BIM, machine learning and computer vision techniques in underground construction: Current status and future perspectives

BIM, machine learning and computer vision techniques in underground construction: Current status and future perspectives

[Display omitted] •In-depth review of BIM, machine learning, and computer vision in underground.•Identified status, benefits and challenges of integration of these technologies.•Discussed limitations of existing studies and future research directions.•Proposed an interactive platform for GIS, 3D geo...

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Bibliographic Details
Published in:Tunnelling and underground space technology Vol. 108; p. 103677
Main Authors: Huang, M.Q., Ninić, J., Zhang, Q.B.
Format: Journal Article
Language:English
Published: Oxford Elsevier Ltd 01-02-2021
Elsevier BV
Subjects:
Automation
Building information modeling
Building information modelling
Building management systems
Computer vision
Construction industry
Construction planning
Digitization
Geographic information systems
Machine learning
Modelling
New technology
Subsystems
Three dimensional models
Tunnel construction
Tunnelling
Underground construction
Visibility
Computer vision
Tunnelling
Building information modelling
Underground construction
Machine learning
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Description
Summary:[Display omitted] •In-depth review of BIM, machine learning, and computer vision in underground.•Identified status, benefits and challenges of integration of these technologies.•Discussed limitations of existing studies and future research directions.•Proposed an interactive platform for GIS, 3D geological model, BIM, and monitoring.•Demonstrated a case study for applying the interactive platform. The architecture, engineering and construction (AEC) industry is experiencing a technological revolution driven by booming digitisation and automation. Advances in research fields of information technology and computer science, such as building information modelling (BIM), machine learning and computer vision have attracted growing attention owing to their useful applications. At the same time, population-driven underground development has been accelerated with digital transformation as a strategic imperative. Urban underground infrastructures are valuable assets and thus demanding effective planning, construction and maintenance. While enabling greater visibility and reliability into the processes and subsystems of underground construction, applications of BIM, machine learning and computer vision in underground construction represent different sets of opportunities and challenges from their use in above-ground construction. Therefore, this paper aims to present the state-of-the-art development and future trends of BIM, machine learning, computer vision and their related technologies in facilitating the digital transition of tunnelling and underground construction. Section 1 presents the global demand for adopting these technologies. Section 2 introduces the related terminologies, standardisations and fundamentals. Section 3 reviews BIM in traditional and mechanised tunnelling and highlights the importance of integrating 3D geological modelling and geographic information system (GIS) databases with BIM. Section 4 examines the key applications of machine learning and computer vision at different stages of underground construction. Section 5 discusses the challenges and perspectives of existing research on leveraging these emerging technologies for escalating digitisation, automation and information integration throughout underground project lifecycle. Section 6 summarises the current state of development, identified gaps and future directions.
ISSN:0886-7798
1878-4364
DOI:10.1016/j.tust.2020.103677