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Bridge, C and Carnemolla, P (2014) An enabling BIM block library: An online repository to facilitate social inclusion in Australia. Construction Innovation, 14(04), 477-92.

Imoudu, E W, Godwin, A U and Nita, A K (2014) Preliminary building information modelling adoption model in Malaysia: A strategic information technology perspective. Construction Innovation, 14(04), 408-32.

Murphy, M E (2014) Implementing innovation: A stakeholder competency-based approach for BIM. Construction Innovation, 14(04), 433-52.

Vegad, K, Madurwar, M and Ralegaonkar, R (2014) Application of AV-ERP system for on-site project monitoring. Construction Innovation, 14(04), 518-31.

Wang, J, Wang, X, Shou, W and Xu, B (2014) Integrating BIM and augmented reality for interactive architectural visualisation. Construction Innovation, 14(04), 453-76.

  • Type: Journal Article
  • Keywords: integration,interactive,BIM,AR,architectural visualization,property marketing
  • ISBN/ISSN:
  • URL: https://doi.org/10.1108/CI-03-2014-0019
  • Abstract:
    Purpose - The purpose of this research is to investigate a new approach with its supporting building information modelling (BIM) + augmented reality (AR) tool to enhance architectural visualisation in building life cycle. Traditional approaches to visualise architectural design concentrate on static pictures or three-dimensional (3D) scale models which cause problems, such as expensive design evolution, lack of stakeholders’ communication and limited reusability. The 3D animated fly-throughs still occur on a computer screen in two-dimensions and seem cold and mechanical, unless done with advanced production software. Design/methodology/approach - The method of this research included case study and interview. It was, first, stated, from the building process perspective, how the BIM + AR for Architectural Visualisation System (BAAVS) was realised by integrating two types of visualisation techniques: BIM and AR, and four stages of building life cycle. Then the paper demonstrated four case studies to validate the BAAVS. Finally, four interviews were made with each case manager and team members to collect feedback on utilising BAAVS technology. Questions were asked in the areas of benefits, drawbacks and technical limitations with respect to BAAVS. Findings - Feedback from the stakeholders involved in the four cases indicated that BAAVS was useful and efficient to visualise architectural design and communicate with each other. Originality/value - This paper demonstrates BAAVS that integrated BIM and AR into architectural visualisation. The system supports an innovative performance that allows: designers to put virtual building scheme in physical environment; owners to gain an immersive and interactive experience; and property sellers to communicate with customers efficiently.

Zhou, W, Heesom, D, Georgakis, P and Tah, J H M (2014) User-centred design for collaborative 4D modelling. Construction Innovation, 14(04), 493-517.