CN117978793A - Intelligent monitoring system for station equipment - Google Patents

Abstract

The invention discloses an intelligent monitoring system for station equipment, which comprises the following components: a plurality of sub-monitoring devices and a total monitoring device; each sub-monitoring device comprises a sub-client and a sub-server, and the total monitoring device comprises a total client and a total server; the total server side comprises an information analysis module, an intelligent algorithm module and a webpage service module, wherein the information analysis module analyzes the request data transmitted by the sub-client side to obtain the identity information and the request items of the user initiating the request and the response data returned by the current sub-server side; the intelligent algorithm module is used for calling the data display mode information of the corresponding data of the user in all the sub-monitoring devices and calling the device operation prompt information of the station device according to the request items; and the webpage service module generates a display page according to the acquired data and sends the display page to the total client for display. By implementing the invention, the information required by the user can be intelligently analyzed and displayed.

Description

Intelligent monitoring system for station equipment

Technical Field

The invention relates to the field of station monitoring, in particular to an intelligent monitoring system for station equipment.

Background

At present, with the rapid development of new energy power generation such as wind power, photovoltaic, energy storage and the like, station equipment is gradually increased, but the content of the existing station monitoring system is solidified in a development stage, when a user operates the system, only picture information such as developed data, statistical analysis results and the like in the system can be checked, the system cannot intelligently analyze equipment operation data information, user identity related experience information, information display data and the like required by the user according to the user information of the current user, and therefore, how to intelligently analyze the information required by the user according to the equipment operation data of the user in the system is a problem to be solved.

Disclosure of Invention

The invention provides an intelligent monitoring system for station equipment, which can intelligently analyze and display information required by a user according to equipment operation data of the user in the system so as to improve the efficiency of the user in acquiring the information.

An embodiment of the present invention provides an intelligent monitoring system for a station device, including:

a plurality of sub-monitoring devices and a total monitoring device;

Each sub-monitoring device comprises a sub-client and a sub-server;

The general monitoring equipment comprises a general client and a general server;

Each sub monitoring equipment client is connected with a master monitoring equipment client through a switch;

the total service end comprises: the system comprises an information analysis module, an intelligent algorithm module and a webpage service module;

The information analysis module is used for receiving the request data transmitted by the current sub-client, analyzing the request data and obtaining the identity information of the user initiating the request, the request items and the response data returned by the current sub-server;

The intelligent algorithm module is used for calling the historical operation records of the corresponding users in all sub-monitoring devices in a preset user portrait database according to the identity information and the request items; according to the request items, calling the equipment operation prompt information of the station equipment under the same request item in a preset experience database; wherein the history operation record includes: data display mode information of response data under the same request item;

The webpage service module is used for generating a display page for displaying the response data and the equipment operation prompt information of the station equipment according to the data display mode information, and sending the display page to a total client so that the total client displays the display page.

Further, the total service end further includes: an authentication gateway module;

The authentication gateway module is used for carrying out authentication judgment on the request data after receiving the request data transmitted by the sub-client, and forwarding the request data to the information analysis module when judging that the request data is error-free.

Further, the authentication gateway module is further configured to: when judging that the request data is wrong, blocking the request data, generating blocking information and returning the blocking information to the corresponding sub-client side for display.

Further, the user portrayal database is further configured to: storing the identity information, the request items and the response data returned from the current sub-server; wherein the identity information includes a user name and a user role.

Further, the intelligent algorithm module is further configured to: and after receiving the identity information of the user initiating the request, calling all historical request matters of the current user in the user portrait database in a preset period, analyzing according to the historical request matters to obtain the request matters with highest request frequency of the current user in the preset period, and sending the request matters with highest request frequency to the user portrait database for storage.

Further, the intelligent algorithm module is further configured to: according to the identity information of the user initiating the request, retrieving push data corresponding to the user identity information in a preset user portrait database, and sending the push data to the webpage service module;

the webpage service module is further used for generating a display page for displaying the push data according to the received push data; and sending the display page to a total client so that the total client displays the display page.

Further, the sub-server further includes:

Generating monitoring page response data corresponding to the request data according to the request data;

And sending the monitoring page response data to a corresponding sub-client so that the sub-client displays the monitoring response data.

The invention has the following beneficial effects:

The invention constructs an intelligent monitoring system of station equipment, the system comprises a plurality of sub-monitoring equipment and total monitoring equipment, after receiving request data transmitted by sub-clients, the total server analyzes the request data to obtain response data returned in the current sub-server, and according to the identity information of a user initiating a request and the request matters, the data display mode information of the response data of the corresponding user under the request matters of all the sub-clients is called in a preset user portrait database, and according to the request matters, the equipment operation prompt information of the station equipment under the same request matters is called in a preset experience database, and then the response data, the data display mode information and the equipment operation prompt information of the station equipment are transmitted to a webpage service module, so that the webpage service module generates a page according to the data display mode information, combines the response data and the equipment operation prompt information of the station equipment, and sends the page to the total client.

Drawings

In order to more clearly illustrate the technical solutions of the present application, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of a system for intelligent monitoring of yard equipment according to an embodiment of the present application;

fig. 2 is a schematic flow chart of an intelligent monitoring system for a yard device according to an embodiment of the present application.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the present application more apparent, the technical solutions of the present application will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present application, and it is apparent that the described embodiments are some embodiments of the present application, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs; the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the application; the terms "comprising" and "having" and any variations thereof in the description of the application and the claims and the description of the drawings above are intended to cover a non-exclusive inclusion.

In the description of embodiments of the present application, the technical terms "first," "second," and the like are used merely to distinguish between different objects and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated, a particular order or a primary or secondary relationship. In the description of the embodiments of the present application, the meaning of "plurality" is two or more unless explicitly defined otherwise.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment may be included in at least one embodiment of the application. The appearances of such phrases in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. Those of skill in the art will explicitly and implicitly appreciate that the embodiments described herein may be combined with other embodiments.

In the description of the embodiments of the present application, the term "and/or" is merely an association relationship describing an association object, and indicates that three relationships may exist, for example, a and/or B may indicate: a exists alone, A and B exist together, and B exists alone. In addition, the character "/" herein generally indicates that the front and rear associated objects are an "or" relationship.

In the description of the embodiments of the present application, the term "plurality" means two or more (including two), and similarly, "plural sets" means two or more (including two), and "plural sheets" means two or more (including two).

In the description of the embodiments of the present application, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "secured" and the like should be construed broadly and may be, for example, fixedly connected, detachably connected, or integrally formed; or may be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communicated with the inside of two elements or the interaction relationship of the two elements. The specific meaning of the above terms in the embodiments of the present application will be understood by those of ordinary skill in the art according to specific circumstances.

Referring to fig. 1, a schematic structural diagram of an intelligent monitoring system for a yard device according to an embodiment of the present application includes:

a plurality of sub-monitoring devices and a total monitoring device;

Each sub-monitoring device comprises a sub-client and a sub-server;

The general monitoring equipment comprises a general client and a general server;

Each sub monitoring equipment client is connected with a master monitoring equipment client through a switch;

the total service end comprises: the system comprises an information analysis module, an intelligent algorithm module and a webpage service module;

The information analysis module is used for receiving the request data transmitted by the current sub-client, analyzing the request data and obtaining the identity information of the user initiating the request, the request items and the response data returned by the current sub-server;

The intelligent algorithm module is used for calling the historical operation records of the corresponding users in all sub-monitoring devices in a preset user portrait database according to the identity information and the request items; according to the request items, calling the equipment operation prompt information of the station equipment under the same request item in a preset experience database; wherein the history operation record includes: data display mode information of response data under the same request item;

The webpage service module is used for generating a display page for displaying the response data and the equipment operation prompt information of the station equipment according to the data display mode information, and sending the display page to a total client so that the total client displays the display page;

schematically, the general monitoring device shown in fig. 1 includes a general client and a general server; among the plurality of sub-monitoring devices shown in fig. 1, a first sub-monitoring device is identified as S1, a second sub-monitoring device is identified as S2 … … and an nth sub-monitoring device is identified as Sn, wherein each sub-monitoring device comprises a sub-client and a sub-server;

Specifically, the number of the sub-monitoring systems in the station can be adjusted according to the specific working requirements of the station, and each sub-monitoring system is connected with the master monitoring system through the switch, so that the sub-monitoring systems can communicate internally, different mirror image ports are configured for all N sub-monitoring systems, and ports are configured for the master monitoring system.

In a preferred embodiment, the sub-service end further includes:

Generating monitoring page response data corresponding to the request data according to the request data;

The monitoring page response data are sent to the corresponding sub-clients, so that the sub-clients can display the monitoring page response data;

schematically, when a user performs clicking, dragging and other operations through a sub-client of the ith sub-monitoring system, generating request data R according to a current operation action D;

Specifically, assuming that when a current user clicks a 'check point temperature' button on a client corresponding to an ith sub-monitoring device Si (1 is less than or equal to i is less than or equal to n), the current sub-client triggers an HTTP request and requests current temperature data from a sub-server corresponding to the current sub-client, and the sub-server acquires the check point temperature data through a database or other ways and returns the check point temperature data to the current sub-client, so that the check point temperature data can be displayed on a picture of the current sub-client;

Referring to fig. 2, in a preferred embodiment, the overall service end further includes: an authentication gateway module;

The authentication gateway module is used for carrying out authentication judgment on the request data after receiving the request data transmitted by the sub-client, and forwarding the request data to the information analysis module when judging that the request data is error-free;

In a preferred embodiment, the authentication gateway module is further configured to: when judging that the request data is wrong, blocking the request data, generating blocking information and returning the blocking information to the corresponding sub-client for display;

Illustratively, when the authentication gateway module in the master monitoring end captures the request data R generated when clicking the button for checking the temperature of the measuring point, the authentication judgment is carried out on the current request data R through an authentication method, when the current request data R has errors or the user authority is insufficient, the transmission of the request data is blocked, meanwhile, blocking information is generated, and the blocking information is returned to the corresponding sub-client end, so that a client can carry out request operation again according to the blocking information;

Specifically, the request data R is erroneous, possibly because the following occurs: 1) The request method is not matched; 2) The request parameters are insufficient;

Schematically, if the request data R is checked, and no error is found, the request data is forwarded to an information analysis module;

therefore, the general monitoring system is provided with an authentication gateway module, so that the situation that the general monitoring system fails to authenticate and returns data information to the virus system due to the fact that the third party virus system sends a request to the general monitoring system, and accordingly data leakage and the situation that the virus system sends an error instruction to the general monitoring system are caused is avoided;

Illustratively, after receiving the request data R, the information analysis module analyzes the request data R, and after analysis is completed, obtains identity information of a user initiating the request, a request item and response data returned from the current sub-server;

specifically, the response data returned in the current sub-server side comprises monitoring data corresponding to the request item initiated by the current user;

Illustratively, after the information analysis module analyzes the request data R, the information analysis module will send the identity information and the request items of the user initiating the request obtained by analysis to the user portrait database, so that the user portrait database stores a large number of historical request items and response data of different users in the current sub-monitoring system Si (i is less than or equal to 1) and the historical request items and response data of n-1 sub-monitoring systems except the client monitoring system Si;

Specifically, the identity information of the user includes: a user name and a user role, wherein the user role comprises an operator, an equipment maintenance person, a system administrator and the like;

Specifically, the request item is data requested by a user when the sub-client operates, such as referring to the operation temperature of a certain station device in a certain period of time;

The information analysis module sends the user identity information and the request items obtained after analysis to the intelligent algorithm module, so that the intelligent algorithm calls the data display mode information of response data of the corresponding user in the preset user portrait database under the same request items of all sub-service ends according to the identity information and the request items, and calls the equipment operation prompt information of the station equipment under the same request items in the preset experience database according to the request items;

Specifically, assuming that the current user is an operator a, when the user a wants to check the temperature change of the station equipment M in a certain time period, at this time, when acquiring a request item K of checking temperature initiated by the user a through a sub-client, the intelligent algorithm module invokes all historical operations of the user a about the request item K of checking temperature in the user portrait database, and if the ratio of the number of times that the user a checks the temperature data of the station equipment in a line diagram form to the number of times that the user a performs all the operations of checking temperature exceeds a preset threshold value, the intelligent algorithm module directly displays response data corresponding to the current request item K in the line diagram form;

Specifically, assuming that the current user is an operator a, the current user a wants to check the temperature change of a certain station device in a certain time period, and when acquiring a 'check temperature' request item K initiated by the user a through a sub-client, the intelligent algorithm module invokes device operation prompt information about 'temperature' in a preset experience database according to the request item K, namely invokes an experience method related to the temperature in the experience database;

In particular, empirical methods related to temperature include, but are not limited to: 1) When the temperature exceeds t ₁, the equipment needs to be powered off; 2) When the temperature exceeds t ₂, spare parts need to be replaced within a certain time;

Therefore, after the intelligent algorithm finishes analysis, the temperature data (displayed in a line diagram form) queried by the user A and an experience method related to the temperature are sent to a webpage service module;

After receiving the data, the web service module generates a display page through the data, wherein the display page comprises temperature information (displayed in a line diagram form) queried by a user A and an experience method related to the temperature, and then the display page is sent to the total client so that the total client displays the display page.

In a preferred embodiment, the user representation database is further configured to: storing the identity information, the request items and the response data returned from the current sub-server; wherein the identity information comprises a user name and a user role;

Illustratively, after the information analysis module analyzes the request data R, the information analysis module sends the identity information and the request items of the user initiating the request obtained by analysis to the user portrait database, so that the user portrait database stores a large number of history request items and history response data of different users in the current sub-monitoring system Si (i is more than or equal to 1 and less than n), and history request items and history response data of other n-1 sub-monitoring systems except the client monitoring system Si;

specifically, the identity information includes a user name and a user role.

In a preferred embodiment, the intelligent algorithm module is further configured to: after receiving identity information of a user initiating a request, invoking all historical request matters of a current user in a user portrait database in a preset period, analyzing according to the historical request matters to obtain the request matters with highest request frequency of the current user in the preset period, and sending the request matters with highest request frequency to the user portrait database for storage;

The intelligent algorithm module calls all historical request items of the current user A in the user portrait database and calculates the request item with highest request frequency of the current user in a certain time period when acquiring a 'temperature checking' request item K initiated by the user A through a sub-client, assuming the current user is an operator A;

Specifically, assuming that the intelligent algorithm module obtains five requests about "checking water inflow" and nine requests about "checking temperature" which have been initiated by the user a, the intelligent algorithm module will identify the request about "checking temperature" as the most frequent request requested by the user a, thereby explaining that the user a is more concerned about the temperature data.

In a preferred embodiment, the intelligent algorithm module is further configured to: according to the identity information of the user initiating the request, retrieving push data corresponding to the user identity information in a preset user portrait database, and sending the push data to the webpage service module;

The webpage service module is further used for generating a display page for displaying the push data according to the received push data; the display page is sent to a total client so that the total client displays the display page;

Illustratively, after resolving the identity information of the current user, the intelligent algorithm module invokes push data corresponding to the user identity information through a user portrait database and sends the push data to the web service module, and the web service module generates a display page for displaying the push data according to the received push data and sends the display page to a total client so that the total client displays the display page;

Specifically, assuming that the current user is an operator A, after the intelligent algorithm module acquires the identity of the operator A of the user, calling operation log data of station equipment in a user portrait database, and sending the data to the webpage service module, so that the webpage service module generates a popup page according to the operation log data, and sends the popup page to a total client for display; the operation log comprises equipment fault records, equipment operation records, equipment data records and the like;

Specifically, if the current user is a maintainer B, the intelligent algorithm module calls a maintenance log of station equipment in a user portrait database after acquiring the identity of the user maintainer B, and sends the data to the webpage service module, so that the webpage service module generates a popup page according to the maintenance log data, and sends the popup page to the total client for display;

Specifically, the maintenance log includes data such as maintenance personnel, fault description, maintenance process, maintenance result, etc.: wherein, 1) the maintenance personnel data comprises the names of engineers or technicians for equipment maintenance, 2) the fault description comprises the fault phenomenon (such as fault positions and fault types) of the equipment, 3) the maintenance process comprises the specific steps and operations of the maintenance engineers or technicians for equipment maintenance, 4) the maintenance result comprises the content of recording the operation state (such as whether the equipment is repaired or not and whether further maintenance is needed) after the equipment maintenance, and the like.

Therefore, by arranging the intelligent algorithm module in the general monitoring equipment, when a user operates the sub-client, the intelligent algorithm module intelligently generates a page and displays the page in the general client by calling pre-stored information in the user portrait database and equipment operation prompt information in the experience database, the page not only displays monitoring data required to be checked by the user in the most common data display mode of the user, but also comprises the equipment operation prompt information related to the current monitoring data and historical equipment operation data corresponding to the current user identity, the user does not need to manually select and search information, and the efficiency of acquiring the data by the user data is improved.

The foregoing is a preferred embodiment of the present invention and it should be noted that modifications and adaptations to those skilled in the art may be made without departing from the principles of the present invention and are intended to be comprehended within the scope of the present invention.

Claims (7)

1. An intelligent monitoring system for yard equipment, comprising: a plurality of sub-monitoring devices and a total monitoring device;

Each sub-monitoring device comprises a sub-client and a sub-server;

The general monitoring equipment comprises a general client and a general server;

Each sub monitoring equipment client is connected with a master monitoring equipment client through a switch;

the total service end comprises: the system comprises an information analysis module, an intelligent algorithm module and a webpage service module;

The information analysis module is used for receiving the request data transmitted by the current sub-client, analyzing the request data and obtaining the identity information of the user initiating the request, the request items and the response data returned by the current sub-server;

The intelligent algorithm module is used for calling the historical operation records of the corresponding users in all sub-monitoring devices in a preset user portrait database according to the identity information and the request items; according to the request items, calling the equipment operation prompt information of the station equipment under the same request item in a preset experience database; wherein the history operation record includes: data display mode information of response data under the same request item;

The webpage service module is used for generating a display page for displaying the response data and the equipment operation prompt information of the station equipment according to the data display mode information, and sending the display page to a total client so that the total client displays the display page.

2. The intelligent monitoring system for a yard device according to claim 1, wherein the total server further comprises: an authentication gateway module;

The authentication gateway module is used for carrying out authentication judgment on the request data after receiving the request data transmitted by the sub-client, and forwarding the request data to the information analysis module when judging that the request data is error-free.

3. The yard equipment intelligent monitoring system of claim 2, wherein said authentication gateway module is further configured to: when judging that the request data is wrong, blocking the request data, generating blocking information and returning the blocking information to the corresponding sub-client side for display.

4. The yard equipment intelligent monitoring system of claim 1, wherein said user profile database is further configured to: storing the identity information, the request items and the response data returned from the current sub-server; wherein the identity information includes a user name and a user role.

5. The yard equipment intelligent monitoring system of claim 1, wherein said intelligent algorithm module is further configured to: and after receiving the identity information of the user initiating the request, calling all historical request matters of the current user in the user portrait database in a preset period, analyzing according to the historical request matters to obtain the request matters with highest request frequency of the current user in the preset period, and sending the request matters with highest request frequency to the user portrait database for storage.

6. The yard equipment intelligent monitoring system of claim 1, wherein said intelligent algorithm module is further configured to: according to the identity information of the user initiating the request, retrieving push data corresponding to the user identity information in a preset user portrait database, and sending the push data to the webpage service module;

the webpage service module is further used for generating a display page for displaying the push data according to the received push data; and sending the display page to a total client so that the total client displays the display page.

7. The intelligent monitoring system for a yard equipment according to claim 1, wherein the sub-server further comprises:

Generating monitoring page response data corresponding to the request data according to the request data;

And sending the monitoring page response data to a corresponding sub-client so that the sub-client displays the monitoring response data.