Construction Management Platform
Efficient Information Convergence ICT
UDNS aims to realize the function of smart safety management in the future by providing cloud-based BIM construction management integrated platform for the application and information management in all stages of the construction life cycle. In addition to integrating GIS data linkage, design technologies such as script-based shape modeling can be easily visualized on the dashboard. Based on this, the project quantity and cost are calculated to provide a collaborative workflow for more efficient real-time decision making.
Improvement effect
By adopting and using BIM, can be expected work efficiency and improvement in construction quality, cost, delivery control, construction period, on-site safety and environment. The construction period can be shortened by quick design review work, early ordering of members, and prevention of design changes. On-site Safe work is possible by reduction of on-site work by pre-assembly and suggesting how to avoid risk factors of workers, safety management of temporary facilities, and so on.
Process Management Platform # 1
The information model of each stage of the construction life cycle and the output of each stage can be managed through the Common Data Environment (CDE) process of the BIM Server platform, which corresponds to the BIM Level 4. Beyond traditional CAD drawing management tools, it provides collaborative and operational data in files or libraries between each model and object to deliver integrated web services to industrial sites.
Process Management Platform # 2
By adopting the optimal BIM process-construction cost management and the delivery of performance products, the company reduces construction costs, thereby improving construction quality and competitiveness in domestic and overseas construction management technologies. The construction life cycle dashboard of BIM-based quantity-process-costs can provide checking of the progress of the design and construction period and the automatic generate function of object-based process control statements. It increases construction productivity and supports decision-making by predicting process delays and construction costs.