Deakin University
Browse

File(s) under permanent embargo

Integrated construction supply chain design and delivery solutions

Version 2 2024-06-13, 08:34
Version 1 2014-10-28, 10:10
journal contribution
posted on 2024-06-13, 08:34 authored by K London, V Singh
This study describes the development of a decision framework to support multi-disciplinary information and knowledge management model which focuses on integrated design and delivery solutions for all construction supply chain actors. The framework was developed within the context of two national information technology research projects in Australia. The first study used diffusion theory to explain the barriers and enablers to future adoption of advanced information technology solutions such as building information modelling (BIM). A grounded theory methodology was deployed and a pathways model for innovative information technology diffusion accommodating diverse patterns of adoption and different levels of expertize was developed. The second study built on the findings of the first study but specifically focussed on innovators, early and late adopters of BIM and the development of a decision framework towards advanced collaborative platform solutions. This study summarizes the empirical results of the previous studies. The core of the decision framework is the creation, use and ownership of building information sub-models and integrated models. The decision framework relies on holistic collaborative design management. Design expertise is diffused and can be found in various locations along the construction supply chain within project teams. A wide definition of design is considered from conceptual to developed to detailed design. The recent development to the decision model offers much potential as the early upstream decisions are often made in a creative, collaborative and uncertain environment. However, decision making needs to balance both a reductionist and exploratory creative empowerment approach. Shared team expertise and competency and team mental models are explored as a fundamental requirement to collaborative BIM. New skills in interdisciplinarity are discussed as an implication of future construction industry collaborative platforms.

History

Journal

Architectural engineering and design management

Volume

9

Pagination

135-137

Location

London, England

ISSN

1745-2007

eISSN

1752-7589

Language

eng

Publication classification

C1 Refereed article in a scholarly journal

Copyright notice

2013, Taylor & Francis

Issue

3

Publisher

Taylor & Francis