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Ahankoob, A, Manley, K, Hon, C and Drogemuller, R (2023) The influence of building information modelling on the absorptive capacity of project-based organisations. Architectural Engineering and Design Management, 19(01), 1–21.

Asgari, S and Noorzai, E (2023) Improving the effectiveness and interaction between building information modeling and life cycle assessment. Architectural Engineering and Design Management, 19(01), 22–38.

de Souza, M P, Fialho, B C, Ferreira, R C, Fabricio, M M and Codinhoto, R (2023) Modelling and coordination of building design: an experience of BIM learning/upskilling. Architectural Engineering and Design Management, 19(01), 74–91.

Hua, Y, Kang, F, Zhang, S and Li, J (2023) Impacts of task interdependence and equivocality on ICT adoption in the construction industry: a task-technology fit view. Architectural Engineering and Design Management, 19(01), 92–109.

Mattaraia, L, Fabricio, M M and Codinhoto, R (2023) Structure for the classification of disassembly applied to BIM models.. Architectural Engineering and Design Management, 19(01), 56–73.

Ng, M S, Graser, K and Hall, D M (2023) Digital fabrication, BIM and early contractor involvement in design in construction projects: a comparative case study. Architectural Engineering and Design Management, 19(01), 39–55.

  • Type: Journal Article
  • Keywords: Digital fabrication; design management; BIM; early contractor involvement; comparative case study;
  • ISBN/ISSN: 1745-2007
  • URL: https://doi.org/10.1080/17452007.2021.1956417
  • Abstract:
    Digital Fabrication (DFAB) is a systemic innovation with low adoption rates in architecture, engineering and construction (AEC) projects. Managing requirements of a new design process is one major challenge for the increased DFAB adoption. For other types of innovations, practices such as Building Information Modelling (BIM) and Early Contractor Involvement (ECI) improve design management by integrating process, information and organisation in construction projects. In theory, BIM and ECI could improve design management and increase the adoption of DFAB. However, the relationship between DFAB, BIM and ECI has not yet been studied thoroughly. There is a need to understand new paradigms of DFAB design management in regard to process integration, information integration and organisational integration. This study undertakes a comparative study of four DFAB adoptions in AEC projects with varying levels of BIM and ECI implementation. The design processes of DFAB are traced using swimlane process diagrams. From this, relationships between DFAB, BIM, and ECI are derived using a quadripartite interrelationship diagram. This work illustrates the proposed relationships in DFAB adoption in design using a fishbone diagram. This work concludes with potential future research in design management for digital fabrication, including five takeaways for practitioners to adopt and manage DFAB in the design process of construction projects.