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CN-121996855-A - Cloud data and virtual three-dimensional engineering scene association system and method

CN121996855ACN 121996855 ACN121996855 ACN 121996855ACN-121996855-A

Abstract

The invention discloses a system and a method for real-time association of cloud data and virtual three-dimensional engineering scenes, wherein virtual BIM three-dimensional engineering scenes are established according to design data and project site requirements; the method comprises the steps of publishing a virtual BIM three-dimensional scene in a graphic engine with GIS data, arranging networking equipment on a target object on site for detecting on-site real-time data, acquiring data and states of a detected object through the networking equipment, receiving data of the target object networking equipment by a remote control end to update cloud data, and feeding back the cloud data to the virtual three-dimensional engineering scene in real time. By the method and the device, real-time association and feedback of field detection data and virtual three-dimensional engineering scenes can be realized, timeliness and accuracy of the data are improved, and management staff is ensured to know the field conditions in time. The system combines cloud data, virtual three-dimensional engineering scenes and networking equipment, realizes dynamic monitoring and intelligent management of engineering projects, and improves project safety and execution efficiency.

Inventors

  • LIU FAHUI
  • WANG QUAN
  • YU CHENGFENG
  • GUAN LE
  • LIU ZIYI

Assignees

  • 上海城投水务工程项目管理有限公司
  • 上海市水务建设工程安全质量监督中心站

Dates

Publication Date
20260508
Application Date
20250521

Claims (7)

  1. 1. A system for associating cloud data with a virtual three-dimensional engineering scene, comprising: The virtual BIM three-dimensional engineering scene building module is used for building a virtual BIM three-dimensional engineering scene according to design data and project site requirements; The GIS data graphic engine module is used for publishing a virtual BIM three-dimensional engineering scene on the graphic engine with GIS data; the network connection equipment and the data acquisition module are used for arranging the network connection equipment on a target object in a project site, and detecting and acquiring site real-time data and states; The data processing and feedback module is used for receiving the data of the target internet-connected device by the remote control end, updating cloud data and feeding the cloud data back to the virtual three-dimensional engineering scene in real time; And the management terminal is used for directly assigning personnel to the site according to the data and the specific position received in the virtual three-dimensional engineering scene to take corresponding precautionary measures and coping strategies.
  2. 2. The system of claim 1, wherein the virtual BIM three-dimensional engineering scene building module comprises: A design data input section for inputting project-related design data including a building design drawing, a structural design document, and an electromechanical design specification; a project site demand input section for inputting demand information related to project site conditions including geographical locations, environmental conditions, and construction requirements; The virtual scene generation part is used for automatically generating a corresponding virtual BIM three-dimensional engineering scene according to the input design data and project site demand information, and displaying the expected effect of the design scheme in actual construction.
  3. 3. The system of claim 1, wherein the networking device and data acquisition module comprises: The target object identification part is used for determining and identifying a target object of a project site through image identification or servo detection and comprises a supporting structure, an underground continuous wall and a construction enclosure; a sensor portion for mounting on a target object, detecting real-time data and status thereof, including but not limited to temperature, humidity, vibration, and pressure; and the data transmission part is used for transmitting the real-time data and the state detected by the sensor to the remote control end for processing through a wireless network or a wired network.
  4. 4. The system of claim 1, wherein the data processing and feedback module comprises: the data updating part is used for receiving the data transmitted from the internet-connected device by the remote control end, and updating the data in the cloud database in real time so as to ensure timeliness and accuracy of the data; and the real-time feedback part is used for feeding the updated cloud data back to the virtual three-dimensional engineering scene in real time through a network, so that the information in the virtual scene is kept synchronous with the actual field condition.
  5. 5. The system of claim 1, wherein the management terminal comprises: The data display part is used for visually displaying real-time data and the positions of the targets in the virtual BIM three-dimensional engineering scene so that a manager can check the states and the data of the targets through a graphical interface; And the instruction generation part is used for generating corresponding operation instructions according to the displayed data and the position of the target object, and assigning maintenance personnel to a specific position for equipment inspection or fault elimination.
  6. 6. The system of claim 1, wherein the system combines cloud data, virtual three-dimensional engineering scenes and networking equipment to realize dynamic monitoring and intelligent management of engineering projects, and real-time updating and feedback of the cloud data are used for ensuring that management staff can acquire the latest information of project sites in time.
  7. 7. The method for associating cloud data with the virtual three-dimensional engineering scene is characterized by comprising the following steps of: step 1), establishing a virtual BIM three-dimensional engineering scene according to design data and project site requirements, and generating the virtual BIM three-dimensional engineering scene by inputting the design data and the project site requirement information; Step 2) releasing a virtual BIM three-dimensional engineering scene on a graphic engine with GIS data, so that the virtual scene can be displayed in the GIS graphic engine and is associated with an actual geographic position; Step 3) arranging networking equipment on a target object in a project site, detecting and acquiring site real-time data and state, and monitoring the data and state of the target object in real time by installing a sensor on the target object; Step 4), the remote control end receives data transmitted from the internet-connected equipment, updates cloud data and feeds the cloud data back to the virtual three-dimensional engineering scene in real time, so that the synchronization of information in the virtual scene and the scene condition is ensured; And 5) the manager directly assigns personnel to the site to take corresponding precautionary measures and coping strategies according to the data and the specific positions received in the virtual three-dimensional engineering scene, and assigns the personnel to perform site operation through the instruction generated by the system.

Description

Cloud data and virtual three-dimensional engineering scene association system and method Technical Field The invention belongs to the technical field of building information models and computer science, and particularly relates to a system and a method for associating cloud data with virtual three-dimensional engineering scenes. Background Engineering project management traditionally relies on manual inspection and manual recording, resulting in inefficiency and information hysteresis. Building Information Model (BIM) provides a three-dimensional digital model that improves visualization and collaborative capabilities, but is based primarily on static data, lacking real-time monitoring. Geographic Information Systems (GIS) offer rich spatial analysis capabilities, but fusion applications with BIM are not yet mature. Internet of things (IoT) technology allows live data to be collected in real time, but how to relate such data to virtual three-dimensional engineering scenarios remains a challenge. Disclosure of Invention The invention aims to develop a cloud data and virtual three-dimensional engineering scene association system combining Building Information Model (BIM), geographic Information System (GIS) and internet of things (IoT) technology and an implementation method thereof, so as to realize dynamic monitoring and intelligent management in engineering projects. In order to achieve the purpose, the technical scheme of the invention is that a cloud data and virtual three-dimensional engineering scene association system is characterized by comprising: The virtual BIM three-dimensional engineering scene building module is used for building a virtual BIM three-dimensional engineering scene according to design data and project site requirements; The GIS data graphic engine module is used for publishing a virtual BIM three-dimensional engineering scene on the graphic engine with GIS data; the network connection equipment and the data acquisition module are used for arranging the network connection equipment on a target object in a project site, and detecting and acquiring site real-time data and states; The data processing and feedback module is used for receiving the data of the target internet-connected device by the remote control end, updating cloud data and feeding the cloud data back to the virtual three-dimensional engineering scene in real time; And the management terminal is used for directly assigning personnel to the site according to the data and the specific position received in the virtual three-dimensional engineering scene to take corresponding precautionary measures and coping strategies. Preferably, the virtual BIM three-dimensional engineering scene building module includes: A design data input section for inputting project-related design data including a building design drawing, a structural design document, and an electromechanical design specification; a project site demand input section for inputting demand information related to project site conditions including geographical locations, environmental conditions, and construction requirements; The virtual scene generation part is used for automatically generating a corresponding virtual BIM three-dimensional engineering scene according to the input design data and project site demand information, and displaying the expected effect of the design scheme in actual construction. The virtual BIM three-dimensional engineering scene establishment module is used for generating a high-precision virtual BIM three-dimensional engineering scene according to design data and field requirements of engineering projects. The method can display information such as building structures, equipment installation positions, construction progress and the like in detail. The model supports dynamic update, and design change and construction progress can be reflected in a virtual scene in real time, so that visual understanding and management efficiency of projects are improved. Preferably, the GIS data graphic engine module overlays the geographic coordinates and the surrounding environmental information of the engineering project into the BIM model. The GIS data graphic engine module is used for publishing the virtual BIM scene on the graphic engine with GIS data to realize precise geographic position association. By superimposing the geographic coordinates of the engineering project and the surrounding environmental information into the BIM model, the module enhances the realism and practicality of the scene. In addition, the simulation of complex terrain and environmental factors is supported, and powerful space analysis and decision support tools are provided for management staff. Preferably, the networking device and the data acquisition module comprise: The target object identification part is used for determining and identifying a target object of a project site through image identification or servo detection and comprises a supporting structure, an under