Abstract
Recently, the application of the BIM technique to infrastructure lifecycle management has increased rapidly to improve the efficiency of infrastructure management systems. Research on the lifecycle management of infrastructure, from planning and design to construction and management, has been carried out. Therefore, a systematic review of the literature on recent research is performed to analyze the current state of the BIM technique. State-of-the-art techniques for infrastructure lifecycle management, such as unmanned robots, sensors and processing techniques, artificial intelligence, etc., are also reviewed. An infrastructure BIM platform framework composed of BIM and state-of-the-art techniques is then proposed. The proposed platform is a web-based platform that contains quantity, schedule (4D), and cost (5D) construction management, and the monitoring systems enable collaboration with stakeholders in a Common Data Environment (CDE). The lifecycle management methodology, after infrastructure construction, is then completed and is developed using state-of-the-art techniques using unmanned robots, scan-to-BIM, and deep learning networks, etc. It is confirmed that collaboration with stakeholders in the CDE in construction management is possible using an infrastructure BIM platform. Moreover, lifecycle management of infrastructure is possible by systematic management, such as time history analysis, damage growth prediction, decision of repair and demolition, etc., using a regular inspection database based on an infrastructure BIM platform.
Highlights
The infrastructure Building Information Modeling (BIM) platform was composed of five main activities: planning and BIM model design (A01); 4D/5D BIM-based construction management and monitoring (A02); scan-to-BIM using data gathered from as-built infrastructure by unmanned clearly define the activities of the infrastructure BIM platform
This study presented an infrastructure Building Information Modeling (BIM) platform for lifecycle management
The web-based infrastructure BIM platform composed of planning and design, construction, and management methods was developed
Summary
Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations. BIM has the advantage of the lifecycle management of infrastructure, from planning and design to construction and maintenance [4,5]. The introduction of BIM at the planning stage will systematically enhance project management and collaboration between stakeholders [6]. The “Basic Guidelines for Construction Industry BIM” and “BIM activation roadmap for 2030” were prepared for the lifecycle management of infrastructure by sharing information from the planning, design, construction, and maintenance stages of the construction industry with every stakeholder to maximize productivity [14]. It is confirmed that collaboration with stakeholders in the CDE in construction management is possible using an infrastructure BIM platform. Lifecycle management of infrastructure is possible by systematic management, such as time history analysis, damage growth prediction, decision of repair and demolition, etc., using a regular inspection database based on an infrastructure BIM platform.
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