Engineering-out hazards: digitising the management working safety in confined spaces

Pärn, E.A. and Edwards, D.J. and Riaz, Z. and Mehmood, F. and Lai, J. (2019) Engineering-out hazards: digitising the management working safety in confined spaces. Facilities, 37 (3/4). pp. 196-215. ISSN 0263-2772

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Abstract

Purpose
This paper aims to report upon the further development of a hybrid application programming interface (API) plug-in to building information modelling (BIM) entitled confined spaces safety monitoring system “CoSMoS”. Originally designed to engineer-out environmental hazards associated with working in a building’s confined spaces (during the construction phase of a building’s life-cycle), this second generation version is expanded upon to use archival records to proactively learn from data generated within a sensor network during the building’s operations and maintenance (O&M) phase of asset management (AM).

Design/methodology/approach

An applied research methodological approach adopted used a two-phase process. In phase one, a conceptual model was created to provide a “blueprint map” to integrate BIM, sensor-based networks and data analytics (DA) into one integral system. A literature review provided the basis for the conceptual model’s further development. In phase two, the conceptual model was transposed into the prototype’s development environment as a proof of concept using primary data accrued from a large educational building.

Findings

An amalgamation of BIM, historical sensor data accrued and the application of DA demonstrate that CoSMoS provides an opportunity for the facilities management (FM) team to monitor pertinent environmental conditions and human behaviour within buildings that may impact upon occupant/worker safety. Although working in confined spaces is used to demonstrate the inherent potential of CoSMoS, the system could readily be expanded to analyse sensor-based network’s historical data of other areas of building performance, maintenance and safety.

Originality/value

This novel prototype has automated safety applications for FM during the asset lifecycle and maintenance phase of a building’s O&M phase of AM. Future work is proposed in several key areas, namely, develop instantaneous indicators of current safety performance within a building; and develop lead indicators of future safety performance of buildings.

Item Type:	Article
Identification Number:	https://doi.org/10.1108/F-03-2018-0039
Dates:	Date Event 2019 Published 19 July 2018 Accepted
Uncontrolled Keywords:	Facilities management, Health and safety, Building information modelling, Digitalisation, Application programming interface, Confined spaces
Subjects:	CAH13 - architecture, building and planning > CAH13-01 - architecture, building and planning > CAH13-01-01 - architecture CAH13 - architecture, building and planning > CAH13-01 - architecture, building and planning > CAH13-01-02 - building CAH13 - architecture, building and planning > CAH13-01 - architecture, building and planning > CAH13-01-04 - planning (urban, rural and regional)
Divisions:	Faculty of Computing, Engineering and the Built Environment Faculty of Computing, Engineering and the Built Environment > School of Engineering and the Built Environment Faculty of Computing, Engineering and the Built Environment > School of Engineering and the Built Environment > Dept. of Built Environment
Depositing User:	Euan Scott
Date Deposited:	05 Jun 2019 08:42
Last Modified:	22 Mar 2023 12:15
URI:	https://www.open-access.bcu.ac.uk/id/eprint/7552

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