Abstract:
Safety concerns within the Sri Lankan construction industry are heightened by troubling
statistics, as accidents and fatalities frequently arise from site negligence and are amplified by
the absence of technology-driven hazard identification tools. Despite advancements, the
implementation of such innovative technologies remains suboptimal. Hence, this research
study addresses this gap by exploring how innovative technologies can bolster safety in the Sri
Lankan construction industry. Considering the extensive research conducted over the past
decade, our research was exclusively concentrated on technologies like Building Information
Modelling (BIM), Augmented Reality (AR), Virtual Reality (VR), Geographic Information
Systems (GIS) and gaming technologies. The research methodology involved conducting a
literature review, a desk-based study, and distributing two questionnaires to both civil
engineering undergraduate students and professionals. The desk-based study was an extensive
literature review, covering facilitators and barriers to innovative technology adoption in
construction, potential applications, and implementation benefits. The two questionnaire
surveys were strategically designed to enrich insights progressively. The first survey was
conducted to assess the readiness and potential for adoption, while the second was designed
specifically for professionals to explore the findings in greater detail. This approach ensures a
well-rounded perspective, from knowledge assessment to applicability and barrier evaluation.
In the first survey, a total of 69 participants joined, comprising 31 professionals and 38 civil
engineering undergraduate students. The second survey was directed towards 32 professionals
within the Sri Lankan construction industry. As per the results, all five technologies were
identified as potential enhancers of hazard identification, safety management, and planning.
Furthermore, participants acknowledged that these technologies contribute to improved safety
(92%), heightened productivity (85%), and cost efficiency (78%). However, barriers to
implementation include stakeholder unawareness (73.9%), financial constraints (69.6%), and
limited accessibility (52.2%). Therefore, the recommended measures encompass raising
awareness, encouraging teamwork, creating standards for the sector, offering financial
incentives, improving technical assistance, and removing barriers with focused tactics. By
adhering to these recommendations, the construction industry can expedite the effective
integration of innovative technologies, ultimately bolstering its risk management and safety
procedures.
