CN110084526B - BIM + WBS-based visual project management monitoring system - Google Patents
BIM + WBS-based visual project management monitoring system Download PDFInfo
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Abstract
The invention relates to the technical field of engineering project management, in particular to a BIM + WBS-based visual project management monitoring system, which comprises a three-dimensional model establishing module, a WBS structure tree establishing module and a data processing module, wherein the three-dimensional model establishing module is used for establishing a three-dimensional model and a WBS structure tree; the monitoring module is used for monitoring the condition of the construction site through the monitoring equipment; the engineering information display platform is used for combining the three-dimensional model with the WBS structure tree and generating a three-dimensional simulation engineering model; the construction personnel terminal comprises a construction plan display module, a construction process display module and a construction progress input module and is used for acquiring construction information of construction personnel and inputting time construction progress; the manager terminal comprises an engineering management module and a monitoring control module and is used for managing the construction tasks and monitoring the site construction conditions. The invention can facilitate the construction information acquisition of constructors and can effectively monitor the key processes and the construction process of managers.
Description
Technical Field
The invention relates to the technical field of engineering project management, in particular to a BIM + WBS-based visual project management monitoring system.
Background
The management of a construction project is a complex systematic work, especially for a large-scale project, including process control, personnel information control, budget control, and the like. A Building Information Model (BIM) was proposed by Autodesk in 2002 and is a Building informatization tool widely used in the Building field. The building information model is based on a 3D digital technology, inherits an engineering data model of various related information of the construction engineering project, and is a digital expression of engineering project facility entities and functional characteristics. A complete building information model can be used for associating data, processes and resources of different stages (design, construction and operation) of the life cycle of a building project, is a complete description of an engineering object, and can be commonly used by all participants of the building project.
At present, in the construction process of a project, video monitoring is mostly only used for simple purposes such as construction site management and safety monitoring, the storage time is short, the searching is difficult, and the application range is narrow. Moreover, the interactivity between the constructor and the manager is poor, the manager is often required to go to the site to guide the key processes and the construction process, and in the project with large engineering quantity, the manager needs to spend long time going to the construction site, so that the delay of the construction period is easily caused. In the process of project task proceeding, the problems that the task completion quality is difficult to control, the problem generation point is difficult to search and the like exist.
Disclosure of Invention
In order to solve the problems, the invention provides a BIM + WBS-based visual project management monitoring system, which can facilitate construction personnel to acquire construction information and effectively monitor key processes and construction processes of the management personnel.
In order to solve the problems, the invention adopts the technical scheme that:
a BIM + WBS-based visual project management monitoring system comprises a three-dimensional model building module, a monitoring module, an engineering information display platform, a constructor terminal and a manager terminal,
the three-dimensional model building module comprises a BIM model building submodule and a WBS structure tree building submodule, and the BIM model building submodule is used for editing and building a BIM three-dimensional model of a project through modeling software and dividing the BIM three-dimensional model into a plurality of project components; the WBS structure tree building submodule is used for building a construction process and a progress plan of each engineering component, and can decompose construction tasks of the construction process and the progress plan to form a WBS structure tree and mark key construction processes and progress plans;
the monitoring module comprises an on-site monitoring device and a construction video storage submodule, wherein the on-site monitoring device is used for monitoring the on-site construction of the engineering components, is arranged in a construction site and corresponds to each engineering component in the BIM model building submodule; the construction video storage submodule is used for storing video data shot by the field monitoring equipment;
the engineering information display platform transmits data with the BIM building submodule and the WBS structure tree building submodule through a database server, and is used for combining the BIM building submodule and the WBS structure tree building submodule to generate a three-dimensional simulation engineering model;
the construction personnel terminal comprises a construction plan display module, a construction process display module and a construction progress input module, wherein the construction plan display module is used for acquiring progress plan information of each engineering component in the engineering information display platform; the construction process display module is used for acquiring construction process information of each engineering component in the engineering information display platform; the construction progress recording module is used for recording the starting time and the finishing condition of a time period of a certain construction task of the engineering component and acting on the engineering information display platform;
the management personnel terminal comprises an engineering management module and a monitoring control module, and the engineering management module is used for managing the engineering progress; the monitoring control module comprises a construction on-line monitoring submodule, a construction video playback submodule and a key process reminding submodule, wherein the construction on-line monitoring submodule acquires data of the on-site monitoring equipment through a live broadcast streaming media and is used for real-time monitoring of the construction site of the engineering component; the construction video playback submodule acquires the data of the construction video storage submodule and is used for playback of the construction process of the engineering component; the key process reminding sub-module is used for acquiring data of the WBS structure tree establishing sub-module and the construction progress entering module, analyzing and matching the construction process and progress plan of the current engineering component with key construction process and progress plan through a search algorithm, and the engineering information display platform can receive the data of the key process reminding sub-module and display the engineering component in the key construction process and progress plan in highlight color.
Further, the engineering information display platform acquires data of the engineering components and the WBS structure tree to enable the engineering components and the WBS structure tree to correspond to each other, and the engineering information display platform can display information of the engineering components corresponding to the WBS structure tree by selecting one engineering component; by selecting a construction task in the WBS structure tree in the engineering information display platform, information of the engineering component can be displayed.
The construction process display module extracts industry standard information related to the construction process of the engineering component from the industry standard information module according to the information of each construction process of the engineering component in the engineering information display platform.
Further, the constructor terminal is smart phone software.
The system further comprises a login module, wherein the login module is used for distributing different authorities for using the engineering information display platform for managers and constructors.
The system further comprises a historical engineering scheme acquisition module, wherein the historical engineering scheme acquisition module is used for inputting historical construction scheme information in a document mode and storing the historical construction scheme information in the database server; the engineering management module comprises an actual construction progress display submodule, an engineering progress suggestion submodule and an engineering progress modification submodule, wherein the actual construction progress display submodule is used for acquiring information of the construction progress input module on the engineering information display platform; the project progress suggestion submodule extracts progress data similar to the progress of the project component from the historical project scheme acquisition module in a keyword searching mode, and obtains modification suggestion information of the construction progress through a machine learning algorithm by combining the data of the actual construction progress display submodule; the project progress modification submodule is used for inputting modified project progress, and can update the project progress of the WBS structure tree building submodule into the modified project progress and send the modified project progress to the project component corresponding to the project information display platform.
Furthermore, the actual construction progress display submodule can also compare the engineering progress of the WBS structure tree building submodule with the actual construction progress of the construction progress entry module, and can remind an overtime construction task of the engineering component corresponding to the engineering information display platform in a flashing manner.
Further, the construction progress entry module generates a construction progress entry form corresponding to the engineering component by acquiring information of the progress plan in the WBS structure tree building submodule.
Furthermore, the monitoring control module further comprises a monitoring device control submodule, and the monitoring device control submodule is connected with the field monitoring device and is used for controlling the shooting range of the field monitoring device.
Further, the monitoring device control sub-module receives the data of the construction progress entry module to control the starting time and the ending time of the shooting of the field monitoring device, and can name the video of the construction task of the engineering component shot by the field monitoring device.
The invention has the beneficial effects that:
1. by combining the BIM model building submodule with the WBS structure tree building submodule, the construction task of each engineering component construction process and progress plan can be obtained on the built three-dimensional simulation engineering model, so that constructors can conveniently obtain the information of the construction process and the progress plan on an engineering information display platform, and managers can know the information of the actual construction progress on the engineering information display platform, so that the managers can conveniently plan the construction progress; for key construction processes and progress plans, the building submodule can be established through the WBS structure tree for marking, when the key construction processes are carried out and the key progress plans are located, the key process reminding submodule displays the engineering components corresponding to the key construction processes and the progress plans in highlight colors, and therefore managers can timely monitor the construction conditions of the site through the construction online monitoring submodule in real time.
2. The construction personnel terminal adopts the smart phone as the terminal, so that construction personnel can obtain the information of the engineering information display platform on a construction site, and the construction personnel information can be conveniently obtained; by importing the engineering construction industry standard data into the industry standard information module, and extracting the industry standard information related to the engineering component construction process in the industry standard information module by the construction process display module according to the information of each engineering component construction process in the engineering information display platform, the constructor can obtain the standard construction process information on the construction site through the engineering information display platform, and the construction errors of the constructor are reduced.
3. The construction personnel can quickly obtain the video of the construction member with problems by looking up the video naming mode through the construction progress recording module to record the starting time and the time period completion condition of a certain construction task of the construction member, the monitoring device control submodule can receive the data of the construction progress recording module to control the starting time and the ending time of the on-site monitoring device shooting, the video of the construction task of the construction member shot by the on-site monitoring device can be named, when the construction member has problems, the manager can look for the reasons of the problems by watching the construction process video.
4. Through the historical engineering scheme acquisition module, the types of historical construction projects and the construction progress information can be acquired, the historical engineering scheme acquisition module is combined with the actual construction progress display submodule under the action of the engineering progress suggestion submodule, and the modification suggestion information of the construction progress is acquired through a machine learning algorithm, so that managers can customize the construction progress more accurately.
Drawings
FIG. 1 is a block diagram of a BIM + WBS-based visual project management monitoring system according to a preferred embodiment of the present invention.
In the figure, 1-a three-dimensional model building module, 11-a BIM model building submodule, 12-a WBS structure tree building submodule, 2-a monitoring module, 21-an on-site monitoring device, 22-a construction video storage submodule, 3-an engineering information display platform, 31-a database server, 4-a constructor terminal, 41-a construction plan display module, 42-a construction process display module, 43-a construction progress entry module, 5-a manager terminal, 51-an engineering management module, 511-an actual construction progress display submodule, 512-an engineering progress suggestion submodule, 513-an engineering progress modification submodule, 52-a monitoring control module, 521-a construction on-line monitoring submodule, 522-a construction video playback submodule, 523-a key process reminding submodule, 524-monitoring equipment control submodule, 6-industry standard information module, 7-login module and 8-historical engineering scheme acquisition module.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.
Referring to fig. 1, a visualization project management monitoring system based on BIM + WBS according to a preferred embodiment of the present invention includes a three-dimensional model building module 1, a monitoring module 2, an engineering information display platform 3, a database server 31, a constructor terminal 4, a manager terminal 5, an industry standard information module 6, a login module 7, and a historical engineering project acquisition module 8.
The three-dimensional model building module 1 comprises a BIM model building submodule 11 and a WBS structure tree building submodule 12.
The BIM model building submodule 11 is used for editing and building a BIM three-dimensional model of the project through modeling software, and dividing the BIM three-dimensional model into a plurality of project components. The WBS structure tree building submodule 12 is used to create a construction process and a progress plan for each engineering component, and the WBS structure tree building submodule 12 can decompose a construction task of the construction process and the progress plan to form a WBS structure tree and mark important construction processes and progress plans. Under the action of the WBS structure tree building submodule 12, the construction task of the engineering member can be subdivided into a plurality of nodes, and the arrangement of the construction progress and the implementation of the construction are facilitated.
The engineering information display platform 3 transmits data with the BIM model building submodule 11 and the WBS structure tree building submodule 12 through the database server 31, and is used for combining the BIM model building submodule 11 and the WBS structure tree building submodule 12 to generate a three-dimensional simulation engineering model. Under the effect of the three-dimensional simulation engineering model, data can be acquired in a visual mode, and the information acquisition efficiency of constructors and managers is facilitated.
In the present embodiment, the engineering information display platform 3 acquires data of the engineering component and the WBS structure tree, and can make the engineering component and the WBS structure tree correspond to each other. By selecting a certain engineering component in the engineering information display platform 3, information of the WBS structure tree corresponding to the engineering component can be displayed. By selecting a construction task in the WBS structure tree in the engineering information display platform 3, information of the engineering component can be displayed. Since the program components and the WBS structure tree correspond to each other, a cooperative management operation can be realized.
The monitoring module 2 comprises an on-site monitoring device 21 and a construction video storage submodule 22, wherein the on-site monitoring device 21 is used for monitoring the on-site construction of the engineering components, and the on-site monitoring device 21 is arranged in the construction site and corresponds to each engineering component in the BIM model building submodule 11. The construction video storage submodule 22 is used for storing video data shot by the field monitoring equipment 21.
The constructor terminal 4 includes a construction plan display module 41, a construction process display module 42, and a construction progress entry module 43.
The construction plan display module 41 is used for acquiring progress plan information of each engineering component in the engineering information display platform 3. Under the effect of the construction plan display module 41, the construction staff can know the plan progress at any time, and the construction staff can construct according to the plan conveniently.
The construction process display module 42 is used for acquiring the construction process information of each engineering component in the engineering information display platform 3. In the embodiment, the industry standard information module 6 is used for acquiring engineering construction industry standard data and storing the engineering construction industry standard data in the database server 31, and the construction process display module 42 extracts industry standard information related to the construction process of the engineering component in the industry standard information module 6 according to the information of each construction process of the engineering component in the engineering information display platform 3. Under the effect of the industry standard information module 6, the construction personnel can obtain process attention items in the corresponding engineering components on the engineering information display platform 3, and the problem in the construction process is avoided.
The construction progress recording module 43 is used for recording the starting time of a certain construction task of the engineering component and the completion condition of a time period, and acts on the engineering information display platform 3. In this embodiment, the construction progress entry module 43 generates a construction progress entry form corresponding to the engineering component by obtaining information of the progress plan in the WBS structure tree building submodule 12, and fills the actual construction progress of the engineering component in a form, so that the information input time and the input difficulty of a constructor can be effectively reduced.
In this embodiment, the constructor terminal 4 is smartphone software, so that the constructor can obtain information of the engineering information display platform on the construction site, and the constructor information can be conveniently obtained.
The manager terminal 5 includes a project management module 51 and a monitoring control module 52. The historical engineering scheme acquisition module 8 is used for recording the historical construction scheme information in a document mode and storing the historical construction scheme information in the database server 31.
The project management module 51 is used for managing project progress, and the project management module 51 includes an actual construction progress display submodule 511, a project progress suggestion submodule 512 and a project progress modification submodule 513.
The actual construction progress display submodule 511 is configured to obtain the information of the construction progress entry module 43 on the engineering information display platform 3.
In this embodiment, the actual construction progress display sub-module 511 can also compare the engineering progress of the WBS structure tree building sub-module 12 with the actual construction progress of the construction progress entry module 43, and remind the overtime construction task of flashing on the engineering component corresponding to the engineering information display platform 3. Through carrying out the scintillation warning to the engineering component of construction task overtime, be convenient for the managers to obtain that this engineering component has the construction progress and not accomplish according to the plan for the managers can in time handle.
The project progress suggestion submodule 512 extracts progress data similar to the project component progress in the historical project scheme acquisition module 8 in a keyword searching mode, and obtains modification suggestion information of the construction progress through a machine learning algorithm by combining the data of the actual construction progress display submodule 511. Due to the fact that the deviation between the planned progress and the actual progress is large easily caused by the difference of construction projects and the difference of construction positions, the historical engineering scheme obtaining module 8 and the actual construction progress display sub-module 511 are combined, and a machine learning algorithm is adopted, so that managers can customize the construction progress more accurately.
The project progress modification submodule 513 is configured to input the modified project progress, and the project progress modification submodule 513 can update the project progress of the WBS structure tree building submodule 12 to the modified project progress and send the modified project progress to the project component corresponding to the project information display platform 3. By obtaining the updated engineering progress on the engineering information display platform 3, constructors can obtain the updated engineering progress information in time, and the real-time performance of information sharing is improved.
The monitoring control module 52 includes a construction on-line monitoring submodule 521, a construction video playback submodule 522, a key process reminding submodule 523 and a monitoring device control submodule 524.
The construction on-line monitoring submodule 521 acquires data of the on-site monitoring equipment 21 through a live broadcast streaming media, and is used for real-time monitoring of the construction site of the engineering component. Under the effect of the construction on-line monitoring submodule 521, a manager can know the condition of a construction site in a video live broadcast mode, so that the manager can master the problems of the construction site remotely.
The construction video playback sub-module 522 is used for playback of the construction process of the engineering component by obtaining the data of the construction video storage sub-module 22. And the video is ensured to be available in the construction process of each engineering component and delivered as a quality document.
The key process prompting sub-module 523 acquires data of the WBS structure tree building sub-module 12 and the construction progress entering module 43, analyzes and matches the construction process and the progress plan of the current engineering component with the key construction process and the progress plan through a search algorithm, and the engineering information display platform 3 can receive the data of the key process prompting sub-module 523 and can display the engineering component in the key construction process and the progress plan in highlight color.
In the construction of a project, usually a plurality of construction tasks are performed simultaneously, the construction progress recording module 43 can be used to obtain which construction component is in the construction state at present, and then the data of the WBS structure tree building sub-module 12 can be used to determine whether the construction component in the construction state belongs to the key construction process and the progress plan. When the current engineering component in the construction state belongs to a key construction process and a progress plan, the key process reminding submodule 523 can send data to the engineering information display platform 3, so that the corresponding engineering component is displayed in a highlight color in the three-dimensional engineering model, and managers can monitor and guide a construction site through the construction online monitoring submodule 521 in time, thereby avoiding problems in the construction process.
The monitoring device control submodule 524 is connected with the field monitoring device 21, and is used for controlling the shooting range of the field monitoring device 21, and the monitoring device control submodule 524 can control the movement and the zooming of the camera in the field monitoring device 21, so that the construction member can be monitored in all directions.
The monitoring device control sub-module 524 controls the start and end times of the construction tasks of the engineering components photographed by the site monitoring device 21 by receiving the data of the construction progress entry module 43, and can name the videos of the construction tasks of the engineering components photographed by the site monitoring device 21. When the construction member has a problem, the video of the construction member with the problem can be quickly obtained by searching the video naming mode, and the manager can conveniently search the reason for the problem by watching the construction process video.
The login module 7 is used for distributing different authorities for using the engineering information display platform 3 for managers and constructors. In this embodiment, in the engineering information display platform 3, the constructor has the right to read the construction plan display module 41 and the construction process display module 42, and has the right to write in the construction progress entry module 43. The manager is in the engineering information display platform 3, and the manager has the right of reading and writing in the engineering information display platform 3 and the manager terminal 5.
The visualization project management monitoring system based on the BIM + WBS comprises the following steps:
s1, a three-dimensional model of a project is established in a BIM model establishing submodule 11, a construction process and a progress plan of each project component are established in a WBS structure tree establishing submodule 12, construction tasks of the construction process and the progress plan are decomposed to form a WBS structure tree, and key construction processes and progress plans are marked. And combining the data of the BIM model building submodule 11 and the WBS structure tree building submodule 12 to generate a three-dimensional simulation engineering model in the engineering information display platform 3.
S2. install the site monitoring device 21 at the site of construction, and make the site monitoring device 21 correspond to each engineering component in the BIM model building submodule 11.
And S3, the constructor acquires the information of the construction plan display module 41 and the construction process display module 42 from the engineering information display platform 3 through the login module 7, and constructs the corresponding engineering component according to the information of the construction plan display module 41 and the construction process display module 42. The constructor records the start time of a certain construction task of the engineering component and the completion condition of the time period in the form of the construction progress recording module 43.
S4, the manager obtains the information of the actual construction progress display submodule 511 from the engineering information display platform 3 through the login module 7, and simultaneously knows the actual construction progress; the manager obtains accurate progress modification suggestion information in the project progress suggestion submodule 512, and the manager inputs modified project progress information through the project progress modification submodule 513.
And S5, the project progress modification submodule 513 can update the modified project progress information to the corresponding project component of the project information display platform 3, and constructors can acquire the updated progress plan information from the project information display platform 3.
S7, when the engineering components of the engineering information display platform 3 are displayed in highlight colors, managers can click the corresponding engineering components of the engineering information display platform 3, obtain the site construction conditions of the corresponding engineering components through the construction online monitoring submodule 521, and conduct all-around monitoring and guidance on the construction of the engineering components through the monitoring equipment control submodule 524.
And S8, when the construction member has a problem, the manager quickly obtains the video of the construction member with the problem in a video naming mode in the construction video playback sub-module 522, and looks for the reason of the problem by watching the construction process video.
Claims (6)
1. A BIM + WBS-based visual project management monitoring system is characterized by comprising a three-dimensional model building module (1), a monitoring module (2), an engineering information display platform (3), a constructor terminal (4) and a manager terminal (5),
the three-dimensional model building module (1) comprises a BIM model building submodule (11) and a WBS structure tree building submodule (12), wherein the BIM model building submodule (11) is used for editing and building a BIM three-dimensional model of a project through modeling software and dividing the BIM three-dimensional model into a plurality of project components; the WBS structure tree building submodule (12) is used for building a construction process and a progress plan of each engineering component, and the WBS structure tree building submodule (12) can decompose construction tasks of the construction process and the progress plan to form a WBS structure tree and mark the important construction process and the progress plan;
the monitoring module (2) comprises an on-site monitoring device (21) and a construction video storage submodule (22), wherein the on-site monitoring device (21) is used for monitoring the on-site construction of the engineering component, and the on-site monitoring device (21) is arranged in a construction site and corresponds to each engineering component in the BIM model building submodule (11); the construction video storage submodule (22) is used for storing video data shot by the field monitoring equipment (21);
the engineering information display platform (3) transmits data with the BIM model building submodule (11) and the WBS structure tree building submodule (12) through a database server (31), and is used for combining the BIM model building submodule (11) and the WBS structure tree building submodule (12) to generate a three-dimensional simulation engineering model;
the engineering information display platform (3) enables the engineering components and the WBS structure tree to correspond to each other by acquiring data of the engineering components and the WBS structure tree, and can display information of the engineering components corresponding to the WBS structure tree by selecting one engineering component in the engineering information display platform (3); by selecting a construction task in the WBS structure tree in the engineering information display platform (3), the information of the engineering component can be displayed;
the constructor terminal (4) comprises a construction plan display module (41), a construction process display module (42) and a construction progress input module (43), wherein the construction plan display module (41) is used for acquiring progress plan information of each engineering component in the engineering information display platform (3); the construction process display module (42) is used for acquiring construction process information of each engineering component in the engineering information display platform (3); the construction progress recording module (43) is used for recording the starting time and the finishing condition of a time period of a certain construction task of the engineering component and acting on the engineering information display platform (3);
the management personnel terminal (5) comprises a project management module (51) and a monitoring control module (52), wherein the project management module (51) is used for managing project progress; the monitoring control module (52) comprises a construction online monitoring submodule (521), a construction video playback submodule (522) and a key process reminding submodule (523), wherein the construction online monitoring submodule (521) acquires data of the field monitoring equipment (21) through live broadcast streaming media and is used for real-time monitoring of the construction site of the engineering component; the construction video playback sub-module (522) is used for the playback of the construction process of the engineering component by acquiring the data of the construction video storage sub-module (22); the key process reminding sub-module (523) acquires data of the WBS structure tree establishing sub-module (12) and the construction progress entering module (43), analyzes and matches the construction process and progress plan of the current engineering component with the key construction process and progress plan through a search algorithm, and the engineering information display platform (3) can receive the data of the key process reminding sub-module (523) and display the engineering component in the key construction process and progress plan in highlight color;
the monitoring control module (52) further comprises a monitoring device control submodule (524), and the monitoring device control submodule (524) is connected with the field monitoring device (21) and is used for controlling the shooting range of the field monitoring device (21);
the monitoring equipment control sub-module (524) receives the data of the construction progress entry module (43) to control the starting time and the ending time of the shooting of the field monitoring equipment (21), and can name the video of the construction task of the engineering component shot by the field monitoring equipment (21);
the system also comprises a historical engineering scheme acquisition module (8), wherein the historical engineering scheme acquisition module (8) is used for recording historical construction scheme information in a document mode and storing the historical construction scheme information in the database server (31); the project management module (51) comprises an actual construction progress display submodule (511), a project progress suggestion submodule (512) and a project progress modification submodule (513), wherein the actual construction progress display submodule (511) is used for acquiring the information of the construction progress entry module (43) on the project information display platform (3); the project progress suggestion submodule (512) extracts progress data similar to the project component progress from the historical project scheme acquisition module (8) in a keyword searching mode, and obtains modification suggestion information of the construction progress through a machine learning algorithm by combining the data of the actual construction progress display submodule (511); the project progress modification submodule (513) is used for inputting the modified project progress, and the project progress modification submodule (513) can update the project progress of the WBS structure tree establishing submodule (12) into the modified project progress and send the modified project progress to the project component corresponding to the project information display platform (3).
2. The BIM + WBS-based visualization project management monitoring system of claim 1, wherein: the construction system is characterized by further comprising an industry standard information module (6), wherein the industry standard information module (6) is used for acquiring engineering construction industry standard data and storing the engineering construction industry standard data in the database server (31), and the construction process display module (42) extracts industry standard information related to the construction process of the engineering component from the industry standard information module (6) according to the information of each construction process of the engineering component in the engineering information display platform (3).
3. The BIM + WBS-based visual project management and monitoring system of claim 1, wherein: the constructor terminal (4) is intelligent mobile phone software.
4. The BIM + WBS-based visualization project management monitoring system of claim 1, wherein: the construction information display platform further comprises a login module (7), wherein the login module (7) is used for distributing different authorities for using the construction information display platform (3) for managers and constructors.
5. The BIM + WBS-based visualization project management monitoring system of claim 1, wherein: the actual construction progress display submodule (511) can also compare the engineering progress of the WBS structure tree building submodule (12) with the actual construction progress of the construction progress entry module (43), and remind an overtime construction task of an engineering component corresponding to the engineering information display platform (3) in a flashing manner.
6. The BIM + WBS-based visualization project management monitoring system of claim 1, wherein: and the construction progress entry module (43) generates a construction progress entry form corresponding to the engineering component by acquiring information of the progress plan in the WBS structure tree building submodule (12).
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