CN113569543B - Implementation method of nuclear power engineering automatic report generation technology - Google Patents

Abstract

The invention belongs to the field of nuclear power project research and development, and particularly discloses a method for realizing a nuclear power engineering automatic report generation technology, which comprises the following steps of S1: establishing a program architecture; s2: customizing and generating a report template; s3: big data is automatically grabbed; s4: and establishing a real-time data analysis algorithm model. The method can realize one-key generation of the project report, automatic association of big data and data analysis. The management efficiency and the working quality can be greatly improved, the project report management level is improved, the method has great guiding significance for smooth promotion of important special projects of China and the improvement of the management level of domestic industries, and the blank of the related fields is filled.

Description

Implementation method of nuclear power engineering automatic report generation technology

Technical Field

The invention relates to the field of nuclear power project research and development, in particular to a method for realizing a nuclear power engineering automatic report generation technology.

Background

In nuclear power projects, report management is one of important management contents, and project report compiling efficiency is effectively improved, timeliness and accuracy of project report data are improved, and project report management level is improved through a project automatic report generating function. Under the normal condition, project report management personnel automatically acquire project progress information to compile a project report, and the problems of inaccurate data in time, large workload, low working efficiency and insufficient compiling standardization exist.

Disclosure of Invention

The invention aims to provide a method for realizing a nuclear power engineering automatic report generation technology, which aims to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the implementation method of the nuclear power engineering automatic report generation technology comprises the following specific steps:

s1: establishing a program architecture: the background configuration linkage of the front-end operation interface is realized through system integration, a configurable and expandable application program architecture is realized, and the version management and control of the report file are realized by using a network storage technology;

s2: report template customization generation:

s21: the report template and standardized sentences are preset through research and development software, effective data information is automatically filled, and word format reports are output through one key;

s22: defining dynamic content by using an expanding function and a labeling method, pre-configuring contents such as report covers, catalog chapters and the like, generating output by one key, pre-configuring standard sentences in a report, custom-grabbing a data source for dynamic data, and automatically embedding the dynamic data into related sentences through an interface program;

s3: big data automatic grabbing: firstly determining the category and the quantity of dynamic data of project reports, coding the dynamic data, presetting a company big data retrieval engine, retrieving and capturing effective data from a big data pool through a coding matching rule, and automatically filling the effective data into a designated chapter;

s4: establishing a real-time data analysis algorithm model: and (3) according to the data analysis chart format and the content requirement in the report, screening effective data in a large data pool through a search window, reorganizing, calculating and sequencing the original data according to a project management and control model, deeply mining the relativity among the data according to the dimensionality of the project, the specialty and the unit, analyzing the deviation reasons, synthesizing the multidimensional data to form a report analysis conclusion, and outputting the report analysis conclusion to the report chapter content through an independent research and development visualization method.

Preferably, in step S1, the program architecture specifically includes a Java container and a NET configured in an operating system, and a word template file, a report handler, a data interface, a report content configuration file, a network storage server, a foreground analysis and a work interface.

Preferably, the foreground analysis and working interface is connected to the report processing program through a data interface, the report content configuration file is output to the word template file, the word template file is output to the report processing program, and the output end of the report processing program is connected to the network storage server.

Preferably, in the program architecture:

the foreground analysis and working interface is a working interface of a user and comprises project data analysis and one-key report generation functions;

the data interface realizes dynamic release of project data through a release standard API interface, and a processing program automatically acquires the latest project information;

the network storage server supports a network storage platform for sharing and version management, and realizes the storage of report files and network sharing;

the report content configuration file uses a standard XML file format, realizes data sources and format output patterns in a configuration form, and can flexibly adapt to various report templates;

the report processing program reads configuration information, a template file and platform data, analyzes the configuration information, the template file and the platform data to generate a Word file report, and pushes the Word file report to the network storage server;

the word template file comprises a content template and a style template file, and is realized by using a standard template.

Preferably, in step S2, the software supports visual chart output, manual editing and automatic uploading to the server.

Preferably, in step S2, the data content can be adjusted and automatically associated with the report covers, directories, titles, pictures, tables, etc. in a customized manner, so as to form a report chapter modularized configuration, and a plurality of report templates are customized to adapt to the requirements of various types of report preparation.

Preferably, in step S3, the automatic grabbing supports grabbing of data/picture formats such as TXT format and JPG format.

Compared with the prior art, the invention has the beneficial effects that:

the method can realize one-key generation of the project report, automatic association of big data and data analysis. The management efficiency and the working quality can be greatly improved, the project report management level is improved, the method has great guiding significance for smooth promotion of important special projects of China and the improvement of the management level of domestic industries, and the blank of the related fields is filled.

Drawings

FIG. 1 is a flow chart of the overall technical scheme of the invention;

FIG. 2 is a program architecture diagram of the present invention;

fig. 3 is a flow chart of embodiment 2 of the present invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-2, the present invention provides a technical solution: the implementation method of the nuclear power engineering automatic report generation technology comprises the following specific steps:

s1: establishing a program architecture: the background configuration linkage of the front-end operation interface is realized through system integration, a configurable and expandable application program architecture is realized, and the version management and control of the report file are realized by using a network storage technology;

the program architecture specifically comprises Java containers and NET configured in an operating system, word template files, report processing programs, data interfaces, report content configuration files, a network storage server, a foreground analysis and working interface.

The foreground analysis and working interface is connected to the report processing program through the data interface, the report content configuration file is output to the word template file, the word template file is output to the report processing program, and the output end of the report processing program is connected to the network storage server.

The program architecture is as follows:

the foreground analysis and working interface is a working interface of a user and comprises project data analysis and one-key report generation functions;

the data interface realizes dynamic release of project data through a release standard API interface, and a processing program automatically acquires the latest project information;

the network storage server supports a network storage platform for sharing and version management, and realizes the storage of report files and network sharing;

the report content configuration file uses a standard XML file format, realizes data sources and format output patterns in a configuration form, and can flexibly adapt to various report templates;

the report processing program reads configuration information, a template file and platform data, analyzes the configuration information, the template file and the platform data to generate a Word file report, and pushes the Word file report to the network storage server;

the word template file comprises a content template and a style template file, and is realized by using a standard template.

S2: report template customization generation:

s21: the report template and standardized sentences are preset through research and development software, effective data information is automatically filled, and word format reports are output through one key; the software supports visual chart output, supports manual editing and automatically uploads the server, and improves report writing efficiency and working quality; the independent development functional software is compatible with Word format output, so that the report is generated by one key and uploaded to the server, and report version management can be realized.

S22: defining dynamic content by using an expanding function and a labeling method, pre-configuring contents such as report covers, catalog chapters and the like, generating output by one key, pre-configuring standard sentences in a report, custom-grabbing a data source for dynamic data, and automatically embedding the dynamic data into related sentences through an interface program;

the report preparation method can meet the requirements of different types of report preparation, can self-define and adjust report covers, catalogues, titles, pictures, forms and the like and automatically associate data contents to form report chapter modularized configuration, and can customize various report templates to adapt to the requirements of various types of report preparation; the management efficiency of project management personnel is greatly improved, the standardized management of project reports is improved, and the report compiling quality is improved; the method is applied to the national major special engineering project for the first time at present, achieves good effects, and has great guiding significance for smooth promotion of the national major special engineering.

S3: big data automatic grabbing: firstly determining the category and the quantity of dynamic data of project reports, coding the dynamic data, presetting a company big data retrieval engine, retrieving and capturing effective data from a big data pool through a coding matching rule, and automatically filling the effective data into a designated chapter; automatic grabbing supports grabbing of data/picture formats such as TXT format, JPG format and the like;

and automatically generating report contents according to the customized template format by effectively linking with the big data and filtering the effective data. Effective data are flexibly grabbed in real time through a big data automatic grabbing technology, and personalized configuration project reporting in a user-defined mode is realized; the management efficiency of project management personnel is greatly improved, the data utilization rate is improved, the workload of report programming is reduced, the manpower investment is reduced, and the report quality is improved; the method is applied to the national major special engineering project for the first time at present, achieves good effects, and has great guiding significance for smooth promotion of the national major special engineering.

S4: establishing a real-time data analysis algorithm model: screening effective data in a large data pool through a search window according to the data analysis chart format and content requirements in the report, reorganizing, calculating and sequencing the original data of service data according to a project management and control model, deeply mining the relativity among the data according to the dimensionality of the project, the specialty and the unit, analyzing the reasons of deviation, synthesizing the multidimensional data to form a report analysis conclusion, and outputting the report analysis conclusion to the report chapter content through an autonomous research and development visualization method;

the full utilization of big data in project report management service is realized, and the working efficiency and the working quality of report preparation are improved.

Example 1: through the application of the technology and the software, the main problems are mainly solved as follows:

the main benefits brought by the application of the technology and the software are as follows:

1. direct benefit: the method has the advantages that the project report one-key generation is realized, the real-time big data automatic analysis technology is realized, the modularized configuration is suitable for the programming application requirements of the multi-scene report, the project management efficiency and the working quality can be effectively improved, the labor investment is saved, the project report is timely and accurately programmed and issued, the deviation is timely identified and deviation correction measures are provided through the big data real-time analysis, and the economy of the national and series nuclear power project units is improved; the report compiling efficiency is greatly improved by more than 80 percent, and direct economic benefit is brought to projects by more than 500 ten thousand.

2. Indirect benefit: the project report management level can be greatly improved, the work efficiency of project management staff is improved, and the effective engagement and cooperative coordination of management teams are promoted; the technology and the software can be popularized and applied to the field of project management in China and industry, promote the integral improvement of the project management level of the industry and promote the international competitiveness of national and series nuclear power projects; the expected indirect benefit is greater than 8000 ten thousand;

3. social benefit: the technology and the software are successfully applied to national and series nuclear power projects, accumulate management experience, and can be subsequently applied in the national chemical industry, the building industry and the automobile manufacturing industry in an adaptive conversion manner; the improvement of the report management level of various industries is promoted, and the potential application environment of industry standardized management is provided; bringing social benefits of expected more than 10 hundred million.

Example 2: as shown in fig. 3, taking project winning value management report as an example, the implementation method for describing the automatic report generation technology of nuclear power engineering comprises the following steps:

s1, setting project winning value report covers and catalog formats including title fonts, editing/review/batch text boxes and the like;

s2, setting a project winning value report text format which comprises a primary title, a secondary title, a text size, a chart position size and the like;

s3, setting project winning value report standardization statement, reserving and configuring dynamic data sources to be filled;

s4, setting codes of dynamic data, and establishing a search engine to search and grab data in a big data pool;

s5, setting a chart data source, searching grabbing data in a big data pool through a search engine, and automatically generating a chart through a chart format;

s6, analyzing and reorganizing the dynamic grabbing big data according to the data analysis model to generate a deviation analysis conclusion;

s7, checking the report data manually, and checking the report analysis conclusion;

s8, automatically outputting the report by one key into a Word format, and automatically uploading the report to a management server;

s9, completing an on-line approval process according to the management process.

Example 3: the development design of the automatic report generating software in the scheme is specifically as follows:

and (3) software architecture design: the front-end working platform is used for completing daily project business operation, analyzing and summarizing specific business conditions, standardizing a periodic report, carrying out report development by using a configuration mode, and realizing automatic report generation operation by using a one-key generation button only by summarizing a user.

Report template custom design: word template. Docx should use the original complete report to edit, delete its existing content to the content chapter that needs to be produced by the program, insert "construct the basic library content control", and set the title and Label of the content control as the id attribute value defined by Label.

Word style. Docx should edit using the native complete report, delete its main content, and keep simple content such as pictures, paragraphs or tables that require chapters to be generated by the program.

The content in the table is deleted according to the setting of the table, and only two rows are reserved, wherein one row is a header row and the other row is a data row; and a bookmark is inserted into the first cell of the title line, and the name of the bookmark is the attribute value of the Style tag key.

Only a style picture is reserved aiming at the picture, the correct width and the correct height are ensured, and if the demo style of the picture is not set, the picture is inserted and displayed according to the actual size of the picture; a bookmark, named Style tag key, attribute value, needs to be inserted in front of the picture.

Setting for paragraphs only needs to keep personal characters, setting correct indentation and fonts, inserting a bookmark in the starting position of the paragraph, and enabling the name of the bookmark to be the attribute value of the Style label key.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The implementation method of the nuclear power engineering automatic report generation technology is characterized by comprising the following specific steps of:

s1: establishing a program architecture: the background configuration linkage of the front-end operation interface is realized through system integration, a configurable and expandable application program architecture is realized, and the version management and control of the report file are realized by using a network storage technology;

s2: report template customization generation:

s21: the report template and standardized sentences are preset through research and development software, effective data information is automatically filled, and word format reports are output through one key;

s22: defining dynamic content by using an expanding function and a labeling method, pre-configuring contents such as report covers, catalog chapters and the like, generating output by one key, pre-configuring standard sentences in a report, custom-grabbing a data source for dynamic data, and automatically embedding the dynamic data into related sentences through an interface program;

s3: big data automatic grabbing: firstly determining the category and the quantity of dynamic data of project reports, coding the dynamic data, presetting a company big data retrieval engine, retrieving and capturing effective data from a big data pool through a coding matching rule, and automatically filling the effective data into a designated chapter;

s4: establishing a real-time data analysis algorithm model: and (3) according to the data analysis chart format and the content requirement in the report, screening effective data in a large data pool through a search window, reorganizing, calculating and sequencing the original data according to a project management and control model, deeply mining the relativity among the data according to the dimensionality of the project, the specialty and the unit, analyzing the deviation reasons, synthesizing the multidimensional data to form a report analysis conclusion, and outputting the report analysis conclusion to the report chapter content through an independent research and development visualization method.

2. The method for implementing the automatic report generating technology for nuclear power engineering according to claim 1, wherein the method comprises the following steps: in step S1, the program architecture specifically includes a Java container and a NET configured in an operating system, and a word template file, a report processing program, a data interface, a report content configuration file, a network storage server, a foreground analysis and a working interface.

3. The implementation method of the automatic report generating technology for nuclear power engineering according to claim 2, wherein the implementation method is characterized in that: the foreground analysis and working interface is connected to the report processing program through the data interface, the report content configuration file is output to the word template file, the word template file is output to the report processing program, and the output end of the report processing program is connected to the network storage server.

4. The implementation method of the automatic report generating technology for nuclear power engineering according to claim 2, wherein the implementation method is characterized in that: the program architecture is as follows:

the foreground analysis and working interface is a working interface of a user and comprises project data analysis and one-key report generation functions;

the data interface realizes dynamic release of project data through a release standard API interface, and a processing program automatically acquires the latest project information;

the network storage server supports a network storage platform for sharing and version management, and realizes the storage of report files and network sharing;

the report content configuration file uses a standard XML file format, realizes data sources and format output patterns in a configuration form, and can flexibly adapt to various report templates;

the report processing program reads configuration information, a template file and platform data, analyzes the configuration information, the template file and the platform data to generate a Word file report, and pushes the Word file report to the network storage server;

the word template file comprises a content template and a style template file, and is realized by using a standard template.

5. The method for implementing the automatic report generating technology for nuclear power engineering according to claim 1, wherein the method comprises the following steps: in step S2, the software supports visual chart output, manual editing and automatic uploading of the server.

6. The method for implementing the automatic report generating technology for nuclear power engineering according to claim 1, wherein the method comprises the following steps: in step S2, the data content can be adjusted and automatically associated with the report covers, directories, titles, pictures, tables, etc. in a customized manner, so as to form a report chapter modularized configuration, and a plurality of report templates are customized to adapt to the requirements of various types of report preparation.

7. The method for implementing the automatic report generating technology for nuclear power engineering according to claim 1, wherein the method comprises the following steps: in step S3, the automatic capture supports capture of data/picture formats such as TXT format and JPG format.