CN107480828B - Method and system for flow guidance based on building drawing optimization database - Google Patents

Abstract

The invention discloses a method and a system for flow guidance based on an optimized database of construction drawings, wherein the method comprises the following steps: s1, extracting fixed elements from the building drawing database, matching the fixed elements with preset label keywords, and storing matching results after the matching results are approved to obtain a label database of points to be optimized of each project; s2, performing hierarchical screening on the label database according to the label hierarchical rule, and generating an optimized guide list of the project according to the screening result; s3, optimizing the drawing item by item according to the optimization guide list, and marking the optimized part or the optimized part which is not related to the drawing according to the list; and S4, saving the optimization scheme of the project, and generating the detailed item optimization point list according to the optimization scheme and the template. The system of the invention corresponds to the method. The method effectively solves the problem of insufficient optimization or unreasonable optimization caused by knowledge holes and insufficient experience in the process of project optimization manually.

Description

Method and system for flow guidance based on building drawing optimization database

Technical Field

The invention belongs to the field of building design, and particularly relates to a method and a system for flow guidance based on an optimized database of building drawings.

Background

At present, the optimization of the architectural design drawings is based on the personal experience and the professional experience of individual designers or engineers with a great deal of practical experience, and the optimization is mainly based on manual examination. The optimization operation has a great barrier to developers and self-building manufacturers who do not have high-level expert teams and have high engineering development density, and the optimization operation has the limitations that the individual knowledge dependency is high and the batch operation cannot be carried out.

Disclosure of Invention

The invention aims to provide a method and a system for flow guidance based on an optimized database of a building drawing, and aims to solve the problems that the existing optimization of the building design drawing has high dependence on personal knowledge and cannot be operated in batch.

The invention is realized in this way, a method for flow guidance based on an optimized database of construction drawings, which comprises the following steps:

s1, extracting fixed elements from the building drawing database, matching the fixed elements with preset label keywords, and storing matching results after the matching results are approved to obtain a label database of points to be optimized of each project;

s2, performing hierarchical screening on the label database according to the label hierarchical rule, and generating an optimized guide list of the project according to the screening result;

s3, optimizing the drawing item by item according to the optimization guide list, and marking the optimized part or the optimized part which is not related to the drawing according to the list;

and S4, saving the optimization scheme of the project, and generating the detailed item optimization point list according to the optimization scheme and the template.

Preferably, after the step S4, the method further comprises the steps of:

and S5, inputting relevant information into the optimization points meeting the optimization conditions, and periodically perfecting the relevant information to update the optimization points.

Preferably, in step S1, the fixed element is an optimization location keyword or an optimization key parameter value of each specific element to be determined and optimized in the building structure;

the concrete elements comprise balconies, stairs and slopes at entrances of basements.

Preferably, in step S2, the label ranking rule is specifically:

a first-level label: building type, building area, functional area covered;

second-level labeling: speciality, location;

third-level labeling: standardizing, optimizing reasons, optimizing measures, associating degree and optimizing difficulty;

in step S4, the optimization scenario includes the entered details and the problem screenshot.

Preferably, in step S5, the related information includes specific cases, solutions, and problem screenshots.

The invention discloses a system for flow guidance based on an optimized database of construction drawings, which comprises:

the tag database extraction module is used for extracting fixed elements from the building drawing database, matching the fixed elements with preset tag keywords, and storing matching results after the matching results are checked to obtain a tag database of each project point needing to be optimized;

the guide list generation module is used for carrying out hierarchical screening on the tag database according to the tag hierarchical rule and generating an optimized guide list of the project according to the screening result;

the drawing optimization module is used for optimizing the drawing item by item according to the optimization guide list and marking the optimized part or the unrelated optimized part of the drawing according to the list;

and the list detail generating module is used for storing the optimization scheme of the project and generating the list details of the project optimization points according to the optimization scheme and the template.

Preferably, the system further comprises: and the optimization point updating module is used for inputting relevant information into the optimization points meeting the optimization conditions and periodically perfecting the relevant information to update the optimization points.

Preferably, in the tag database extraction module, the fixed elements are optimization part keywords or optimization key parameter values of each specific element to be determined and optimized in the building structure;

the concrete elements comprise balconies, stairs and slopes at entrances of basements.

Preferably, in the guidance list generating module, the label ranking rule specifically includes:

a first-level label: building type, building area, functional area covered;

second-level labeling: speciality, location;

third-level labeling: standardizing, optimizing reasons, optimizing measures, associating degree and optimizing difficulty;

in a list detail generation module, the optimization scheme comprises the entered specific conditions and the problem screenshots.

Preferably, in the optimization point updating module, the related information includes specific situations, solutions and problem drawings.

In order to overcome the defects and shortcomings of the prior art, the invention provides a method and a system for flow guidance based on an optimized database of construction drawings, as shown in figure 1, the method can be established on an optimized database which is continuously improved and upgraded, the optimized database consists of various common optimizable main point lists, wherein the optimizable main point lists comprise specifications, optimization reasons, optimization measures, professional relevance and optimization difficulty, and the database is retrieved and matched through a set of label system in the optimization work.

Compared with the defects and shortcomings of the prior art, the invention has the following beneficial effects:

(1) according to the method, the mode of supplementing the database is completed in the project, because of the extraction requirement and the actual hook of the optimization points, a large amount of optimization knowledge storage is difficult to cover at the beginning of system establishment, the system database is provided with a self-completing function of each project, and the project optimization points can be supplemented to enrich the optimization database while the project is optimized.

(2) The invention centralizes the artificial experience and knowledge system data, reduces the insufficient optimization or unreasonable optimization caused by knowledge holes and insufficient experience in the project optimization process by manpower, and converts the traditional full-manual work into system-guided optimization.

Drawings

FIG. 1 is a schematic flow chart of the method of the present invention for flow guidance based on an optimized database of construction drawings;

FIG. 2 is a flowchart illustrating the steps of an embodiment of a method for process guidance based on an optimized database of construction drawings;

FIG. 3 is a flow chart of steps of a method for flow guidance based on an optimized database of construction drawings in accordance with yet another embodiment of the present invention;

FIG. 4 is a schematic structural diagram of an embodiment of the system for flow guidance based on an optimized database of construction drawings;

FIG. 5 is a schematic structural diagram of a system for flow guidance based on an optimized database of construction drawings according to another embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The invention discloses a method for flow guidance based on an optimized database of construction drawings, which comprises the following steps as shown in figure 2:

s1, extracting fixed elements from the building drawing database, matching the fixed elements with preset label keywords, and storing matching results after the matching results are approved to obtain a label database of points to be optimized of each project;

s2, performing hierarchical screening on the label database according to the label hierarchical rule, and generating an optimized guide list of the project according to the screening result;

s3, optimizing the drawing item by item according to the optimization guide list, and marking the optimized part or the optimized part which is not related to the drawing according to the list;

and S4, saving the optimization scheme of the project, and generating the detailed item optimization point list according to the optimization scheme and the template.

In step S1, the data sources of the construction drawing database include a user optimization demand collection list, an optimization case technology list, various industry specifications, industry scientific achievements, and new technologies.

In step S1, the fixed elements are optimization location keywords or optimization key parameter values of each specific element to be determined and optimized in the building structure. Wherein, the concrete elements comprise balconies, stairs, slopes at entrances of basements and the like. In the embodiment of the invention, the standard entry template is set in a way of filling the sediment, and in the actual operation process, an entry operator can complete entry operation only by filling specific element days into the template, namely, the sediment filling is completed in a fixed element way.

In step S2, the label ranking rule is specifically:

1. a first-level label:

(1) building type (e.g., residence, office building, school, etc.);

(2) building area (such as less than 10000 square meters; 10000-20000 square meters, etc.);

(3) covering functional areas (such as underground garages, outdoor machine rooms and the like);

2. second-level labeling:

(1) specialties (e.g., architectural structures, etc.);

(2) sites (e.g., foundations, underground portions, etc.);

3. third-level labeling:

(1) codes (e.g., building codes, etc.);

(2) optimization reasons (such as designer inertia, unused new materials, etc.);

(3) optimization measures (such as replacement, reduction, etc.);

(4) degree of association (e.g., association with other specialties, etc.);

(5) the difficulty of optimization (e.g., related to intelligent procedures, complexity, time, etc.).

In step S3, solutions are extracted from the solution library one by one based on the optimization list.

In step S4, the optimization scenario includes the entered details and the problem screenshot.

The invention can be built on an optimized database which is continuously perfected and upgraded and consists of various common optimizable point lists. Including specification, optimization reasons, optimization measures, professional relevance and optimization difficulty. The database is optimized by a set of label system to carry out retrieval matching.

In the actual operation process of a specific engineering project, a user puts forward key points which are desired to be optimized or emphasized, and a user optimization demand collection list is formed. And comparing and matching the list with the list labels of the database to generate an optimized guide list, screening the optimized guide list one by using manpower, simultaneously auditing the optimized points to be determined outside the database list to form a solution of the project, simultaneously listing the optimized points outside the list into the optimized guide list, and simultaneously bringing the optimized points into the database for supplementing and perfecting the database.

According to the method, the mode of supplementing the database is completed in the project, because of the extraction requirement and the actual hook of the optimization points, a large amount of optimization knowledge storage is difficult to cover at the beginning of system establishment, the system database is provided with a self-completing function of each project, and the project optimization points can be supplemented to enrich the optimization database while the project is optimized.

The invention centralizes the artificial experience and knowledge system data, reduces the insufficient optimization or unreasonable optimization caused by knowledge holes and insufficient experience in the project optimization process by manpower, and converts the traditional full-manual work into system-guided optimization.

The invention further discloses a method for flow guidance based on the optimized database of the construction drawing, as shown in fig. 3, the steps S1-S4 of the method are the same as the above steps, and after the step S4, the method further comprises the following steps:

and S5, inputting relevant information into the optimization points meeting the optimization conditions, and periodically perfecting the relevant information to update the optimization points.

In step S5, the relevant information includes details, solutions, and problem screenshots.

The invention further discloses a system for flow guidance based on the optimized database of the construction drawing, as shown in fig. 3, the system comprises:

the tag database extraction module 1 is used for extracting fixed elements from a building drawing database, matching the fixed elements with preset tag keywords, and storing matching results after the matching results are checked to obtain a tag database of each project point needing to be optimized;

the guide list generation module 2 is used for carrying out hierarchical screening on the tag database according to the tag hierarchical rule and generating an optimized guide list of the project according to the screening result;

the drawing optimization module 3 is used for optimizing the drawing item by item according to the optimization guide list and marking the optimized part or the optimized part which is not related to the drawing according to the list;

and the list detail generating module 4 is used for storing the optimization scheme of the project and generating the list details of the project optimization points according to the optimization scheme and the template.

In the tag database extraction module 1, the fixed elements are optimization part keywords or optimization key parameter values of each specific element to be determined and optimized in the building structure. Wherein, the concrete elements comprise balconies, stairs, slopes at entrances of basements and the like. In the embodiment of the invention, the standard entry template is set in a way of filling the sediment, and in the actual operation process, an entry operator can complete entry operation only by filling specific element days into the template, namely, the sediment filling is completed in a fixed element way.

In the guide list generating module 2, the label ranking rule specifically includes:

1. a first-level label:

(1) building type (e.g., residence, office building, school, etc.);

(2) building area (such as less than 10000 square meters; 10000-20000 square meters, etc.);

(3) covering functional areas (such as underground garages, outdoor machine rooms and the like);

2. second-level labeling:

(1) specialties (e.g., architectural structures, etc.);

(2) sites (e.g., foundations, underground portions, etc.);

3. third-level labeling:

(1) codes (e.g., building codes, etc.);

(2) optimization reasons (such as designer inertia, unused new materials, etc.);

(3) optimization measures (such as replacement, reduction, etc.);

(4) degree of association (e.g., association with other specialties, etc.);

(5) the difficulty of optimization (e.g., related to intelligent procedures, complexity, time, etc.).

In the drawing optimization module 3, solutions are extracted from the solution library one by one according to the optimization list.

In the list detail generating module 4, the optimization scheme includes the entered specific situation and the problem screenshot.

The invention can be built on an optimized database which is continuously perfected and upgraded and consists of various common optimizable point lists. Including specification, optimization reasons, optimization measures, professional relevance and optimization difficulty. The database is optimized by a set of label system to carry out retrieval matching.

In the actual operation process of a specific engineering project, a user puts forward key points which are desired to be optimized or emphasized, and a user optimization demand collection list is formed. And comparing and matching the list with the list labels of the database to generate an optimized guide list, screening the optimized guide list one by using manpower, simultaneously auditing the optimized points to be determined outside the database list to form a solution of the project, simultaneously listing the optimized points outside the list into the optimized guide list, and simultaneously bringing the optimized points into the database for supplementing and perfecting the database.

According to the method, the mode of supplementing the database is completed in the project, because of the extraction requirement and the actual hook of the optimization points, a large amount of optimization knowledge storage is difficult to cover at the beginning of system establishment, the system database is provided with a self-completing function of each project, and the project optimization points can be supplemented to enrich the optimization database while the project is optimized.

The invention centralizes the artificial experience and knowledge system data, reduces the insufficient optimization or unreasonable optimization caused by knowledge holes and insufficient experience in the project optimization process by manpower, and converts the traditional full-manual work into system-guided optimization.

The invention further discloses a system for flow guidance based on the building drawing optimization database, as shown in fig. 4, the system comprises the label database extraction module 1, the guide list generation module 2, the drawing optimization module 3 and the list detail generation module 4, and the difference is that the system of the invention further comprises: and the optimization point updating module 5 is used for inputting relevant information into the optimization points meeting the optimization conditions and periodically perfecting the relevant information to update the optimization points.

In the optimization point updating module 5, the related information includes specific conditions, solutions, problem drawings, screenshots, and the like.

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 improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. A method for flow guidance based on an optimized database of construction drawings is characterized by comprising the following steps:

s1, extracting fixed elements from the building drawing database, matching the fixed elements with preset label keywords, and storing the matching result after the matching result is approved to obtain a label database of project optimization points to be optimized in each project;

s2, performing hierarchical screening on the label database according to the label hierarchical rule, and generating an optimized guide list of the project according to the screening result;

s3, optimizing the drawing item by item according to the optimization guide list, and marking the optimized part or the optimized part which is not related to the drawing according to the list;

and S4, saving the optimization scheme of the project, and generating the detailed item optimization point list according to the optimization scheme and the template.

2. The method for process guidance based on the optimized database of construction drawings as claimed in claim 1, further comprising, after step S4, the steps of:

and S5, inputting relevant information into the optimization points meeting the optimization conditions, and periodically perfecting the relevant information to update the optimization points.

3. The method for process guidance based on the optimized database of construction drawing as claimed in claim 1, wherein in step S1, the fixed elements are optimized part keywords or optimized key parameter values for each specific element to be determined and optimized in the building structure;

the concrete elements comprise balconies, stairs and slopes at entrances of basements.

4. The method for process guidance based on the optimized database of construction drawings as claimed in claim 1, wherein in step S2, the label classification rule is specifically:

a first-level label: building type, building area, functional area covered;

second-level labeling: speciality, location;

third-level labeling: standardizing, optimizing reasons, optimizing measures, associating degree and optimizing difficulty;

in step S4, the optimization scenario includes the entered details and the problem screenshot.

5. The method for process guidance based on the optimized database of construction drawings as claimed in claim 2, wherein in step S5, the related information includes specific cases, solutions and problem screenshots.

6. A system for process guidance based on an optimized database of construction drawings, the system comprising:

the tag database extraction module is used for extracting fixed elements from the building drawing database, matching the fixed elements with preset tag keywords, and storing matching results after the matching results are checked to obtain a tag database of a project optimization point needing to be optimized in each project;

the guide list generation module is used for carrying out hierarchical screening on the tag database according to the tag hierarchical rule and generating an optimized guide list of the project according to the screening result;

the drawing optimization module is used for optimizing the drawing item by item according to the optimization guide list and marking the optimized part or the unrelated optimized part of the drawing according to the list;

and the list detail generating module is used for storing the optimization scheme of the project and generating the list details of the project optimization points according to the optimization scheme and the template.

7. The system for process guidance based on the optimized database of construction drawings of claim 6, further comprising:

and the optimization point updating module is used for inputting relevant information into the optimization points meeting the optimization conditions and periodically perfecting the relevant information to update the optimization points.

8. The system for process guidance based on the optimized database of construction drawings as claimed in claim 6, wherein in the tag database extraction module, the fixed element is an optimized part keyword or an optimized key parameter value of each specific element to be determined and optimized in the building structure;

the concrete elements comprise balconies, stairs and slopes at entrances of basements.

9. The system for flow guidance based on the optimized database of construction drawings as claimed in claim 6, wherein in the guide list generation module, the label ranking rule is specifically:

a first-level label: building type, building area, functional area covered;

second-level labeling: speciality, location;

third-level labeling: standardizing, optimizing reasons, optimizing measures, associating degree and optimizing difficulty;

in a list detail generation module, the optimization scheme comprises the entered specific conditions and the problem screenshots.

10. The system for process guidance based on the optimization database of construction drawings of claim 7, wherein the related information includes specific cases, solutions and problem screenshots in the optimization point update module.

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