Framework for productivity and safety enhancement system using BIM in Singapore
Author(s): |
Evelyn Teo Ai Lin
George Ofori Imelda Tjandra Hanjoon Kim |
---|---|
Medium: | journal article |
Language(s): | English |
Published in: | Engineering, Construction and Architectural Management, November 2017, n. 6, v. 24 |
Page(s): | 1350-1371 |
DOI: | 10.1108/ecam-05-2016-0122 |
Abstract: |
PurposeDespite recognition of its importance to Singapore’s economy, the construction industry is plagued by poor safety and productivity performance. Improvement efforts by the government and industry have yielded little results. The purpose of this paper is to propose a framework for developing a productivity and safety monitoring system using Building Information Modelling (BIM). Design/methodology/approachThe framework, Intelligent Productivity and Safety System (IPASS), takes advantage of mandatory requirements for building plans to be submitted for approval in Singapore in BIM format. IPASS is based on a study comprising interviews and a questionnaire-based survey. It uses BIM to integrate buildable design, prevention and control of hazards, and safety assessment. FindingsThe authors illustrate a development of IPASS capable of generating productivity and safety scores for construction projects by analysing BIM model information. Research limitations/implicationsThe paper demonstrates that BIM can be used to monitor productivity and safety as a project progresses, and help to enhance performance under the two parameters. Practical implicationsIPASS enables collaboration among project stakeholders as they can base their work on analysis of productivity and safety performance before projects start, and as they progress. It is suggested that the BIM model submitted to the authorities should be used for the IPASS application. Originality/valueIPASS has rule-checking, hazards identification and quality checking capabilities. It is able to identify hazards and risks with the rule-checking capabilities. IPASS enables practitioners to check mistakes and the rationality of a design. It helps to mitigate risks as there are built-in safety measures/controls rules to overcome the problems caused by design deficiency, wrong-material-choice, and more. |
Geographic Locations
- About this
data sheet - Reference-ID
10576606 - Published on:
26/02/2021 - Last updated on:
26/02/2021