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Building lifecycle management based on 4D modelling as the main workspace for building risk assessment
The use of information technology in the management of construction projects has become a decisive factor for the successful completion of projects, taking into account time, quality and financial costs. There are challenges in visualizing the planning process and integrating information between sta...
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Published in: | E3S web of conferences 2020-01, Vol.224, p.2023 |
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description | The use of information technology in the management of construction projects has become a decisive factor for the successful completion of projects, taking into account time, quality and financial costs. There are challenges in visualizing the planning process and integrating information between stakeholders. The paper considers some aspects of the development trend of information technology in construction. The element base, including the risks arising during the design and construction, associated with the direct use of computer and mathematical models of the object in the design is considered. The generated information models will provide basic information for the participants in the design process, which ultimately will be the basis of the element base of an effective tool for ensuring project life cycle management. The following methods were used: system analysis, logical-mathematical modelling, systems theory, economic-visual modelling, research methods of operations, economic and mathematical methods. A basic block diagram of 4D modelling is presented to minimize the occurrence of risks during design. The model allows considering the possibility of assessing the duration of the project, the level of labour productivity, as well as visualizing the construction process. The presented analysis indicates the importance of using 4D modelling in relation to the life cycle of the object in order to prevent the possibility of construction risks. |
doi_str_mv | 10.1051/e3sconf/202022402023 |
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subjects | Block diagrams Construction Construction industry Construction management Design Economic analysis Economic models Economics Information processing Information technology Labor productivity Life cycle analysis Life cycle engineering Life cycles Mathematical analysis Mathematical models Project engineering Project management Research methods Risk assessment System theory Systems analysis Systems theory Technology utilization |
title | Building lifecycle management based on 4D modelling as the main workspace for building risk assessment |
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