CN116127698A - Municipal engineering design data integration and display method based on computer - Google Patents

Abstract

The invention discloses a municipal engineering design data integration and display method based on a computer, which comprises the following steps: step 1, creating a project scene; step 2, data integration; step 3, data analysis; step 4, manufacturing a display page; step 5, repeatedly executing the steps 2 to 4 for modification iteration; step 6, data release; and 7, project achievement display. The application of the invention can solve the problem of rapid integration of various data by cooperation of multiple persons, so that the operation is simpler, more convenient and flexible, the data integration and display with better interactive expression effect are realized, and the cooperation and linkage of multiple scenes and multiple professions in the municipal engineering design process are satisfied.

Description

Municipal engineering design data integration and display method based on computer

Technical Field

The invention relates to the technical field of computer aided design, in particular to a municipal engineering design data integration and display method based on a computer.

Background

In urban construction, the integration and display of design schemes are important links of engineering project design work, and along with the deep application of digital technology, how to completely and comprehensively restore the whole engineering appearance in the design stage, and express and display the design intentions in front of the owners and leaders in a rapid, accurate and vivid manner, so as to determine whether the design schemes can be accepted and evaluated more.

However, in the face of increasingly complex municipal engineering projects, the existing design display means such as CAD drawings, PPT, effect drawings and the like are obviously rather unsound, and even the design achievement display by adopting BIM technology has a plurality of problems.

Moreover, the design scheme has higher requirements on the data integrity, and rapid integration of planning data, traffic road network data, surrounding environment data, geological data, pipeline data, design model data and the like is difficult.

Because the existing platform software data standards are not uniform, the design model needs to be processed for the second time to ensure that the model materials and information are not lost, and the integration is very troublesome.

In addition, BIM model data volume is bigger generally, needs very strong computer hardware, still installs professional software and can guarantee smooth browsing, and the operation is not enough convenient, and expresses with interactive aspect function weak, and the comparison of based on the model selects, analysis, plots the function limited, leads to showing the focus unobtrusively to influence reporting rhythm and effect.

Therefore, in the design of municipal engineering scheme, how to solve the problem of how to integrate various data fast by cooperation of multiple people, so that the operation is simpler, more convenient and flexible, and the realization of data integration and display with better interactive expression effect becomes a technical problem to be solved by the technicians in the field.

Disclosure of Invention

In view of the above-mentioned shortcomings of the prior art, the invention provides a computer-based municipal engineering design data integration and display method, which aims to solve the problem of rapid integration of various data by cooperation of multiple persons, so that the operation is simpler, more convenient and flexible, the data integration and display with better interactive expression effect are realized, and the cooperation and linkage of multiple scenes and multiple professions in the municipal engineering design process are satisfied.

In order to achieve the above purpose, the invention discloses a municipal engineering design data integration and display method based on a computer, which comprises the following steps:

step 1, creating a project scene;

step 2, data integration;

step 3, data analysis;

step 4, manufacturing a display page;

step 5, repeatedly executing the steps 2 to 4 for modification iteration;

step 6, data release;

and 7, project achievement display.

Preferably, in step 1, a 3DGIS engine capable of carrying a large scene is selected to build the project scene based on the B/S architecture in a local area network, and account numbers of the project scene are distributed to all participants.

Preferably, step 2 comprises the steps of:

step 2.1, selecting a proper geographic coordinate system from the project scene as a project coordinate system;

step 2.2, importing data to be integrated;

step 2.3, analyzing and light-weighting different types of data in the data to be integrated, converting the data into a uniform custom data format, and storing the data in the custom data format obtained after the conversion into a database;

and 2.4, placing all the data in the custom data format obtained after the conversion into the project scene according to the conversion parameters and the characteristic point coordinate positions of the project coordinate system, and realizing the data integration.

More preferably, the data to be integrated includes planning data, traffic data, topography data, oblique photography data, geological data, pipeline data, PDF data, CAD data, and/or BIM data.

More preferably, step 3 is specifically as follows:

and performing calculation analysis, simulation and design scheme same-screen comparison selection on the corresponding project by using the project scene and the data in the custom data format obtained after the conversion to form an analysis chart and a video, and storing the analysis chart and the video in a database.

More preferably, the computational analysis includes planning, land-based analysis, underground pipeline excavation analysis, and/or structural stress analysis;

the simulation includes engineering geologic simulation and/or traffic simulation.

More preferably, step 4 comprises the steps of:

step 4.1, a three-dimensional reporting display page set is cooperatively established by a plurality of persons, information to be expressed is obtained from the database, and the information is subjected to self-defining grouping;

step 4.2, creating a viewpoint in each three-dimensional scene;

according to the view point, adding graphic comments to the elements to be displayed in the corresponding custom grouping, and carrying out dynamic marking and plotting to correlate 3D model data with 2D drawings, charts, videos and characters;

and 4.3, carrying out dynamic annotation and plotting on the added image-text annotation made for each element, and recording and storing the actions of the corresponding 3D model data and the 2D drawing, chart, video and text in the database.

More preferably, in step 5, each time step 2 to step 4 are repeatedly performed, a log is automatically recorded in the newly added or modified database, and a version number is updated.

More preferably, step 6 is specifically as follows:

and publishing all project achievements obtained after modification iteration is completed as an offline data packet, and deploying the offline data packet to a cloud or directly to a PC (personal computer) so that the offline data packet can be separated from a local area network collaborative environment and checked through a local web browser.

More preferably, step 7 is specifically as follows:

and opening a project scene display page through a web browser, and performing dynamic interaction display in modes of translation, rotation, scaling, sectioning and the like by using a mouse.

The invention has the beneficial effects that:

compared with the prior art, the invention has stronger integration, synergy and intuitiveness, and can meet the requirements of multi-scene and multi-professional synergy and linkage in the municipal engineering design process.

The invention adopts a mode of separating the data layer from the application layer, is more convenient for modifying, migrating and multiplexing project data, reduces a great deal of repeated work, and can also quickly realize the sharing of the data of a plurality of projects.

The invention enriches design display means through interactive expression, can replace the current reporting form of PPT, effect graph, CAD and BIM splitting, meets the requirement of homologous display of multi-source data, strengthens the reporting display effect of design scheme, and improves the communication efficiency among cross-professions, cross-units and cross-department partners in the project progress process.

According to the invention, municipal engineering design data is integrated and displayed in a mode of cooperation based on cloud architecture, light weight and multiple persons, so that a better display effect can be achieved with shorter preparation time and lower cost investment.

The conception, specific structure, and technical effects of the present invention will be further described with reference to the accompanying drawings to fully understand the objects, features, and effects of the present invention.

Drawings

Fig. 1 shows a flow chart of an embodiment of the invention.

Detailed Description

Examples

As shown in fig. 1, the method for integrating and displaying the municipal engineering design data based on the computer comprises the following steps:

step 1, creating a project scene;

step 2, data integration;

step 3, data analysis;

step 4, manufacturing a display page;

step 5, repeatedly executing the steps 2 to 4 for modification iteration;

step 6, data release;

and 7, project achievement display.

In some embodiments, in step 1, a 3DGIS engine capable of carrying a large scene is selected to build a project scene based on a B/S architecture in a local area network, and account numbers of the project scene are assigned to all participants.

In practical application, the technical means can bear the objective demands of large mass and more participation staff of municipal engineering projects.

In certain embodiments, step 2 comprises the steps of:

step 2.1, selecting a proper geographic coordinate system from the project scene as a project coordinate system;

step 2.2, importing data to be integrated;

step 2.3, analyzing and light-weight processing different types of data in the data to be integrated, converting the data into a uniform custom data format, and storing the data in the custom data format obtained after the conversion into a database;

and 2.4, placing all the data in the custom data format obtained after the conversion into the project scene according to the conversion parameters of the project coordinate system and the coordinate positions of the feature points, and realizing data integration.

In certain embodiments, the data that needs to be integrated includes planning data, traffic data, topography data, oblique photography data, geological data, pipeline data, PDF data, CAD data, and/or BIM data.

In certain embodiments, step 3 is specifically as follows:

and (3) performing calculation analysis, simulation and design scheme same-screen comparison on the corresponding project by using the project scene and the data in the custom data format obtained after the conversion to form an analysis chart and a video, and storing the analysis chart and the video in a database.

In certain embodiments, the computational analysis includes planning, land use analysis, underground pipeline excavation analysis, and/or structural stress analysis;

the simulation includes engineering geologic simulation and/or traffic simulation.

In certain embodiments, step 4 comprises the steps of:

step 4.1, a three-dimensional reporting display page set is cooperatively established by a plurality of persons, information to be expressed is obtained from a database, and the information is subjected to self-defining grouping;

step 4.2, creating a viewpoint in each three-dimensional scene;

according to the view point, adding graphic comments to the elements to be displayed in the corresponding custom grouping, and carrying out dynamic marking and plotting to correlate 3D model data with 2D drawings, charts, videos and characters;

and 4.3, adding graphic comments to each element, dynamically labeling and plotting, and recording and storing the corresponding actions of the 3D model data and the 2D drawings, charts, videos and characters in a database.

In some embodiments, in step 5, each time step 2 through step 4 are repeatedly performed, a log is automatically recorded in the newly added or modified database, and the version number is updated.

In practical application, the technical means can be adopted to realize the tracing of the process data.

In certain embodiments, step 6 is specifically as follows:

and releasing all project achievements obtained after modification iteration into an offline data packet, and deploying the offline data packet to a cloud or directly to a PC (personal computer), so that the offline data packet can be separated from a local area network collaborative environment and checked through a local web browser.

In practical application, the technical means can be adopted to view the project scene through the local web browser under the condition of being separated from the local network cooperative environment, so that reporting, displaying and using are facilitated.

In certain embodiments, step 7 is specifically as follows:

and opening a project scene display page through a web browser, and performing dynamic interaction display in modes of translation, rotation, scaling, sectioning and the like by using a mouse.

In practical application, the invention relates to a data integration and display method for integrating various data rapidly through cooperation of multiple people, and correlating 3D model data with 2D drawing, charts, videos, characters and other data, and dynamically and interactively expressing the data, which comprises the following steps:

firstly, a project scene is cooperatively built by utilizing a 3DGIS engine, and data such as planning, traffic, topography images, oblique photography, geology, pipelines, PDF, CAD, BIM and the like are imported through local area network multi-person cooperation, are analyzed and subjected to light weight processing, and are converted into a uniform self-defined data format.

And then, placing the various data in a project scene to integrate the various data in the municipal engineering design process. And analyzing the construction conditions by using the complete project data to demonstrate the construction scheme and forming a related application analysis chart and a video.

Then, a three-dimensional reporting display page set is created, elements to be displayed are selected, graphic comments are freely added, dynamic labeling and plotting are carried out, and 3D model data and 2D drawing, chart, video, text and other data are associated with each other.

Finally, the project result data is published, and the project scene is directly checked through a web browser to be dynamically displayed. The display mode adopted by the invention enables the design scheme to be more stereoscopic and visual, and the expression content is richer and clearer.

The foregoing describes in detail preferred embodiments of the present invention. It should be understood that numerous modifications and variations can be made in accordance with the concepts of the invention by one of ordinary skill in the art without undue burden. Therefore, all technical solutions which can be obtained by logic analysis, reasoning or limited experiments based on the prior art by the person skilled in the art according to the inventive concept shall be within the scope of protection defined by the claims.

Claims (10)

1. The municipal engineering design data integration and display method based on the computer; the method is characterized by comprising the following steps of:

step 1, creating a project scene;

step 2, data integration;

step 3, data analysis;

step 4, manufacturing a display page;

step 5, repeatedly executing the steps 2 to 4 for modification iteration;

step 6, data release;

and 7, project achievement display.

2. The method for integrating and displaying municipal engineering design data based on a computer according to claim 1, wherein in step 1, a 3DGIS engine capable of bearing a large scene is selected to build the project scene based on a B/S architecture in a local area network, and account numbers of the project scene are distributed to all participants.

3. The computer-based municipal engineering design data integration and display method according to claim 1, wherein the step 2 comprises the steps of:

step 2.1, selecting a proper geographic coordinate system from the project scene as a project coordinate system;

step 2.2, importing data to be integrated;

step 2.3, analyzing and light-weighting different types of data in the data to be integrated, converting the data into a uniform custom data format, and storing the data in the custom data format obtained after the conversion into a database;

and 2.4, placing all the data in the custom data format obtained after the conversion into the project scene according to the conversion parameters and the characteristic point coordinate positions of the project coordinate system, and realizing the data integration.

4. The computer-based municipal engineering design data integration and display method according to claim 3, wherein the data to be integrated comprises planning data, traffic data, topography image data, oblique photography data, geological data, pipeline data, PDF data, CAD data and/or BIM data.

5. The method for integrating and displaying municipal engineering design data based on a computer according to claim 3, wherein the step 3 is specifically as follows:

and performing calculation analysis, simulation and design scheme same-screen comparison selection on the corresponding project by using the project scene and the data in the custom data format obtained after the conversion to form an analysis chart and a video, and storing the analysis chart and the video in a database.

6. The computer-based municipal engineering design data integration and display method according to claim 5, wherein the computational analysis comprises planning and land use analysis, underground pipeline excavation analysis and/or structural stress analysis;

the simulation includes engineering geologic simulation and/or traffic simulation.

7. The computer-based municipal engineering design data integration and display method according to claim 5, wherein the step 4 comprises the steps of:

step 4.1, a three-dimensional reporting display page set is cooperatively established by a plurality of persons, information to be expressed is obtained from the database, and the information is subjected to self-defining grouping;

step 4.2, creating a viewpoint in each three-dimensional scene;

according to the view point, adding graphic comments to the elements to be displayed in the corresponding custom grouping, and carrying out dynamic marking and plotting to correlate 3D model data with 2D drawings, charts, videos and characters;

and 4.3, carrying out dynamic annotation and plotting on the added image-text annotation made for each element, and recording and storing the actions of the corresponding 3D model data and the 2D drawing, chart, video and text in the database.

8. The method for integrating and displaying the municipal engineering design data based on the computer according to claim 1, wherein in the step 5, each time the steps 2 to 4 are repeatedly executed, the log is automatically recorded in the database after being newly added or modified, and the version number is updated.

9. The method for integrating and displaying municipal engineering design data based on a computer according to claim 1, wherein the step 6 is specifically as follows:

and publishing all project achievements obtained after modification iteration is completed as an offline data packet, and deploying the offline data packet to a cloud or directly to a PC (personal computer) so that the offline data packet can be separated from a local area network collaborative environment and checked through a local web browser.

10. The method for integrating and displaying municipal engineering design data based on a computer according to claim 1, wherein the step 7 is specifically as follows:

and opening a project scene display page through a web browser, and performing dynamic interaction display in modes of translation, rotation, scaling, sectioning and the like by using a mouse.

Images