CN116152028A - Smart management platform for renovation of old communities - Google Patents

Abstract

The invention provides an old community transformation intelligent management platform, which comprises a data center subsystem, a comprehensive monitoring subsystem, a process supervision subsystem, a three-dimensional visualization subsystem, a third party docking subsystem and a success analysis subsystem, wherein the data center subsystem is used for data aggregation, centralized management, integrated analysis and establishment of a data analysis model; the comprehensive monitoring subsystem, the process supervision subsystem and the three-dimensional visualization subsystem are used for carrying out multi-dimensional comprehensive evaluation on the participating construction units and supervision units respectively by taking a cell as a minimum evaluation unit through digital twin dynamic three-dimensional visualization. The invention relies on a digital twin technology, implements a hierarchical gridding management system and a construction comprehensive benefit evaluation system by integrating scene space data and comprehensive cell other data information, can realize the whole intelligent management in the early planning and construction process and the later evaluation of cell transformation, and can effectively improve the management and control efficiency in the cell transformation process and realize real-time overall management.

Description

Smart management platform for renovation of old communities

technical field

The invention belongs to the field of data management, and in particular relates to a smart management platform for renovation of old residential quarters.

Background technique

The renovation of old communities does not have a mature process like ordinary government public projects, and different old communities have their own characteristics and different methods. During the implementation of specific projects, the government found that there were many problems, such as insufficient preliminary planning and difficulty in on-site construction. Large scale, low level of construction organization, low efficiency of project schedule management, effective evaluation of renovation effects, etc. The renovation of old communities involves not only the quality of the houses themselves, but also the auxiliary facilities of the communities. The comprehensive renovation of old communities has become a major problem in urban management.

At present, the evaluation of the renovation of old residential quarters in various cities is mainly concentrated in the feasibility study report and preliminary design of the renovation project. In the green transformation of old communities, the degree of digital application is not high, the process is complicated, the communication between various units cannot be efficient and unified, and the upper management units cannot check the progress of the transformation in real time, and cannot carry out real-time overall management of the transformation of old communities. Therefore, there is a need for a management platform that is fast and convenient, can effectively improve the management and control efficiency of the community renovation process, and can coordinate management in real time.

Contents of the invention

In view of this, in order to solve the above-mentioned deficiencies in the prior art, the object of the present invention is to provide a smart management platform for old community renovation, which relies on existing computer hardware and network platforms to build a three-dimensional visualization subsystem, a data center subsystem, and a comprehensive Monitoring subsystem, process supervision subsystem, effectiveness analysis subsystem and third-party docking subsystem, real estate, streets, district housing construction bureaus, municipal housing construction bureaus and other objects implement a hierarchical grid management system and construction through the APP docking system platform The comprehensive benefit evaluation system finally forms an intelligent platform integrating supervision service display and remote real-time monitoring data dynamic update, which effectively improves the management and control efficiency of the community renovation process, and realizes the visualization, management and control of renovation projects.

To achieve the above object, the technical solution adopted in the present invention is:

The smart management platform for old community transformation includes data center subsystem, comprehensive monitoring subsystem, process supervision subsystem, 3D visualization subsystem, third-party docking subsystem, and effectiveness analysis subsystem, including:

The data center subsystem is used for the collection, centralized management and integrated analysis of exploration data of community buildings, and at the same time establishes a data analysis model;

The comprehensive monitoring subsystem is used to extract the node data of all parties, processes, and links of the platform to form comprehensive data information, cooperate with the three-dimensional visualization subsystem to form images, and realize data multi-dimensional monitoring;

The process supervision subsystem is used to maintain the transformation process data and supervise the transformation data and transformation progress update process;

The three-dimensional visualization subsystem is used to visually present the real-time three-dimensional model of the community renovation process, and cooperate with the comprehensive supervision subsystem and the process supervision subsystem to perform real-time visual monitoring and supervision of the entire renovation process;

The third-party docking subsystem, as an independent module, can provide pluggable third-party system data information collection and docking functions for other subsystems;

The effectiveness analysis subsystem is used to form the effectiveness evaluation and analysis reports and reports required by each subsystem based on the data of each supervision subsystem.

Further, it also includes six basic modules: role authority, workflow module, unified data, report report, configuration management and system log, providing basic data, configuration, process and authority basis for each subsystem.

Further, the data center subsystem summarizes, analyzes and manages the business data information formed by the six basic modules, and forms the data information required by other subsystems and the corresponding data format through the core algorithm.

Further, the effectiveness analysis subsystem includes functions of energy consumption analysis, benchmarking analysis, cost analysis, planning analysis, economic analysis, energy consumption report, energy saving report, comprehensive budget, performance report and decision-making assistance.

Further, the 3D visualization subsystem includes a digital twin dynamic 3D visualization basic platform, and the digital twin dynamic 3D visualization basic platform is built on the basis of a community environment 3D visualization module, a building construction 3D visualization module and a district comprehensive visualization module.

Further, establish an evaluation index system for the comprehensive benefits of green transformation of old communities, take the community as the smallest evaluation unit, conduct multi-dimensional comprehensive evaluations on the participating construction units and supervision units, and determine the quantitative methods of each evaluation index and the value of each evaluation index. Quantitative evidence is used to build an evaluable model, so as to realize the scientific and systematic evaluation of the comprehensive benefits of green transformation.

Further, implement the construction of a hierarchical grid management system, adapt and open different ports for the transformation supervision system including operators, construction units, supervision units, communities, and housing construction bureaus, and give different data permissions, so that organizations at all levels can achieve Up and down linkage, based on the top-level design to achieve hierarchical management and control.

Further, the 3D visualization subsystem generates a 3D visualization model based on the role permissions of the management platform, workflow, unified database, reports, configuration management and system logs.

Further, the workflow includes:

The task collaboration process, as the main process of the system, runs through each module of the system, incorporates the five-party users of the system into the work process, and formulates the work content and mode of the docking nodes;

The project feedback process provides project participants with an online feedback portal on the situation involved in the entire project, and pushes the feedback information to the person in charge of the processing unit for processing, and the supervisory unit reviews the processing results;

The relevant engineering quantity process is used as the filling and reporting of the entire project budget and the correction of the actual engineering quantity. After the filling and reporting is completed, the statistical engineering quantity data will be published within the scope of the project authority.

Further, it also includes servers, storage systems, operating systems and network devices used to provide the hardware environment and network environment for the entire platform to run.

The beneficial effects of the present invention are:

Community management has the characteristics of many objects, large scale, and scattered distribution. The smart management platform for green renovation of old communities of the present invention relies on digital twin technology, integrates scene space data, and integrates other data information of the community. Project management needs are associated with community space. Management, operation and maintenance personnel can quickly locate the service location, and use unified space management methods to achieve scientific and efficient project management goals;

Implement the construction of a hierarchical grid management system, and embed the EPC project general contracting management structure into the management system. The EPC general contracting area is based on the area of the community, and the districts under the jurisdiction of the renovation are divided, as well as the units in charge, and the corresponding supervision units are assigned to accompany the progress of the quality supervision , through the configuration of different levels, the attached jurisdiction, management data, and management authority are all different, so as to realize access control and precise data docking; multi-party participation in management and control mechanism constrains the construction scale of old community renovation projects and effectively controls investment , which can effectively improve the management and control efficiency of the community renovation process and enable real-time overall management;

Based on the hierarchical management system to achieve comprehensive benefit evaluation, the community is the smallest evaluation unit, and the participating construction units and supervision units are respectively multi-dimensionally evaluated. After the overall construction period is over, the overall evaluation report of each project can be recorded as the acceptance assessment of each participating unit. One of the factors, and this comprehensive evaluation score will be included in the comprehensive evaluation factors of all participating units in the later stage of bidding, and continue to provide a systematic basis;

Moreover, the present invention can realize intelligent management throughout the whole process in the early planning, construction process, and post-evaluation stages of old residential area renovation, integrate the data of each system, track the progress of the process in real time and update the system data in time, which can achieve the pre-project implementation , Middle and later multi-stage multi-node data control, and can realize comprehensive management, comprehensive community security, facilities, personnel, energy consumption, property and other information, and can also link security, fire protection, and alarm applications according to various scenarios. Realize multi-scenario high-intelligence linkage, truly realize intelligent management based on big data, realize centralized data management, refined process control, and scientific effect evaluation.

Description of drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention or the prior art, the following will briefly introduce the drawings that need to be used in the description of the embodiments or the prior art. Obviously, the accompanying drawings in the following description are only These are some embodiments of the present invention. Those skilled in the art can also obtain other drawings based on these drawings without creative work.

Fig. 1 is the schematic diagram of the smart management platform for old community transformation of the present invention;

Fig. 2 is the schematic diagram of grid management system in the embodiment;

Fig. 3 is the workflow flow chart of intelligent management platform in the embodiment;

Fig. 4 is a large screen diagram of the digital twin dynamic 3D visualization basic platform in the embodiment.

Detailed ways

Specific examples are given below to further describe the technical solution of the present invention in a clear, complete and detailed manner. This embodiment is the best embodiment on the premise of the technical solution of the present invention, but the protection scope of the present invention is not limited to the following embodiments.

The specific structure of the smart management platform for the transformation of old communities is shown in Figure 1, including the 3D visualization subsystem, the data center subsystem, the comprehensive monitoring subsystem, the process supervision subsystem, and the effectiveness analysis subsystem, of which:

The data center subsystem is used for the collection, centralized management and integrated analysis of exploration data of community buildings, and at the same time establishes a data analysis model;

The comprehensive monitoring subsystem is used to form comprehensive data information by extracting the node data of all parties, processes, and links of the platform. Users can monitor the progress of all parties, units, and processes on the platform through this data information. Results, combined with three-dimensional visualization to form images and multi-dimensional monitoring of data;

The process supervision subsystem is used to provide data maintenance and data presentation in the transformation process, so as to realize data traceability, process supervision, and progress tracking in the transformation of old residential areas; for the transformation process, each link and each progress update Process supervision, cooperate with the comprehensive supervision subsystem to visually monitor and supervise the entire transformation process, and use data information such as pictures, percentages, and detailed progress transformation instructions as the basis for supervision, and cooperate with other supervision subsystems to form more targeted supervision methods to improve supervision. Strength;

The three-dimensional visualization subsystem is used to visually present the real-time three-dimensional model of the community renovation process, cooperate with the comprehensive supervision subsystem and the process supervision subsystem to perform real-time visual monitoring and supervision of the entire renovation process; form buildings and houses through image data and process data , equipment and other 3D models, and cooperate with the comprehensive supervision subsystem to visually monitor and supervise the entire transformation process;

The third-party docking subsystem, as an independent module, can provide pluggable third-party system data information collection and docking functions for other subsystems, and can freely intervene required external systems into corresponding subsystems;

The effectiveness analysis subsystem is used to form the effectiveness evaluation and analysis reports and reports required by each subsystem based on the data of each supervision subsystem.

The platform extracts the data information of the renovation process, and based on the digital twin technology, forms a 3D model of the renovation progress of the community. The model can display the renovation progress percentage in real time according to the renovation progress data information. At the same time, different renovation areas can be displayed according to different community renovation projects, such as: environmental greening, housing construction, activity areas, etc. Through the realization of the above technologies, the renovation supervisor can conduct real-time supervision of the renovation progress of the community under its jurisdiction through the 3D model of the community renovation progress.

Through this platform, intelligent management can be realized in the three stages of the pre-planning, construction process, and post-assessment of the renovation of the old community. In the planning stage, the buildings in the park can be quickly and accurately positioned, and detailed plans can be given to reduce the waste of resources. , Improve planning feasibility, efficiency and accuracy. By integrating the data of each system, tracking the progress of the process in real time and updating the system data in time, it is possible to achieve multi-stage multi-node data control before, during and after project implementation, and to achieve comprehensive management, comprehensive community security, facilities, personnel, Energy consumption, property and other information can also be used in various scenarios to link security, fire protection, and alarm applications to achieve high-intelligence linkage of multiple scenarios and truly realize smart management based on big data.

The data in the renovation process can be uploaded to the "green renovation smart management platform" through various sensors. The government can grasp the situation in the renovation process in real time, the process data is updated in real time, and the model can display the renovation progress percentage in real time based on the renovation progress data information. If there is any deviation, adjustments can be made in time to ensure the effect of process control to a great extent and provide guarantee for the completion of the project as required.

Further, it also includes six basic modules: role authority, workflow module, unified data, report report, configuration management, and system log, providing basic data, configuration, process, and authority basis for each subsystem.

Further, it also includes servers, storage systems, operating systems and network devices used to provide the hardware environment and network environment for the entire platform to run.

Further, the data center subsystem summarizes, analyzes and manages the business data information formed by the six basic modules, and forms the data information required by other subsystems and the corresponding data format through the core algorithm, specifically including:

Provide basic data information including pictures, images, and digital twin 3D modeling for the 3D visualization subsystem;

Provide comprehensive data and regulatory analysis data of participating units for the comprehensive supervision subsystem;

Provide the process supervision subsystem with the analysis data including the supervision image and the progress percentage of the transformation workflow visualization;

Provide a third-party intervention data interface for the third-party docking subsystem, and collect third-party data to form an analysis report form;

Provide comprehensive system data, process data, and workflow data for the effectiveness analysis subsystem, and provide analysis algorithms, evaluation algorithms, and evaluate the results of results through algorithm analysis.

The data center subsystem uses the planning data extracted by the system, including construction approval management data, spatial data, GIS geographic data, community building data, real-time project progress data, Internet of Things monitoring data, third-party system integration data, etc. as the platform information basis , Build a data center subsystem based on the existing big data platform, realize data aggregation, centralized management, integrated analysis, and form a data mart (business wide table, tag library, index library) and external data service capabilities. At the same time, the data center establishes a data analysis model, uses advanced data analysis and mining technologies to realize data value mining, improve user experience, optimize business operations, and realize a closed loop of big data analysis and application.

Further, the effectiveness analysis subsystem includes functions of energy consumption analysis, benchmarking analysis, cost analysis, planning analysis, economic analysis, energy consumption report, energy saving report, comprehensive budget, performance report and decision-making assistance. By summarizing the data before, during and after the transformation in the "Green Transformation Smart Management Platform" and setting evaluation standards in the system, the system can automatically judge the results of the later stage and form a customized evaluation report to improve the efficiency of acceptance.

Further, as shown in FIG. 4 , the 3D visualization subsystem includes a digital twin dynamic 3D visualization basic platform, including: a community environment 3D visualization module, a building construction 3D visualization module, and a district comprehensive visualization module.

Further, the comprehensive monitoring subsystem completes comprehensive monitoring, comprehensive alarm and green energy-saving construction, establishes a centralized monitoring center, and controls The status quo of the renovation effect of the old community in the whole community, the whole street, the whole region, and the whole city.

The comprehensive monitoring subsystem, the process supervision subsystem, and the three-dimensional visualization subsystem work together to realize intelligent management in the three stages of the pre-planning, construction process, and post-evaluation stages of the renovation of the old residential area, and quickly implement the park buildings in the planning stage. Accurate positioning and detailed planning can reduce the waste of resources and improve the feasibility, efficiency and accuracy of planning. In the renovation stage of the old community, the progress of the renovation project can be fed back in real time, and the management efficiency and service level of the park can be improved. The high degree of information sharing of the whole cycle of the project improves the overall management level of the project. In the post-evaluation stage, according to the collection of real-time information, the built-in effect evaluation rules of the platform can automatically collect and summarize the effect data, and issue relevant effect evaluation reports to realize the effect evaluation system that fully integrates online and offline.

Further, the third-party docking subsystem collects a full amount, complete and diversified data.

Further, establish an evaluation index system for the comprehensive benefits of green renovation in old residential quarters, determine the quantitative methods of each evaluation index and the quantitative basis for each evaluation index, and build an evaluable model, so as to realize the scientific and systematic evaluation of the comprehensive benefits of green renovation; Analyzing the effectiveness of community renovation projects and establishing an incentive and supervision mechanism for government investment projects is conducive to the rational allocation of social resources and the optimization of the structure of financial resource allocation. Mechanistically restricting the construction scale of old community renovation projects and effectively controlling investment, it plays the role of supervision and correction invisibly.

Further, the evaluation object rules in the comprehensive benefit evaluation index system for green transformation of old residential areas: take the residential area as the smallest evaluation unit, and conduct multi-dimensional comprehensive evaluations on the participating construction units and supervision units;

Quantification method of evaluation index and quantitative basis of each evaluation index:

Collect the renovation plan, construction period plan, renovation project reported by the construction unit of each renovation area for comparison and evaluation with each indicator in the actual plan, and obtain the "construction period index coefficient score" through the system's automatic research and judgment;

Analyze multiple factors such as the rationality of task arrangement, process rationality, and degree of connection of renovation tasks entered by the construction units of each renovation area, and obtain the "task index coefficient score" through automatic analysis by the system;

For each task construction unit's renovation progress update and data upload situation, the "task progress update coefficient score" is obtained through comprehensive calculation according to the task progress update frequency and the completeness of data upload;

Collect suggestions and feedback information from construction units, supervision units, Housing and Urban-Rural Development Bureau, design units, construction units, etc., and adopt qualitative evaluation methods. The system comprehensively evaluates the "qualitative index coefficient" of the project based on whether the feedback suggestions are positive or not and the number of suggestions ";

Regularly collect the progress review of the renovation task supervision unit, and the system calculates the "task progress review coefficient score" through the review of timeliness, rigor, and consistency with actual construction and other factors;

Combining all the above coefficient scores, through the system algorithm and the weight calculation of each item, the final score is the comprehensive score of each community evaluation.

The system regularly issues a comprehensive evaluation report for each community as one of the important evaluation factors for the participating units in the transformation of the community; after the overall construction period is over, the overall evaluation report of each project can be collected as one of the acceptance assessment factors for each participating unit, and this comprehensive evaluation It will be included in the comprehensive evaluation factors of all participating units in the later stage of bidding, and will continue to provide a systematic basis.

Further, as shown in Figure 2, implement the construction of a hierarchical grid management system, adapt and open different ports for the renovation supervision system including operators, construction units, supervision units, communities, and housing construction bureaus, so that organizations at all levels can To the upper and lower linkages, based on the top-level design to achieve hierarchical management and control. The platform provides configuration methods at different levels and units. By configuring different levels, the attached jurisdiction, management data, and management authority are all different, so as to realize access control and precise data docking. The housing construction bureau is the highest authority for all projects, the contracting unit is the process authority, and the supervision department is the supervision and monitoring authority.

In the system, the EPC is split and managed in the area and community data dimensions. In the design mode, multiple communities are divided into each EPC contracting unit in the area dimension, and the area data storage authority is established in the system, and the community dimension data authority is added in the area. The community data authority is given to the community and street offices. Through this authority, the EPC unit and the relevant community and street management units are finely allocated and managed. The supervision unit relies on the authority of the EPC unit to create the same data authority. The housing and construction unit is the highest authority of the system, and it is the authority of the city-level area, and is in charge of all the renovation projects in the district. After the above data authority division, progress information, feedback information, quality information, public opinion information, evaluation information, visualization information, etc. in the project will be accurately transmitted to units at all levels after the scope of data authority is controlled.

Each user is graded according to the role authority, forming a grid management system as shown in Figure 2, embedding the EPC project general contracting management structure into the management system, and the EPC general contracting is based on the area of the community, and divides the districts under the jurisdiction of the renovation. And the units in charge (community offices, sub-district offices), and assign corresponding supervision units to accompany the progress of supervision quality; upwards can directly connect with the construction bureau units through the system, report and give feedback on the project situation, and the housing construction bureau can directly supervise and inspect , Handle project progress, quality, and other suggestions and feedbacks; downwards, you can directly manage and promote the progress and quality of the construction and renovation of the communities under your jurisdiction, and you can report the renovation progress, check backtracking, renovation quality supervision, and reply to other renovation suggestions through the system. Relevant renovation project quantities are reported and corrected; in other respects, supervisors, communities, and streets can supervise, review, and trace the renovation areas under their jurisdiction, so as to achieve a closed-loop work on progress and quality.

Further, the 3D visualization subsystem generates a 3D visualization model based on the role permissions of the management platform, workflow, unified database, reports, configuration management and system logs.

Through the role authority, different levels of data access and modification authority are given to the operator, construction unit, supervision unit, community, and housing construction bureau.

Further, as shown in Figure 3, the workflow includes:

1. The task collaboration process, as the main process of the system, runs through each module of the system, incorporates the five-party users of the system into the work process, and formulates the work content and mode of the docking node. The specific process is:

The operator carries out project file construction, and the construction unit logs in to the account on the smart platform, formulates transformation plans for project files and databases, arranges and enters construction tasks, and updates the execution of construction tasks in the monitoring system and process supervision system in real time. 3D visualization of the environment, 3D visualization of buildings, and comprehensive 3D visualization. Supervision units and communities conduct real-time task supervision and review through the digital twin dynamic 3D visualization platform. Housing and Urban-Rural Development Bureau has the highest authority to view project status supervision through the platform.

2. The project feedback process provides project participants with an online feedback portal on the situation involved in the entire project, and pushes the feedback information to the person in charge of the processing unit for processing, and the supervisory unit reviews the processing results. The specific process is:

The supervisory unit and the community review the project situation through the 3D visualization platform and feed back the results to the construction unit. The construction unit sends the project feedback to the supervision unit again, and the supervision unit confirms and reviews the processing results.

3. Relevant engineering quantity process is used as the filling and reporting of the entire project budget project, and the actual engineering quantity is filled in and corrected. After the filling and reporting is completed, the statistical engineering quantity data will be published within the scope of the project authority. The specific process is as follows:

The construction unit shall report the engineering quantity of the project, and report the project engineering quantity to the Bureau of Housing and Urban-Rural Development for management through project quantity correction, project quantity statistics, and project quantity accounting.

The invention integrates the data of each system, tracks the progress of the process in real time and updates the system data in time, and provides intelligent services for properties, streets, district housing and construction bureaus, and the municipal housing and construction bureau. By realizing the real-time display of the transformation progress percentage, it can be transformed according to different communities The project shows different renovation areas, such as: environmental greening, housing construction, activity areas, etc., through the above technologies, the renovation supervisor can use the 3D model of the renovation progress of the community to monitor the progress of the renovation in real time, which is fast, convenient and realized Multi-scenario high-intelligence linkage; establish an evaluation index system for the comprehensive benefits of green renovation of old communities, determine the quantitative methods and quantitative basis for each evaluation index, and build an evaluable model, so as to realize the scientific and systematic evaluation of the comprehensive benefits of green renovation , which can effectively improve the management and control efficiency of the community renovation process and enable real-time overall management.

The main features, basic principles and advantages of the present invention have been shown and described above. Those skilled in the industry should understand that the present invention is not limited by the above-mentioned embodiments, and that the above-mentioned embodiments and descriptions only illustrate the principles of the present invention, and the present invention will also be based on actual conditions without departing from the spirit and scope of the present invention. There are various changes and modifications of the situation which fall within the scope of the claimed invention. The protection scope of the present invention is defined by the appended claims and their equivalents.

Claims (10)

1. The intelligent management platform for old community transformation, which is characterized by including data center subsystem, comprehensive monitoring subsystem, process supervision subsystem, 3D visualization subsystem, third-party docking subsystem, and effectiveness analysis subsystem, among which: The data center subsystem is used for the collection, centralized management and integrated analysis of exploration data of community buildings, and at the same time establishes a data analysis model; The comprehensive monitoring subsystem is used to extract the node data of all parties, processes, and links of the platform to form comprehensive data information, cooperate with the three-dimensional visualization subsystem to form images, and realize data multi-dimensional monitoring; The process supervision subsystem is used to maintain the transformation process data and supervise the transformation data and transformation progress update process; The three-dimensional visualization subsystem is used to visually present the real-time three-dimensional model of the community renovation process, and cooperate with the comprehensive supervision subsystem and the process supervision subsystem to perform real-time visual monitoring and supervision of the entire renovation process; The third-party docking subsystem, as an independent module, can provide pluggable third-party system data information collection and docking functions for other subsystems; The effectiveness analysis subsystem is used to form the effectiveness evaluation and analysis reports and reports required by each subsystem based on the data of each supervision subsystem. 2. The smart management platform for old community transformation according to claim 1, characterized in that it also includes six basic modules: role authority, workflow module, unified data, report form, configuration management and system log. The system provides basic data, configuration, process, and authorization basis. 3. The smart management platform for old community transformation according to claim 3, characterized in that, the data center subsystem summarizes, analyzes and manages the business data information formed by the six basic modules, and forms other subsystems through core algorithms The required data information and the corresponding data format. 4. The smart management platform for old community renovation according to claim 1, wherein the effectiveness analysis subsystem includes energy consumption analysis, benchmarking analysis, cost analysis, planning analysis, economic analysis, energy consumption report, energy saving Reporting, comprehensive budgeting, performance reporting, and decision-making assistance. 5. The smart management platform for old community transformation according to claim 1, wherein the three-dimensional visualization subsystem includes a digital twin dynamic three-dimensional visualization basic platform, and the digital twin dynamic three-dimensional visualization basic platform is based on the community environment three-dimensional visualization module, building construction 3D visualization module and area comprehensive visualization module. 6. The intelligent management platform for old community renovation according to claim 1, characterized in that, the comprehensive benefit evaluation index system for green renovation of old communities is established, and the community is the smallest evaluation unit, and the participating construction units and supervision units are respectively evaluated. Multi-dimensional comprehensive evaluation, determine the quantitative method of each evaluation index and the quantitative basis of each evaluation index, and build an evaluable model, so as to realize the scientific and systematic evaluation of the comprehensive benefits of green transformation. 7. The intelligent management platform for old community transformation according to claim 2, characterized in that, the construction of a hierarchical grid management system is implemented to provide a transformation supervision system including operators, construction units, supervision units, communities, and housing construction bureaus It adapts and opens different ports and grants different data permissions, so that organizations at all levels can achieve linkage between the upper and lower levels, and realize hierarchical control based on the top-level design. 8. The smart management platform for old community transformation according to claim 7, wherein the three-dimensional visualization subsystem generates a three-dimensional visualization subsystem based on the role authority, workflow, unified database, report form, configuration management and system log of the management platform. Visualize the model. 9. The smart management platform for old community transformation according to claim 8, wherein the workflow includes: The task collaboration process, as the main process of the system, runs through each module of the system, incorporates the five-party users of the system into the work process, and formulates the work content and mode of the docking nodes; The project feedback process provides project participants with an online feedback portal on the situation involved in the entire project, and pushes the feedback information to the person in charge of the processing unit for processing, and the supervisory unit reviews the processing results; The relevant engineering quantity process is used as the filling and reporting of the entire project budget and the correction of the actual engineering quantity. After the filling and reporting is completed, the statistical engineering quantity data will be published within the scope of the project authority. 10. The smart management platform for old community transformation according to claim 1, further comprising servers, storage systems, operating systems and network devices for providing the hardware environment and network environment for the entire platform to run.

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