Affiliations: [a] Department of Civil, Environmental and Geodetic Engineering, The Ohio State University, Columbus, OH, USA
| [b] Department of Electrical and Computer Engineering, Translational Data Analytics Institute, The Ohio State University, Columbus, OH, USA
Correspondence:
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Corresponding author. Nabeel Mahmood, P.E., Ph.D.c, PMP, LEED GA, CXLT, Ohio State University OH, USA. E-mail: Mahmood.39@osu.edu.
Abstract: A risk assessment model is developed to estimate the potential combined influence of concurrent safety risks facing on-foot construction worker at a certain point in space or instant of time. The model is based on a holistic approach that comprehensively systemizes principal types and subjective values of possible safety risk events. Fuzzy fault tree is built using a deductive approach to identify possible concurrent basic and conditional risk events, not risk symptoms, from the major subgroups of triggering, enabling and environment-related risks. The inclusive risk breakdown structure helps in combating assessment underestimation related to overlooking influential risks. Adequate logic gates are suggested at tree junctions to overcome assessment overestimation related to accumulating the effect of dependent, redundant, and non-concurrent risks, and ignoring the effectiveness of safety precautions and measures that may reduce or eliminate risks. Operational logic gates are applied to properly combine the residual risk of static (non-moving) events and dynamic (moving) events that can concurrently influence safety. The model is programmed into an interactive interfaced intelligent system to simulate cases of risk assessment input, computations, and output. The system shows the advantages of using the model as a prognostic or diagnostic tool to estimate top risk event. Subjective linguistic risk values can be induced for basic risk events at the bottom of the tree, and conditional risk events controlling residual risk values can be induced at different levels of the tree. Fuzzy logic plays a key role in hosting subjective risk evaluation into computational truth values to generate realistic and meaningful assessment values that are helpful for risk control.
Keywords: On-foot building construction worker, safety risk assessment model, concurrent risk events, static dynamic risks, operational logic gates, fuzzy fault tree analysis, linguistic truth values
