The operation of an offshore installation is associated with a high level of uncertainty because it usually operates in a dynamic environment in which technical and human and organizational malfunctions may cause possible accidents. This paper proposes a fuzzy Bayesian network (FBN) approach to model causal relationships among risk factors, which may cause possible accidents in offshore operations. The FBN model explicitly represents cause-and-effect assumptions between offshore engineering system variables that may be obscured under other modeling approaches like fuzzy reasoning and Monte Carlo risk analysis. The flexibility of the method allows for multiple forms of information to be used to quantify model relationships, including formally assessed expert opinions when quantitative data are lacking in early design stages with a high level of innovation or when only qualitative or vague statements can be made. The model is also a modular representation of uncertain knowledge due to randomness and vagueness. This makes the risk and safety analysis of offshore engineering systems more functional and easier in many assessment contexts. A case study of the collision risk between a floating production, storage and offloading unit and the authorized vessels due to human errors during operation is used to illustrate the application of the proposed model.

Issue Section:
Ocean Engineering
Keywords:
risk analysis, safety assessment, Bayesian networks, fuzzy number, fuzzy probability, offshore engineering systems, belief networks, fuzzy reasoning, Monte Carlo methods, offshore installations, risk analysis, safety, structural engineering computing
Topics:
Ocean engineering, Probability, Risk analysis, Safety, Risk, FPSO, Collisions (Physics), Errors
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