Abstract
Project uncertainty is an inherent attribute in safety-critical projects, such as building refurbishment. While it has been suggested that project safety performance is often challenged due to project uncertainty, uncertainties are yet to be conceptualised in building refurbishment projects. The purpose of this research is to propose an industry-specific factor model of project uncertainty that can be used to diagnose and assess uncertainty in construction refurbishment research and practice. An extensive review of existing literature, following the Preferred Reporting Items for Systematic Reviews and Meta-Analysis (PRISMA) guidelines, where 53 articles were selected to identify the determinants of project uncertainty and strategies for managing uncertainty. In total, 23 project uncertainty factors were identified and clustered under the taxonomy of uncertain information, uncertain complexity, uncertain temporal clarity, and uncertain understanding. Thus, 12 management strategies for coping with uncertainty in building refurbishment projects were determined. Learning and a flexible working environment were the most frequently raised strategies among all the reviewed articles. The factor model proposed enables project managers and academics to better understand, assess and manage project uncertainty and deliver safer building refurbishment projects. As such, it also provides a sufficient platform and initiates debate towards the development of uncertainty management strategies to better prepare for surprises as projects progress.
Highlights
It is apparent that project uncertainty and their deliberations started after the year 2002
It is widely known that building refurbishment projects are inherent with project uncertainty
A lack of industry-specific factor models of project uncertainty can lead to poor uncertainty management and impact project performance
Summary
Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations. Building refurbishment projects are central to the contemporary construction industry, as they are often more financially viable than demolition and rebuilding ageing structures [1]. Notwithstanding the substantial benefits offered to the environment, economy and society, refurbishment projects, in general, are widely recognised as being high risk, complex and uncertain [2,3]. There are a number of reasons for this, including a lack of information about the existing structure and occupation throughout execution [2]. It has been further stressed that project performance measures such as cost, time, safety often challenged due to an increasing level of uncertainty in construction refurbishment projects [2,4]
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