CN111967789A - Debugging system is transferred in distribution automation terminal warehouse debugging - Google Patents

Abstract

The embodiment of the invention discloses a power distribution automation terminal warehouse debugging and lowering debugging system, which comprises: a platform management module: the system is used for providing personnel information, department information and role information management; a communication module: the system is used for solving the communication problem between a command scheduling staff and an executive staff and realizing the real-time communication with a task executive staff; a scheduling module: scheduling personnel to execute related tasks according to the information arranged by the platform management module and feeding back an execution result; a statistical analysis module: according to the method, executive personnel information is counted according to a feedback result of a scheduling module and is synchronized to a platform management module, an electronic debugging feedback function and a simulation function based on data preprocessing are added, so that a terminal debugging function can be accessed to the whole debugging system, the debugging working pressure of a distribution network master station is relieved, human resources are distributed in a balanced mode, the bin debugging plan execution rate is improved, and a message pushing module is established, so that staff can be applied through the bin debugging system, and the skill level is improved.

Description

Debugging system is transferred in distribution automation terminal warehouse debugging

Technical Field

The embodiment of the invention relates to the technical field of power distribution automation terminal debugging, in particular to a power distribution automation terminal warehouse debugging and lowering debugging system.

Background

The low-voltage distribution network is located at the tail end of the whole power grid, and has the characteristics of wide distribution, complex power supply and utilization environment, high operation and maintenance difficulty and the like, the power supply bureau power distribution terminal is accessed and debugged in a centralized grid-connected mode at present, the inspection and acceptance pressure on an automatic main station of a system operation part is high, and the bottleneck is easily caused on the inspection and acceptance speed.

In order to improve the terminal access debugging efficiency, the planned downward distribution network terminal grid-connected debugging work authority, each branch office autonomously completes the debugging acceptance work, in order to meet the requirement of the branch office autonomous acceptance work, a three-region WEB subsystem of a distribution automation main station system is planned to develop and deploy a grid-connected acceptance function, and a debugging acceptance system for supporting the grid-connected autonomous acceptance of the distribution network terminal of each region is established, but the current debugging acceptance system has the following defects:

(1) the debugging working pressure of the distribution network master station is high, the human resource distribution is unbalanced, and the debugging waiting time of a district office is long;

(2) the service capability and skill level of the regional area distribution network comprehensive class are low, and the self capability cannot be improved by being familiar with an operating system;

(3) local debug is inflexible, resulting in inefficient execution of bin debugs.

Disclosure of Invention

Therefore, the debugging system for debugging and transferring the power distribution automation terminal warehouse is provided by the embodiment of the invention, the debugging scheduling and simulation functions are additionally arranged in the debugging system through the construction platform management module 1, the four local terminals are connected into the debugging scheduling function support, the debugging working pressure of the distribution network master station is reduced, the human resources are distributed in a balanced manner, and the flexibility of autonomous debugging of the local is greatly enhanced, so that the problems that the debugging working pressure of the distribution network master station is high, the human resources are distributed unevenly, the debugging waiting time of the local is long, the debugging efficiency is low, the debugging pressure of the distribution network is high and the like in the prior art are solved.

In order to achieve the above object, an embodiment of the present invention provides the following:

a distribution automation terminal warehouse debugging transfer debugging system, includes:

a platform management module: the system is used for providing personnel information, department information and role information management;

a communication module: the system is used for solving the communication problem between a command scheduling staff and an executive staff and realizing the real-time communication with a task executive staff;

a scheduling module: scheduling personnel to execute related tasks according to the information arranged by the platform management module and feeding back an execution result;

a statistical analysis module: and counting executive personnel information according to the feedback result of the scheduling module, and synchronizing the executive personnel information to the platform management module.

As a preferred scheme of the present invention, the platform management module is synchronously connected to a message server through a communication module, a message notification module and a positioning module are arranged inside the message server, and the message notification module is configured to push a message in real time, receive a message, and push the message to a user in real time.

As a preferred scheme of the present invention, the positioning module is configured to assist in recording the location of the online person, calculate the distance between the online person and the relevant task through a distance formula according to the location information by using the scheduling module, and predict the arrival time.

As a preferred scheme of the present invention, the scheduling module invokes the personnel location information and arranges the task flow as follows:

firstly, determining task executing personnel in a task target range according to position information provided by a positioning module, and synchronizing the information to the platform management module to be transmitted to a mobile terminal through a communication module;

secondly, the mobile terminal confirms the task information and feeds the task information back to the platform management module;

and finally, summarizing the feedback information through a message server according to the platform management module, and returning the result to the scheduling personnel when acquiring the feedback result of all the personnel or the task overtime message.

As a preferred scheme of the present invention, the scheduling module establishes a data model through data abstraction and synchronizes the relevant information to a database, and the database stores the data in a form of key value pairs in a BSON format.

As a preferred scheme of the invention, a Redis construction database is adopted in the message server, personnel information is stored through the Redis database, and data during message pushing and real-time communication is stored.

As a preferred scheme of the present invention, a message channel between the message server and the platform management module is constructed through the Redis database, and the message channel establishing and pushing process includes the following steps:

firstly, a symmetric secret key used in data communication after a user logs in is generated, the secret key and identity authentication information of the user are encrypted through a public key of a server and then sent to a platform end, and the platform end decrypts the secret key by using a private key of the platform end to obtain user information;

secondly, after the platform end verifies that the user passes, the id of the user is encrypted through a symmetric secret key and then returned to the user, meanwhile, information corresponding to the id of the user stored in the Redis is updated, the state of the user is changed, the value made by the symmetric secret key is updated, and the secret key encrypted through data communication with the user is stored;

thirdly, the client receives the information returned by the platform end, and decrypts the data to obtain the user id;

and finally, establishing a WebSocket connection between the client and the message server by using socket.IO, simultaneously encrypting the user id through a server public key and sending the encrypted user id to the message server for registration on the message server, decrypting the data by using a private key after the message server receives the registration request, updating the Redis database after acquiring the user id, and storing the socket of the connection in the database.

As a preferred scheme of the present invention, a front end web page interface layer, a logic control layer and a data transmission layer are built in the platform management module, the logic control layer controls the front end web page interface layer to display a system message in an Ajax manner, and the logic control layer stores a logic architecture and system service data in the data transmission layer.

As a preferred scheme of the present invention, the data transmission layer adopts the montdb as a database, and feeds back the task information of the personnel scheduling ID according to the instruction information of the platform management module.

As a preferred scheme of the present invention, the task execution condition is fed back according to the task information of the personnel scheduling ID, and the current position information of the personnel is transmitted to the message server.

The embodiment of the invention has the following advantages:

the invention is a distribution automation terminal warehouse debugging and lowering debugging system based on message push platform management, an electronic debugging feedback function and a simulation function based on data preprocessing are added on a platform management module, the terminal debugging function can be accessed to the whole debugging system, the debugging working pressure of a distribution network master station is reduced, human resources are distributed in a balanced manner, debugging personnel are vacated for other special work, meanwhile, a daily debugging time interval is reasonably arranged by combining a positioning module with a plan selection and sequencing algorithm, the debugging personnel are distributed according to actual conditions, the problem of overlong field telephone waiting time is avoided, the bin debugging plan execution rate is improved, a message push module is established, so that the staff can deepen the understanding of the internal operation of equipment and the field operation process of debugging through the application of the bin debugging system, and the skill level is improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It should be apparent that the drawings in the following description are merely exemplary, and that other embodiments can be derived from the drawings provided by those of ordinary skill in the art without inventive effort.

The structures, ratios, sizes, and the like shown in the present specification are only used for matching with the contents disclosed in the specification, so as to be understood and read by those skilled in the art, and are not used to limit the conditions that the present invention can be implemented, so that the present invention has no technical significance, and any structural modifications, changes in the ratio relationship, or adjustments of the sizes, without affecting the effects and the achievable by the present invention, should still fall within the range that the technical contents disclosed in the present invention can cover.

Fig. 1 is a block diagram of a power distribution automation terminal warehouse debugging and lowering debugging system according to an embodiment of the present invention.

In the figure:

1-a platform management module; 2-a communication module; 3-a statistical analysis module; 4-a scheduling module; 5-a database; 6-a message server; 7-a message notification module; 8-Redis database; 9-a positioning module; 10-a data transport layer; 11-a logic control layer; 12-front end web page interface layer.

Detailed Description

The present invention is described in terms of particular embodiments, other advantages and features of the invention will become apparent to those skilled in the art from the following disclosure, and it is to be understood that the described embodiments are merely exemplary of the invention and that it is not intended to limit the invention to the particular embodiments disclosed. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1, the invention provides a power distribution automation terminal warehouse debugging and lowering debugging system, which is characterized in that a debugging scheduling function and a simulation function are additionally arranged in a debugging system through a construction platform management module 1, so that a terminal in four areas of a substation is connected with a debugging scheduling function support, wherein the debugging function is realized in the platform management module 1, and comprises the functions of preposed message browsing, data browsing, automatic generation of a distribution network switch interval diagram, real-time alarm and electronic test receiving management, the whole power distribution debugging terminal is developed by adopting a container technology, personnel information with different authorities can be logged in a front end network page interface layer 12, and different menu authorities can be displayed according to the authorities.

A distribution automation terminal warehouse debugging transfer debugging system, includes:

platform management module 1: the system is used for providing personnel information, department information and role information management;

the communication module 2: the system is used for solving the communication problem between a command scheduling staff and an executive staff and realizing the real-time communication with a task executive staff;

the scheduling module 4: scheduling personnel to execute related tasks according to the information arranged by the platform management module 1 and feeding back an execution result;

a statistical analysis module 3: and counting executive personnel information according to the feedback result of the scheduling module 4, and synchronizing the executive personnel information to the platform management module 1.

In the embodiment, the related personnel, tasks and execution decision information are stored by constructing a database, the message push function of the system is realized by long Websocket connection through a logic control layer 11 in a platform management module 1, so that a worker can deepen the understanding of the internal operation of the equipment and the field operation process of debugging through the application of a warehouse debugging system, the skill level is improved, the distance between the related personnel and the task to be executed is positioned in real time by combining a positioning module to screen the executing personnel, the task executing personnel is recommended according to the classification of the current task in the historical tasks, the personnel allocation based on the Internet is realized, meanwhile, the system debugging function is constructed by utilizing the logic control layer, so that the system can independently debug a distribution network master station, automatically generate the distribution network switch interval and give an alarm to fault information in real time, thereby relieving the working pressure of distribution network master station debugging, and human resources are distributed in a balanced manner, and debugging personnel are freed for other special work.

The platform management module 1 is synchronously connected with a message server 6 through a communication module 2, a message notification module 7 and a positioning module 9 are arranged inside the message server 6, and the message notification module 7 is used for pushing messages in real time, receiving messages and pushing the messages to users in real time.

In this embodiment, the communication module 2 mainly functions to perform real-time communication and record communication content, a person connects to the message server through a WebSocket provided by socket.io, the person adds to a room of a chat namespace, the person adds to the room, and then sends a request for obtaining historical information, the message server queries the Redis database to obtain a historical communication record of the task, and after the person sends information to the server, the message server broadcasts a message in the room of the name according to a task ID included in the message, so that all the persons in the room obtain a real-time message, and simultaneously stores the message in the Redis database for record storage.

One of the characteristics of the power distribution automation terminal warehouse debugging and transferring debugging system is that the positioning module 9 is used for recording the position of a person and selecting the person to calculate the driving distance and the estimated time, the executive person establishes WebSocket connection with the message server after being online, the position of the executive person is uploaded in real time through the WebSocket connection, the message server stores the position of the person in a Redis database through a Geoadd command of Redis according to the ID of the person and the ID of a person department after receiving the position uploaded by the person, and the coordinate of the position of the person can be obtained through geopos.

The second characteristic of the power distribution automation terminal warehouse debugging and downward debugging system is that the message notification module 7 is mainly responsible for message pushing and is responsible for sending messages generated by the maintenance and stability command scheduling platform end to designated personnel, the message server can push the messages to task execution personnel and scheduling personnel through WebSocket connection established between the server and the client, when the personnel needing to be notified are not on line or pushing failure is caused by network failure, the message server stores the messages into a message queue needing to be sent, and when a user reconnects the server, the messages in the queue are pushed again.

The positioning module 9 is used for assisting in recording the positions of the online personnel, calculating the distance between the online personnel and the related tasks by using the scheduling module 4 according to the position information through a distance formula, and predicting the arrival time.

The scheduling module 4 calls the personnel position information and arranges the task flow as follows:

firstly, determining task executing personnel in a task target range according to position information provided by a positioning module 9, and synchronizing the information to the platform management module 1 to be transmitted to a mobile terminal through a communication module 2;

secondly, the mobile terminal confirms the task information and feeds the task information back to the platform management module 1;

and finally, summarizing the feedback information through the message server 6 according to the platform management module 1, and returning the result to the scheduling personnel when acquiring the feedback result of all personnel or the task overtime message.

The scheduling module 4 establishes a data model through data abstraction and synchronizes relevant information to the database 5, and the database 5 stores the data in a key value pair form by adopting a BSON format.

The message server 6 adopts Redis to construct a database 8, stores personnel information through the Redis database 8, and stores data during message pushing and real-time communication.

In this embodiment, the message server 6 stores the staff information by using the Redis database, stores data during message pushing and real-time communication, after the staff logs in, the staff needs to establish a WebSocket connection with the message server, and the message server needs to store a socket connected to the message server by the staff, and update related information such as the status of the staff.

The third characteristic of the distribution automation terminal warehouse debugging and downward debugging system is that a Hash data structure is used in a Redis database for data storage, field fields in a Hash table can only store character string type data, data in a BSON format agreed in advance is taken as a storage format for conveniently storing and reading the data, data storage in the Redis database is realized through direct conversion of the BSON format and the character string format, the data are converted into character strings and stored in the Redis database, and all communication contents related to a scheduling task can be acquired through the Redis database only by knowing the ID of the scheduling task when information query is carried out.

Constructing a message channel between the message server 6 and the platform management module 1 through the Redis database 8, wherein the message channel establishing and pushing processes are as follows:

firstly, a symmetric secret key used in data communication after a user logs in is generated, the secret key and identity authentication information of the user are encrypted through a public key of a server and then sent to a platform end, and the platform end decrypts the secret key by using a private key of the platform end to obtain user information;

secondly, after the platform end verifies that the user passes, the id of the user is encrypted through a symmetric secret key and then returned to the user, meanwhile, information corresponding to the id of the user stored in the Redis is updated, the state of the user is changed, the value made by the symmetric secret key is updated, and the secret key encrypted through data communication with the user is stored;

thirdly, the client receives the information returned by the platform end, and decrypts the data to obtain the user id;

and finally, establishing a WebSocket connection between the client and the message server by using socket.IO, simultaneously encrypting the user id through a server public key and sending the encrypted user id to the message server for registration on the message server, decrypting the data by using a private key after the message server receives the registration request, updating the Redis database after acquiring the user id, and storing the socket of the connection in the database.

The platform management module 1 is internally provided with a front-end web page interface layer 12, a logic control layer 11 and a data transmission layer 10, the logic control layer 11 controls the front-end web page interface layer 12 to display system messages in an Ajax mode, and the logic control layer 11 stores logic architecture and system service data in the data transmission layer 10.

In this embodiment, the front-end web page interface layer 12 is used for displaying a mobile client interface, implementing an interaction function with a user, and responding to a user operation, mainly using boottrap as a style library, using CSS to modify an interface style, using HTML5 to complete interface development, and implementing interface logic through JQuery to complete development of the front-end web page interface layer.

The power distribution automation terminal warehouse debugging and downward transferring debugging system is characterized in that the logic control layer 11 mainly has the functions of providing service logic support for a client, responding to interface layer user operation and preprocessing distribution network data to realize corresponding services of the system, wherein the data preprocessing steps are as follows:

firstly, reading historical event data from a database, and extracting event properties, network address related to a distribution network, number of people related to the distribution network, keywords, sensitive places and event attributions as main clustering characteristics;

secondly, carrying out data discretization processing on the attribute and name type characteristic values in the data by using one-hot coding;

and finally, carrying out standardization processing on the obtained characteristic value to obtain a preprocessing result, and simultaneously storing a standardization model into a file for standardization processing in event prediction.

In the embodiment, the distribution network data is preprocessed, the autonomous debugging process of the distribution network system is enhanced, the daily debugging time interval is reasonably arranged by preferentially sequencing plans, debugging personnel are distributed according to actual conditions, the problem of overlong waiting time of on-site telephones is avoided, the cabin debugging plan execution rate is improved, and the flexibility of local debugging of the distribution network can be greatly enhanced.

In this embodiment, the data transmission layer 10 mainly provides data for the logic service layer 11, and provides support for the service logic data processing part, and the relevant data of the client is obtained through the interface corresponding to the request server.

The data transmission layer 10 adopts MongDB as a database, and feeds back task information of the personnel scheduling ID according to the instruction information of the platform management module 1.

And feeding back the task execution condition according to the task information of the personnel scheduling ID, and simultaneously transmitting the current position information of the personnel to the message server 6.

In the embodiment, the feedback condition of the task information of the personnel scheduling ID is synchronized to the message server 6, the background debugging personnel can independently check and accept the debugging effect through the message pushing module, and the efficiency of terminal access debugging can be effectively improved.

The fifth characteristic of the power distribution automation terminal warehouse debugging, transferring and debugging system is that according to the scheduling information displayed in the platform management module 1, the emergency can be subjected to plan processing to the greatest extent, emergency handling plans are assembled in a classified mode, operability of maintenance and stability event handling is improved practically, once an unstable event occurs, handling work can be carried out rapidly and orderly, and possible emergency can be controlled and processed rapidly.

This distribution automation terminal warehouse debugging system based on message push platform management, add electronization debugging feedback function and simulation function based on data preprocessing at the platform management module, can be for whole debugging system access terminal debugging function, alleviate distribution network main website debugging operating pressure, balanced distribution manpower resources, vacate the debugging personnel and be used for other special work, and simultaneously, combine plan preferred sequencing algorithm through the orientation module, rationally arrange daily debugging interval, distribute the debugging personnel according to actual conditions, the problem of on-the-spot telephone wait time overlength has been avoided, promote storehouse and transfer plan execution rate, and establish message push module, make the staff can pass through storehouse system application of transferring, deepen understanding and the field operation flow of debugging to the inside function of equipment, promote skill level.

Although the invention has been described in detail above with reference to a general description and specific examples, it will be apparent to one skilled in the art that modifications or improvements may be made thereto based on the invention. Accordingly, such modifications and improvements are intended to be within the scope of the invention as claimed.

Claims (10)

1. The utility model provides a debugging system is transferred in distribution automation terminal warehouse debugging which characterized in that includes:

platform management module (1): the system is used for providing personnel information, department information and role information management;

communication module (2): the system is used for solving the communication problem between a command scheduling staff and an executive staff and realizing the real-time communication with a task executive staff;

scheduling module (4): scheduling personnel to execute related tasks according to the information arranged by the platform management module (1) and feeding back an execution result;

statistical analysis module (3): and counting executive personnel information according to the feedback result of the scheduling module (4), and synchronizing the executive personnel information to the platform management module (1).

2. The power distribution automation terminal warehouse debugging and lowering debugging system of claim 1, characterized in that the platform management module (1) is synchronously connected with a message server (6) through a communication module (2), a message notification module (7) and a positioning module (9) are arranged inside the message server (6), and the message notification module (7) is used for pushing messages in real time, receiving messages and pushing messages to users in real time.

3. The distribution automation terminal warehouse commissioning lowering commissioning system of claim 2, wherein the positioning module (9) is used to assist in recording the location of the online personnel, calculate the distance between the online personnel and the related task by a distance formula according to the location information using the commissioning module (4), and predict the arrival time.

4. The power distribution automation terminal warehouse commissioning transfer debugging system of claim 3, wherein the scheduling module (4) invokes personnel location information and schedules a task flow specifically comprises:

firstly, determining task execution personnel in a task target range according to position information provided by a positioning module (9), and synchronizing the information to a platform management module (1) to be transmitted to a mobile terminal through a communication module (2);

secondly, the mobile terminal confirms the task information and feeds the task information back to the platform management module (1);

and finally, summarizing the feedback information through the message server (6) according to the platform management module (1), and returning the result to the scheduling personnel when acquiring the feedback result of all the personnel or the task overtime message.

5. The distribution automation terminal warehouse commissioning transfer debugging system of claim 1, characterized in that the scheduling module (4) builds a data model through data abstraction and synchronizes the relevant information to a database (5), the database (5) being stored in key-value pairs in BSON format.

6. The power distribution automation terminal warehouse debugging, lowering and debugging system of claim 2, characterized in that the message server (6) internally adopts a Redis construction database (8), stores personnel information through the Redis database (8), and stores data during message pushing and real-time communication.

7. The distribution automation terminal warehouse commissioning transfer debugging system of claim 7, wherein the message server (6) and the platform management module (1) message channel are constructed through the Redis database (8), and the message channel establishing and pushing process is as follows:

firstly, a symmetric secret key used in data communication after a user logs in is generated, the secret key and identity authentication information of the user are encrypted through a public key of a server and then sent to a platform end, and the platform end decrypts the secret key by using a private key of the platform end to obtain user information;

secondly, after the platform end verifies that the user passes, the id of the user is encrypted through a symmetric secret key and then returned to the user, meanwhile, information corresponding to the id of the user stored in the Redis is updated, the state of the user is changed, the value made by the symmetric secret key is updated, and the secret key encrypted through data communication with the user is stored;

thirdly, the client receives the information returned by the platform end, and decrypts the data to obtain the user id;

and finally, establishing a WebSocket connection between the client and the message server by using socket.IO, simultaneously encrypting the user id through a server public key and sending the encrypted user id to the message server for registration on the message server, decrypting the data by using a private key after the message server receives the registration request, updating the Redis database after acquiring the user id, and storing the socket of the connection in the database.

8. The distribution automation terminal warehouse debugging and lowering debugging system of claim 1, characterized in that a front end web page interface layer (12), a logic control layer (11) and a data transmission layer (10) are built in the platform management module (1), the logic control layer (11) controls the front end web page interface layer (12) to display system messages in an Ajax manner, and the logic control layer (11) stores logic architecture and system service data in the data transmission layer (10).

9. The power distribution automation terminal warehouse commissioning transfer debugging system of claim 8, wherein said data transmission layer (10) uses a MongDB as a database, and feeds back task information of personnel scheduling ID according to the instruction information of said platform management module (1).

10. The power distribution automation terminal warehouse commissioning transfer debugging system of claim 9, wherein task execution is fed back according to task information of the personnel scheduling ID while transmitting current position information of personnel to the message server (6).

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