CN110941910A - Intelligent auxiliary method and system for power grid three-dimensional design review - Google Patents

Abstract

The invention discloses an intelligent auxiliary method and system for power grid three-dimensional design review, wherein the method comprises the following steps: acquiring and uploading engineering project data, extracting engineering model data to be processed and containing a first engineering key index from the engineering project data, comparing the first engineering key index in the engineering model data with a second engineering key index in historical review engineering data to obtain a first comparison result, comparing the first engineering key index in the engineering model data with a third engineering key index in standard engineering data to obtain a second comparison result, and displaying the first comparison result and the second comparison result; the system comprises a data acquisition module, a data uploading module, a data extraction module, an index comparison module, a result display module and a background server; according to the method, the accuracy of the evaluation of the related data processing is improved, the dependence on personnel is avoided, the objectivity of evaluation is improved, and the efficiency of evaluation of the three-dimensional design of the power grid is obviously improved.

Description

Intelligent auxiliary method and system for power grid three-dimensional design review

Technical Field

The invention relates to the technical field of power grid three-dimensional design review, in particular to an intelligent auxiliary method and system for power grid three-dimensional design review.

Background

At present, in the process of evaluating a three-dimensional design of a power grid, a large amount of evaluation-related data often needs a large amount of manpower to perform processing work such as sorting, comparing and screening on the evaluation-related data, and although the evaluation-related data can sometimes meet the evaluation requirement, the evaluation-related data is found in actual operation: due to the fact that the data volume is too large, the data types are very many, the dependence on the skill and proficiency of personnel is large, and sometimes multiple people are needed to work cooperatively, the frequency of errors is very high, and rework and reprocessing are needed even when a certain number of errors occur, so that the progress of power grid three-dimensional design review is seriously influenced, and the efficiency of the power grid three-dimensional design review is reduced.

Therefore, how to significantly reduce the probability of error occurrence on the premise of avoiding too much dependence on the staff level so as to improve the efficiency of power grid three-dimensional design review and speed up the progress of power grid three-dimensional design review becomes a key point for technical problems to be solved and research all the time by technical staff in the field.

Disclosure of Invention

The invention provides an intelligent auxiliary method and system for power grid three-dimensional design review, and aims to solve the problems that the error rate is high, the dependence on personnel level is high, the power grid three-dimensional design review progress is slowed down and the like in the traditional processing process of reviewing relevant data.

In order to achieve the technical purpose, the invention discloses an intelligent auxiliary method for power grid three-dimensional design review, which comprises the following steps;

the method comprises the steps of obtaining engineering project data to be subjected to three-dimensional design review of the power grid in batches, and uploading the obtained engineering project data to a background server;

extracting to-be-processed engineering model data from engineering project data stored in a background server, wherein the engineering model data comprises first engineering key indexes of multiple categories;

obtaining a first comparison result by comparing a first engineering key index in the engineering model data with a second engineering key index in pre-stored historical review engineering data, obtaining a second comparison result by comparing the first engineering key index in the engineering model data with a third engineering key index in spliced standard engineering data, and displaying the first comparison result and the second comparison result; the first engineering key index and the second engineering key index which are used for mutual comparison are in the same category, and the first engineering key index and the third engineering key index which are used for mutual comparison are in the same category.

Further, before comparing the first engineering key index with the third engineering key index, the auxiliary method further comprises the following steps;

and extracting a plurality of sub-design scheme data from a standard design database according to preset conditions, and obtaining standard engineering data by splicing the plurality of sub-design schemes.

Further, before comparing the first engineering key index with the second engineering key index, the auxiliary method further comprises the following steps;

screening out evaluation engineering data with the same type as the engineering model data from the historical evaluation engineering data, and taking the evaluation engineering data as first data to be compared for comparing with the engineering model data.

Further, before comparing the first engineering key index with the second engineering key index, the auxiliary method further comprises the following steps;

screening the evaluation engineering data in different stages with the engineering model data from the historical evaluation engineering data, and taking the evaluation engineering data as second data to be compared for comparing with the engineering model data.

Further, before comparing the first engineering key index with the second engineering key index, the auxiliary method further comprises the following steps;

and calculating average level data of all projects in the historical review project data, and taking the average level data as third data to be compared for comparison with the project model data.

In order to achieve the technical purpose, the invention also provides an intelligent auxiliary system for power grid three-dimensional design review, which comprises a data acquisition module, a data uploading module, a data extraction module, an index comparison module, a result display module and a background server;

the data acquisition module is used for acquiring engineering project data to be subjected to three-dimensional design review of the power grid in batches;

the data uploading module is used for uploading the acquired engineering project data to a background server;

the data extraction module is used for extracting to-be-processed engineering model data from the engineering project data stored in the background server, wherein the engineering model data comprises a plurality of categories of first engineering key indexes;

the index comparison module is used for obtaining a first comparison result by comparing a first engineering key index in the engineering model data with a second engineering key index in pre-stored historical review engineering data, and obtaining a second comparison result by comparing the first engineering key index in the engineering model data with a third engineering key index in spliced standard engineering data;

the result display module is used for displaying the first comparison result and the second comparison result;

the background server is used for storing the engineering project data, the historical review engineering data and the spliced standard engineering data;

the first engineering key index and the second engineering key index which are used for mutual comparison are in the same category, and the first engineering key index and the third engineering key index which are used for mutual comparison are in the same category.

Further, the auxiliary system also comprises a data extraction module and a scheme splicing module;

the data extraction module is used for extracting a plurality of sub-design scheme data from the standard design database according to preset conditions before the comparison between the first engineering key index and the third engineering key index is carried out;

and the scheme splicing module is used for obtaining standard engineering data in a mode of splicing the plurality of sub-design schemes.

Further, the auxiliary system also comprises a homogeneous engineering screening module and a first comparison sub-module;

the similar engineering screening module is used for screening review engineering data with the same type as the engineering model data from the historical review engineering data before comparing a first engineering key index with a second engineering key index, and taking the review engineering data as first data to be compared;

and the first comparison submodule is used for comparing the first data to be compared with the engineering model data.

Further, the auxiliary system also comprises a stage engineering screening module and a second comparison sub-module;

the stage engineering screening module is used for screening review engineering data which are in different stages from the engineering model data from the historical review engineering data before the comparison between the first engineering key index and the second engineering key index is carried out, and taking the review engineering data as second data to be compared;

and the second comparison submodule is used for comparing the second data to be compared with the engineering model data.

Further, the auxiliary system further comprises an average level calculation module and a third comparison sub-module;

the average level calculation module is used for calculating average level data of all projects in the historical review project data before comparing a first project key index with a second project key index, and taking the average level data as third data to be compared;

and the third comparison submodule is used for comparing the third data to be compared with the engineering model data.

The invention has the beneficial effects that:

according to the method, the accuracy of the processing of the relevant data to be evaluated can be remarkably improved through an intelligent processing means, the processes of data acquisition, uploading and extraction, index comparison and result display can be completed according to preset rules, the problem that the dependence on the skill and proficiency of personnel is large is effectively avoided, and the objectivity of evaluation is improved, so that the influence of subjective factors of personnel on the data processing result is avoided, the efficiency of evaluating the three-dimensional design of the power grid can be remarkably improved, and the progress of evaluating the three-dimensional design of the power grid can be accelerated; the invention also has the advantage of easy implementation, so the invention is suitable for large-area popularization and application.

Drawings

Fig. 1 is a schematic flow chart of an intelligent auxiliary method for power grid three-dimensional design review.

FIG. 2 is a schematic diagram of a power grid three-dimensional design review intelligent auxiliary system framework.

Detailed Description

The invention provides a power grid three-dimensional design review intelligent auxiliary method and a power grid three-dimensional design review intelligent auxiliary system, which are explained and explained in detail in the following by combining with the drawings of the specification.

The first embodiment is as follows:

as shown in fig. 1 and in combination with fig. 2, this embodiment specifically provides an intelligent auxiliary method for power grid three-dimensional design review, where the auxiliary method includes the following steps.

Step 10, based on an intelligent processing means, the embodiment can acquire engineering project data to be subjected to power grid three-dimensional design review in batch, and then upload the acquired engineering project data to a background server.

Step 20, according to a preset filtering rule and/or in combination with a machine learning manner, to-be-processed engineering model data is extracted from the engineering project data stored in the background server, where the engineering model data includes a plurality of categories of first engineering key indexes. Therefore, in the process of extracting the engineering model data, the present embodiment realizes the search of the key index, that is, the first engineering key index, so as to find a large number of multidimensional key technical indexes to be compared from the design data provided by the design unit.

Step 30, for a large number of engineering key indexes, obtaining a first comparison result by comparing a first engineering key index in the engineering model data with a second engineering key index in the pre-stored historical review engineering data, obtaining a second comparison result by comparing the first engineering key index in the engineering model data with a third engineering key index in the spliced standard engineering data, displaying the first comparison result and the second comparison result, visually displaying the first comparison result and the second comparison result to each review expert in a table mode, and distinguishing the difference indexes in modes of color, line thickening and the like; the first engineering key index and the second engineering key index which are used for mutual comparison are in the same category, and the first engineering key index and the third engineering key index which are used for mutual comparison are in the same category; for example, if the first engineering key index is an electrical wiring design index, the second engineering key index compared with the first engineering key index is necessarily a corresponding electrical wiring design index, and if the first engineering key index is a circuit structure index, the third engineering key index compared with the first engineering key index is necessarily a corresponding circuit structure index, and so on, which is not described in detail in this embodiment. In addition, for each key index to be compared, the embodiment may use the average value of each key index to compare, and the calculation of the average value may be completed in the background server.

Before comparing the first engineering key index with the third engineering key index, the auxiliary method also comprises the following steps;

step 100, extracting a plurality of sub-design scheme data from a standard design database according to preset conditions (such as standard design and typical construction cost of a power grid), and obtaining standard engineering data by splicing the plurality of sub-design schemes, namely, in the embodiment, a proper sub-scheme or sub-module can be searched from a huge standard design database in an intelligent and automatic retrieval mode, so that the standard design scheme (namely, the standard engineering data) is determined in an intelligent and automatic splicing mode, the standard design scheme can comprise a power transformation simulation scheme, a line simulation scheme, a construction cost simulation scheme and the like, and the standard design scheme can completely simulate the splicing result meeting the expectation, namely, a standard scheme is automatically formed in a program control splicing mode.

The method can screen the project key index data to be compared according to the dimensions of the same project (namely the project with the same category), different stages (project progress stages), standard schemes and the like, the historical review project data provided by the embodiment comprises but is not limited to review project data with the same type as the project model data, review project data in different stages with the project model data, average level data of all projects in the historical review project data and the like, and the data can be used for being compared with the project data to be reviewed (mainly used as the project key indexes) one by one.

As a better technical solution, before comparing the first engineering key index with the second engineering key index, the auxiliary method further includes the following steps.

200, the same type of project as the current project can be automatically screened out according to the preset rules, in the specific implementation, review project data with the same type as the project model data are screened out from the historical review project data, the review project data are used as first data to be compared and are used for being compared with the project model data, then indexes concerned by review experts can be visually displayed (such as automatic listing) through a form for the review experts to refer to, so that the review experts can quickly position problems existing in the review project.

As the optimized technical scheme, before the comparison of the first engineering key index and the second engineering key index, the auxiliary method also comprises the following steps;

step 201, according to the past engineering data and the key indexes corresponding thereto, the present embodiment can automatically screen out the engineering at different stages from the current engineering according to rules, and in the specific implementation, the present embodiment screens out the review engineering data at different stages from the engineering model data from the historical review engineering data, and uses the review engineering data as the second data to be compared for comparison with the engineering model data, and then can realize that the indexes concerned by the review experts are visually displayed (such as automatic listing) through a table for the review experts to refer to, so that the review experts can quickly locate the problems existing in the project to be reviewed.

As an improved technical scheme, before the comparison of the first engineering key index and the second engineering key index, the auxiliary method also comprises the following steps;

step 202, according to the past engineering data and the key indexes corresponding thereto, the average level value of the expert attention indexes can be automatically calculated according to rules, in the specific implementation, the average level data of all the engineering in the historical review engineering data is calculated, the average level data is used as the third data to be compared and is used for being compared with the engineering model data, then the indexes concerned by the review experts can be visually displayed (such as automatic listing) through a form for the review experts to refer to, so that the review experts can quickly locate the problems existing in the project to be reviewed, and the design condition of the items to be reviewed can be assisted to be known by the review experts from multiple dimensions by combining the intelligent comparison of the indexes, so that the invention provides a very good auxiliary function for review work.

Example two:

the invention concept is the same as that of the first embodiment, and the first embodiment specifically provides an intelligent auxiliary system for power grid three-dimensional design review, which can be used for specifically realizing the intelligent auxiliary method for power grid three-dimensional design review in the first embodiment; specifically, as shown in fig. 2 and combined with fig. 1, the auxiliary system includes a data acquisition module, a data uploading module, a data extraction module, an index comparison module, a result display module, and a background server.

After the storage medium storing the engineering project data is in communication connection with the system, the data acquisition module is used for acquiring the engineering project data to be subjected to three-dimensional design review of the power grid in batches.

And the data uploading module is used for uploading the acquired engineering project data to the background server, and the data uploading module can work in the data batch acquisition process or after the data batch acquisition is completed.

The data extraction module is used for extracting the engineering model data to be processed from the engineering project data stored in the background server, and the data extraction module is preset with a filtering rule which can be continuously optimized along with the increase of the evaluation times by using a machine learning mode. The engineering model data includes a plurality of categories of first engineering key indexes, so that in the process of extracting the engineering model data, the key indexes are searched, that is, the first engineering key indexes are searched, so that a large number of multidimensional key technical indexes to be compared are found from design data provided by a design unit.

And the index comparison module is used for obtaining a first comparison result by comparing a first engineering key index in the engineering model data with a second engineering key index in the pre-stored historical review engineering data and obtaining a second comparison result by comparing the first engineering key index in the engineering model data with a third engineering key index in the spliced standard engineering data. The index comparison module can also be used for visually displaying to each review expert in a form mode, and can be used for distinguishing the difference index in modes of color, line thickening and the like.

And the result display module is used for displaying the first comparison result and the second comparison result, and in specific implementation, the result display module can comprise a display faced by each review expert.

And the background server is used for storing the engineering project data, the historical review engineering data and the spliced standard engineering data.

The first engineering key index and the second engineering key index which are used for mutual comparison are in the same category, and the first engineering key index and the third engineering key index which are used for mutual comparison are in the same category.

As an improved technical scheme, the auxiliary system further comprises a data extraction module and a scheme splicing module.

And the data extraction module is used for extracting a plurality of sub-design scheme data from the standard design database according to preset conditions before comparing the first engineering key index with the third engineering key index, for example, extracting the sub-design scheme data from the standard design database according to the standard design and the typical cost of the power grid.

And the scheme splicing module is used for obtaining standard engineering data in a mode of splicing a plurality of sub-design schemes, the standard engineering data can comprise a power transformation simulation scheme, a line simulation scheme, a construction cost simulation scheme and the like, and the standard design schemes can completely simulate splicing results meeting expected standard schemes.

As an improved technical scheme, the auxiliary system further comprises a similar engineering screening module and a first comparison sub-module.

And the similar engineering screening module is used for screening the evaluation engineering data with the same type as the engineering model data from the historical evaluation engineering data before the comparison between the first engineering key index and the second engineering key index is carried out, and taking the evaluation engineering data as the first data to be compared.

The first comparison submodule is used for comparing the first data to be compared with the engineering model data, and then the indexes concerned by the evaluation experts can be visually displayed (such as automatically listed) through a form for the reference of the evaluation experts, so that the evaluation experts can quickly position the problems of the engineering to be evaluated.

As an improved technical scheme, the auxiliary system further comprises a stage engineering screening module and a second comparison sub-module.

And the stage engineering screening module is used for screening the review engineering data in different stages from the engineering model data from the historical review engineering data before the comparison between the first engineering key index and the second engineering key index is carried out, and taking the review engineering data as the second data to be compared.

And the second comparison sub-module is used for comparing the second data to be compared with the engineering model data, and then the indexes concerned by the evaluation experts can be visually displayed (such as automatically listed) through a form for the reference of the evaluation experts so that the evaluation experts can quickly position the problems existing in the engineering to be evaluated.

As an improved technical scheme, the auxiliary system further comprises an average level calculation module and a third comparison sub-module.

And the average level calculation module is used for calculating average level data of all projects in the historical review project data before the comparison of the first project key index and the second project key index is carried out, and taking the average level data as third data to be compared.

And the third comparison submodule is used for comparing the third data to be compared with the engineering model data, and then the indexes concerned by the evaluation experts can be visually displayed (such as automatically listed) through a form for the reference of the evaluation experts so that the evaluation experts can quickly position the problems existing in the engineering to be evaluated.

In addition, the index comparison module of this embodiment further includes a fourth comparison sub-module, where the fourth comparison sub-module is configured to compare the second engineering key index in the pre-stored historical review engineering data with the first engineering key index in the engineering model data.

It should be understood that the data acquisition module, the data uploading module, the data extraction module, the index comparison module, the data extraction module, the scheme splicing module, the similar engineering screening module, the first comparison sub-module, the stage engineering screening module, the second comparison sub-module, the average level calculation module, and the third comparison sub-module related to the present embodiment may be implemented in software, a program, a code segment of the program, firmware, a database, or the like.

In summary, the invention extracts each key index from a complicated design document through an intelligent and automatic method, and combines the intelligent, multidimensional and comprehensive comparison of each key index, and the invention can assist the review expert to know the design condition of the item to be reviewed from multiple dimensions on the premise of accurate index comparison result, therefore, the invention can provide a good auxiliary function for the review work.

In the description herein, references to the description of the term "the present embodiment," "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and simplifications made in the spirit of the present invention are intended to be included in the scope of the present invention.

Claims (10)

1. An intelligent auxiliary method for power grid three-dimensional design review is characterized in that: the auxiliary method comprises the following steps;

the method comprises the steps of obtaining engineering project data to be subjected to three-dimensional design review of the power grid in batches, and uploading the obtained engineering project data to a background server;

extracting to-be-processed engineering model data from engineering project data stored in a background server, wherein the engineering model data comprises first engineering key indexes of multiple categories;

obtaining a first comparison result by comparing a first engineering key index in the engineering model data with a second engineering key index in pre-stored historical review engineering data, obtaining a second comparison result by comparing the first engineering key index in the engineering model data with a third engineering key index in spliced standard engineering data, and displaying the first comparison result and the second comparison result; the first engineering key index and the second engineering key index which are used for mutual comparison are in the same category, and the first engineering key index and the third engineering key index which are used for mutual comparison are in the same category.

2. The intelligent auxiliary method for power grid three-dimensional design review according to claim 1, wherein: before comparing the first engineering key index with the third engineering key index, the auxiliary method also comprises the following steps;

and extracting a plurality of sub-design scheme data from a standard design database according to preset conditions, and obtaining standard engineering data by splicing the plurality of sub-design schemes.

3. The intelligent auxiliary method for power grid three-dimensional design review according to claim 1 or 2, wherein: before comparing the first engineering key index with the second engineering key index, the auxiliary method also comprises the following steps;

screening out evaluation engineering data with the same type as the engineering model data from the historical evaluation engineering data, and taking the evaluation engineering data as first data to be compared for comparing with the engineering model data.

4. The intelligent auxiliary method for power grid three-dimensional design review according to claim 3, wherein: before comparing the first engineering key index with the second engineering key index, the auxiliary method also comprises the following steps;

screening the evaluation engineering data in different stages with the engineering model data from the historical evaluation engineering data, and taking the evaluation engineering data as second data to be compared for comparing with the engineering model data.

5. The intelligent auxiliary method for power grid three-dimensional design review according to claim 4, wherein: before comparing the first engineering key index with the second engineering key index, the auxiliary method also comprises the following steps;

and calculating average level data of all projects in the historical review project data, and taking the average level data as third data to be compared for comparison with the project model data.

6. The utility model provides a three-dimensional design review intelligence auxiliary system of electric wire netting which characterized in that: the auxiliary system comprises a data acquisition module, a data uploading module, a data extraction module, an index comparison module, a result display module and a background server;

the data acquisition module is used for acquiring engineering project data to be subjected to three-dimensional design review of the power grid in batches;

the data uploading module is used for uploading the acquired engineering project data to a background server;

the data extraction module is used for extracting to-be-processed engineering model data from the engineering project data stored in the background server, wherein the engineering model data comprises a plurality of categories of first engineering key indexes;

the index comparison module is used for obtaining a first comparison result by comparing a first engineering key index in the engineering model data with a second engineering key index in pre-stored historical review engineering data, and obtaining a second comparison result by comparing the first engineering key index in the engineering model data with a third engineering key index in spliced standard engineering data;

the result display module is used for displaying the first comparison result and the second comparison result;

the background server is used for storing the engineering project data, the historical review engineering data and the spliced standard engineering data;

the first engineering key index and the second engineering key index which are used for mutual comparison are in the same category, and the first engineering key index and the third engineering key index which are used for mutual comparison are in the same category.

7. The power grid three-dimensional design review intelligent auxiliary system according to claim 6, wherein: the auxiliary system also comprises a data extraction module and a scheme splicing module;

the data extraction module is used for extracting a plurality of sub-design scheme data from the standard design database according to preset conditions before the comparison between the first engineering key index and the third engineering key index is carried out;

and the scheme splicing module is used for obtaining standard engineering data in a mode of splicing the plurality of sub-design schemes.

8. The power grid three-dimensional design review intelligent auxiliary system according to claim 6 or 7, wherein: the auxiliary system also comprises a similar engineering screening module and a first comparison sub-module;

the similar engineering screening module is used for screening review engineering data with the same type as the engineering model data from the historical review engineering data before comparing a first engineering key index with a second engineering key index, and taking the review engineering data as first data to be compared;

and the first comparison submodule is used for comparing the first data to be compared with the engineering model data.

9. The power grid three-dimensional design review intelligent auxiliary system according to claim 8, wherein: the auxiliary system also comprises a stage engineering screening module and a second comparison sub-module;

the stage engineering screening module is used for screening review engineering data which are in different stages from the engineering model data from the historical review engineering data before the comparison between the first engineering key index and the second engineering key index is carried out, and taking the review engineering data as second data to be compared;

and the second comparison submodule is used for comparing the second data to be compared with the engineering model data.

10. The power grid three-dimensional design review intelligent auxiliary system according to claim 9, wherein: the auxiliary system also comprises an average level calculation module and a third comparison sub-module;

the average level calculation module is used for calculating average level data of all projects in the historical review project data before comparing a first project key index with a second project key index, and taking the average level data as third data to be compared;

and the third comparison submodule is used for comparing the third data to be compared with the engineering model data.

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