according to the associated primary equipment number, and if so, executing the step 2; if the power distribution does not exist, sending a primary equipment unmodeled information prompt to a user side; if the associated primary equipment does not exist, a secondary equipment unassociated information prompt is sent to the user side;

Step 2: checking the registration condition of the side and end equipment according to the registration state of the fusion terminal corresponding to the fusion terminal number, and if the registration state is not available, sending an unregistered information prompt of the side and the end equipment to the user side; if the registration state exists, executing the step 3;

Step 3: judging the online state of the fusion terminal according to the online state value of the fusion terminal corresponding to the fusion terminal number, and executing the step 4 if the fusion terminal is online; if the fusion terminal is offline, sending a prompt that the online state verification of the fusion terminal is not passed and the offline information of the fusion terminal to a user side;

Step 4: inquiring data stored in real time by the fusion terminal in the uploading period according to the serial number of the fusion terminal, judging whether the number of the effective telemetry values in the uploading period of the fusion terminal is larger than a threshold value and whether the telemetry accumulated value is larger than or equal to 0, if the number of the effective telemetry values in the uploading period of the fusion terminal is larger than the threshold value and the telemetry accumulated value is larger than or equal to 0, executing the step 5, otherwise, transmitting the access service data to the Internet of things management platform and checking that the real-time data of the fusion terminal does not pass through a prompt;

Step 5: inquiring the sampled data according to the sampling time and the telemetry type, and if any adjacent sampling values in all the inquired sampled data are inconsistent, completing the whole process debugging; otherwise, sending the fusion terminal sampling data storage to the user side without prompting.

2. The whole process debugging method for the quick access of the fusion terminal of the internet of things according to claim 1 is characterized in that: and when the online state of the fusion terminal is not checked and the fusion terminal is offline, displaying related information to a user side for maintenance operation of the user according to the user request.

3. The whole process debugging method for the quick access of the fusion terminal of the internet of things according to claim 2, which is characterized in that: when the online state check of the fusion terminal is not passed and the fusion terminal is offline, displaying related information to a user side for maintenance operation of the user according to a user request, wherein the specific implementation steps comprise:

Acquiring an IP address of a fusion terminal input by a user from the user request, and calling a target diagnosis command to access the IP address to diagnose the port communication state of the fusion terminal to obtain the port communication state, wherein the target diagnosis command comprises at least one of the following components: ping commands, netstat commands.

4. The whole process debugging method for the quick access of the fusion terminal of the internet of things according to claim 1 is characterized in that: when the real-time data of the access service data forwarded by the internet of things management platform and the fusion terminal fails to pass the verification, related information is displayed to a user side according to a user request for maintenance operation of the user.

5. The whole process debugging method for the quick access of the fusion terminal of the internet of things according to claim 4 is characterized in that: when the real-time data of the internet of things management platform forwarding access service data and the fusion terminal fails to pass the verification, related information is displayed to a user side according to a user request for maintenance operation of the user, and the method specifically comprises the following steps:

Acquiring a fusion terminal number input by a user from the user request, calling a navigation tree generation command, generating a navigation tree data format according to the fusion terminal number, and generating a secondary equipment navigation tree at one side and multiple ends at the user side;

Acquiring a secondary equipment navigation tree node, calling a command for forwarding a real-time message to obtain the real-time message, and packaging the real-time message into a form data format; calling a real-time data storage command to obtain real-time data storage of the secondary equipment navigation tree node, and packaging the real-time data storage of the secondary equipment navigation tree node into a form data format;

And displaying the real-time message packaged into the form data format and the real-time storage data of the secondary equipment navigation tree node packaged into the form data format on a user side.

6. The whole process debugging method for the quick access of the fusion terminal of the internet of things according to claim 5, which is characterized in that: and storing the real-time message packaged into the form data format and the real-time storage data of the secondary equipment navigation tree node packaged into the form data format as historical data for the user to inquire.

7. The whole process debugging method for the quick access of the fusion terminal of the internet of things according to claim 6, which is characterized in that: the real-time storage data of the real-time message packaged into the form data format and the secondary equipment navigation tree node packaged into the form data format are stored as historical data for the user to inquire, and the specific implementation steps comprise:

And acquiring a user request, acquiring navigation tree nodes and time conditions selected by a user from the user request, calling a historical data query command to obtain historical data meeting the time conditions, and displaying on a user side.

8. The whole process debugging method for the quick access of the fusion terminal of the internet of things according to claim 1 is characterized in that: when the sampling data storage of the fusion terminal is failed, related information is displayed to a user side for maintenance operation of the user according to a user request.

9. The whole process debugging method for the quick access of the fusion terminal of the internet of things according to claim 8, which is characterized in that: when the sampling data storage of the fusion terminal is failed, displaying related information to a user side according to a user request for maintenance operation of the user, wherein the specific implementation steps comprise:

Acquiring a sampling time period selected by a user from the user request, and calling a sampling value information inquiry module to obtain sampling value information meeting the sampling time period; and calling a line diagram generation command, and displaying the sampling value information meeting the sampling time period in a line diagram mode on a user side.

10. The whole process debugging device for the quick access of the integrated terminal of the Internet of things is characterized in that: comprising the following steps:

The secondary equipment verification module is used for judging whether the fusion terminal corresponding to the fusion terminal number has associated primary equipment according to the fusion terminal number, if so, judging whether power distribution exists according to the associated primary equipment number, and if so, calling the side and end equipment registration verification module; if the power distribution does not exist, sending a primary equipment unmodeled information prompt to a user side; if the associated primary equipment does not exist, a secondary equipment unassociated information prompt is sent to the user side;

the side and end equipment registration verification module is used for verifying the registration condition of the side and end equipment according to the registration state of the fusion terminal corresponding to the fusion terminal number, and if the registration state is not available, sending an unregistered information prompt of the side and end equipment to the user side; if the registration state exists, calling an online state verification module of the fusion terminal;

The fusion terminal online state verification module is used for judging the online state of the fusion terminal according to the online state value of the fusion terminal corresponding to the fusion terminal number, and if the fusion terminal is online, the fusion terminal forwarding access service data and the real-time data verification module are called; if the fusion terminal is offline, sending a prompt that the online state verification of the fusion terminal is not passed and the offline information of the fusion terminal to a user side;

The system comprises an Internet of things management platform forwarding access service data and a fusion terminal real-time data verification module, wherein the Internet of things management platform forwarding access service data and the fusion terminal real-time data verification module is used for inquiring data stored in real time by the fusion terminal in an uploading period according to the serial number of the fusion terminal, judging whether the number of valid telemetry values in the uploading period of the fusion terminal is larger than a threshold value and whether a telemetry accumulated value is larger than or equal to 0, if the number of valid telemetry values in the uploading period of the fusion terminal is larger than the threshold value and the telemetry accumulated value is larger than or equal to 0, calling the fusion terminal sampling data storage verification module, otherwise, sending the Internet of things management platform forwarding access service data and the fusion terminal real-time data verification to a user side without prompting;

The fusion terminal sampling data storage and verification module is used for inquiring sampling data according to sampling time and telemetry types, and if any adjacent sampling values in all the inquired sampling data are inconsistent, the whole process debugging is completed; otherwise, sending the fusion terminal sampling data storage to the user side without prompting.

11. The whole process debugging device for fast access of fusion terminals of the internet of things according to claim 10, wherein the whole process debugging device is characterized in that: the secondary equipment checking module, the side equipment registration checking module, the end equipment registration checking module, the converged terminal online state checking module, the internet of things management platform forwarding access service data, the converged terminal real-time data checking module and the converged terminal sampling data storage checking module are all realized based on a micro-service architecture and are all independently deployed at a cloud master station.

12. The whole process debugging device for fast access of fusion terminals of the internet of things according to claim 10, wherein the whole process debugging device is characterized in that: the system also comprises a user request response module which is used for displaying related information to a user side for maintenance operation of the user according to the user request.

13. The whole process debugging device for fast access of fusion terminals of the internet of things according to claim 12, wherein the whole process debugging device is characterized in that: the user request response module includes: and the fusion terminal online state check fails and one or more of the fusion terminal offline user request response module, the internet of things management platform forwarding access service data, the fusion terminal real-time data check and check detail request response module and the fusion terminal sampling data storage check and check detail request response module.

14. The whole process debugging device for fast access of fusion terminals of the internet of things according to claim 13, wherein the whole process debugging device is characterized in that: the fusion terminal online state checking failure and fusion terminal offline user request response module is used for acquiring a user request when the fusion terminal online state checking failure and fusion terminal offline, acquiring an IP address of the fusion terminal input by a user from the user request, and calling a target diagnosis command to access the IP address to carry out port communication state diagnosis on the fusion terminal to obtain a port communication state, wherein the target diagnosis command comprises at least one of the following components: ping commands, netstat commands.

15. The whole process debugging device for fast access of fusion terminals of the internet of things according to claim 13, wherein the whole process debugging device is characterized in that: the request response module is used for acquiring a user request when the real-time data check of the internet of things management platform forwarding access service data and the fusion terminal fails, acquiring a fusion terminal number input by a user from the user request, calling a navigation tree generation command, generating a navigation tree data format according to the fusion terminal number, and generating a secondary equipment navigation tree at one side of the user side in multiple ends; based on the secondary equipment navigation tree node, calling a command for forwarding the real-time message to obtain the real-time message, and packaging the real-time message into a form data format; calling a real-time data storage command of the fusion terminal to obtain real-time data storage of the fusion terminal, and packaging the real-time data storage of the fusion terminal into a form data format; and displaying the real-time message packaged into the form data format and the real-time storage data of the fusion terminal packaged into the form data format on a user side.

16. The whole process debugging device for fast access of fusion terminals of the internet of things according to claim 13, wherein the whole process debugging device is characterized in that: the fusion terminal sampling data storage checking detail request response module is used for acquiring a user request when the sampling data storage fails, acquiring a sampling time period selected by a user from the user request, and calling a fusion terminal sampling value information inquiry command to acquire sampling value information meeting the sampling time period; and calling a line diagram generation command, and displaying the sampling value information meeting the sampling time period in a line diagram mode on a user side.