An engineering monitoring BIM collaborative platform based on an internet of things

By combining the Internet of Things with BIM technology and drone aerial photography, progress management, quality control, and safety management can be achieved during the substation construction process. This solves the problem of inaccurate construction progress assessment in existing technologies, improves project efficiency and quality, and shortens the construction period.

CN116644878BActive Publication Date: 2026-06-19BEIJING CCCC JINGWEI HIGHWAY COST TECH CO LTD +1

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Patents(China)
Current Assignee / Owner
BEIJING CCCC JINGWEI HIGHWAY COST TECH CO LTD
Filing Date
2023-01-16
Publication Date
2026-06-19

AI Technical Summary

Technical Problem

In the current technology, the application of BIM technology in the substation construction cycle has not been fully resolved, resulting in inaccurate construction progress assessment and poor 3D modeling effect, which in turn affects project efficiency and quality.

Method used

An IoT-based engineering monitoring BIM collaborative platform is adopted, which combines drone aerial images and BIM 3D models to achieve progress management, quality management, cost control, safety management, labor management and on-site visual monitoring. It uses multi-source data fusion for 3D visualization and data integration, and uses calculation formulas for real-time control of project progress.

🎯Benefits of technology

It improves engineering efficiency and quality during substation construction, shortens construction period, reduces cost waste, ensures safe production, and provides efficient data management and visualization monitoring methods.

✦ Generated by Eureka AI based on patent content.

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Abstract

The IoT-based engineering monitoring BIM collaborative platform includes: a progress management module for progress control, which includes comparing the actual construction progress with the planned progress based on drone aerial images and the real-time generation capabilities of BIM 3D models to ensure controllable project progress; BIM-based progress planning and simulation, which continuously refines and adjusts the project progress plan using the intuitive and transparent BIM model and the actual on-site progress, ensuring that reasonable, feasible, and shorter construction periods are deduced under the basic progress targets; a site visualization monitoring and management module for site visualization monitoring, which, combined with BIM, manages personnel and equipment safety standards through mobile smart video monitoring to ensure project progress and quality; a quality management module; a cost control module; and a labor management module for personnel management, which, based on the intuitiveness of the BIM model and internet data, performs real-time backend management and allocation of on-site construction personnel.
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