Litcius/Paper detail

A fault tree-based approach for aviation risk analysis considering mental workload overload

Haiyang Che, Shengkui Zeng, Qidong You, Yueheng Song, Jianbin Guo

2021Eksploatacja i Niezawodnosc - Maintenance and Reliability21 citationsDOIOpen Access PDF

Abstract

Many lives and aircrafts have been lost due to human errors associated with mental workload overload (MWLOL). Human errors are successfully considered in existing Fault Tree Analysis (FTA) methods. However, MWLOL is considered through Performance Shaping Factors indirectly and its information is hidden in FT construction, which is not conducive to analyze the root causes of human errors and risks. To overcome this difficulty, we develop a risk analysis method where Multiple Resources Model (MRM) is incorporated into FTA methods. MRM analyzes mental workload by estimating the resources used during performing concurrent tasks, probably including abnormal situation handling tasks introduced by basic events in FT. Such basic events may cause MWLOL and then trigger corresponding human error events. A MWLOL gate is proposed to describe MWLOL explicitly and add these new relationships to traditional FT. This new method extends previous FTA methods and provides a more in-depth risk analysis. An accident, a helicopter crash in Maryland, is analyzed by the proposed method.

Topics & Concepts

WorkloadFault tree analysisAviation accidentHuman errorComputer scienceCrashAviationReliability engineeringRoot causeRoot cause analysisData miningRisk analysis (engineering)EngineeringMedicineAerospace engineeringOperating systemProgramming languageOccupational Health and Safety ResearchRisk and Safety AnalysisHuman-Automation Interaction and Safety