Building Information Modelling in Structural Engineering: A Qualitative Literature Review

Vittoria Ciotta,Gaetano Manfredi,Domenico Asprone,Edoardo Cosenza

doi:10.3390/civileng2030042

Vittoria Ciotta, Gaetano Manfredi + Show 2 more

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https://doi.org/10.3390/civileng2030042

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Journal: CivilEng	Publication Date: Sep 4, 2021
Citations: 3	License type: CC BY 4.0

Affiliation: University of Naples Federico II

Abstract

Over the past decade, the fields of civil engineering, i.e., structural engineering, have increasingly used the building information modelling (BIM) approach in both professional practice and as the focus of research. However, the field of structural engineering, which can be seen as a sub-discipline of civil engineering, misses, as far as the authors are aware, a real state-of-the-art on the use of BIM in this regard. The aim of this paper, therefore, is to start bridging that gap. In particular, the authors have conducted a traditional literature review on the utilisation of BIM in structural engineering, enabling them to perform a detailed content analysis of publications. The qualitative investigation of the literature that the authors have conducted has highlighted six main BIM uses in structural engineering: (1) structural analyses; (2) production of shop drawings; (3) optimized structural design, early identification of constructability issues, and a comparison of different structural solutions; (4) seismic risk assessments; (5) existing-condition modelling and retrofitting of structures; and (6) structural health monitoring. Each of these is discussed in relation to their reference workflows; use of information models; information exchanges; and main limitations. In the conclusions, the authors identify current gaps in knowledge, as well as likely developments and improvements in the utilization of BIM in structural engineering. The authors also outline the possible significance of this work more broadly.

Highlights

The building information modelling (BIM) approach fosters collaboration between the stakeholders in a project
The methodology adopted to develop this qualitative literature review on the use of BIM in structural engineering both in industry and research had three key steps: 1. A traditional literature search on the use of BIM in structural engineering. This has enabled a thorough analysis of the content uncovered in order to identify: (1) the topics addressed by relevant publications pertaining to structural engineering (i.e., structural analyses, structural type, structural design, damage assessment, performance-based earthquake engineering (PBEE), post-earthquake assessments, structural health monitoring (SHM), etc.); (2) the phase(s) of a building’s lifecycle considered by these publications; and (3) the availability of reference BIM workflows
This paper provides the first account of the contemporary experience on the use of BIM in structural engineering

Summary

Introduction

The building information modelling (BIM) approach fosters collaboration between the stakeholders in a project. It is worth noting that the current trend in relation to existing buildings is orientated towards employing the accurate and reliable information management and visualization processes of information models to improve structural refurbishment and retrofit interventions [13,14]. The use of these models as high-performing repositories has paved the way for a completely new research field that combines their benefits with the advantages of diagnostic approaches such as structural health monitoring (SHM) [15].

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