Development of a tool to monitor static balance of construction workers for proactive fall safety management

The construction industry around the globe is afflicted with an exorbitant rate of fatal and non-fatal falls. To lower the propensity of the falls, researchers and safety experts have recommended to supplement the traditional passive fall safety measures with some active measures (such as early iden...

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Bibliographic Details
Published in:Automation in construction 2018-10, Vol.94, p.438-448
Main Authors: Umer, Waleed, Li, Heng, Lu, Wei, Szeto, Grace Pui Yuk, Wong, Arnold Y.L.
Format: Article
Language:English
Subjects:
Accident prevention
Change detection
Classification
Construction accidents & safety
Construction industry
Construction site accidents
Ecological risk assessment
Fall prevention
Falls
Fatigue tests
Fuzzy set theory
Fuzzy sets
Hazard identification
Monitoring
Onsite
Proactive safety
Risk analysis
Safety management
Safety measures
Smartphones
Wearable Inertial Measurement Unit
Workers
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Summary:The construction industry around the globe is afflicted with an exorbitant rate of fatal and non-fatal falls. To lower the propensity of the falls, researchers and safety experts have recommended to supplement the traditional passive fall safety measures with some active measures (such as early identification of task/environmental hazards and personal risk factors). Unfortunately, at present, there is no readily available onsite tool which could identify workers with poor postural controls. This study aimed to develop a static balance monitoring tool for proactive tracking of construction workers on-site using a wearable inertial measurement unit (WIMU) and a smartphone. To this end, a three-phase project was conducted. Firstly, a validation study was conducted to examine the validity of using WIMUs to detect task/fatigue-induced changes in static balance during a 20-second static balance test. The results of the study revealed that WIMUs could detect the post-task subtle changes in static balance with reference to the findings of a force-plate (considered as industrial standard). Secondly, since there were no existing static balance classification methods, five experts were engaged to establish balance classification thresholds using the fuzzy set theory. Thirdly, a mobile phone application was developed for the managers/foremen for onsite balance monitoring of the construction workers using the 20-second test at different times of the day and establishing their corresponding balance performance profiles. This would assist early identification of fall prone workers, plan mitigation schemes before a fall accident happens and ultimately help reduce falls in the construction industry. •A sensor has been tested against an industry standard for assessing static balance.•Based on the results, the sensor is integrated with a smartphone application.•Interventions and measures have been discussed to prevent fall accidents.
ISSN:0926-5805
1872-7891
DOI:10.1016/j.autcon.2018.07.024