A multimodal and signals fusion approach for assessing the impact of stressful events on Air Traffic Controllers

Gianluca Borghini,Géraud Granger,Fabrice Drogoul,Railane Benhacene,Birsen Acikel,Martina Ragosta,Jean Paul Imbert,Uğur Turhan,Stefano Bonelli,Gianluca Di Flumeri,Pietro Aricò,Ali Ozan,Paola Tomasello,Nicolina Sciaraffa,Fabio Babiloni

doi:10.1038/s41598-020-65610-z

Abstract

Stress is a word used to describe human reactions to emotionally, cognitively and physically challenging experiences. A hallmark of the stress response is the activation of the autonomic nervous system, resulting in the “fight-freeze-flight” response to a threat from a dangerous situation. Consequently, the capability to objectively assess and track a controller’s stress level while dealing with air traffic control (ATC) activities would make it possible to better tailor the work shift and maintain high safety levels, as well as to preserve the operator’s health. In this regard, sixteen controllers were asked to perform a realistic air traffic management (ATM) simulation during which subjective data (i.e. stress perception) and neurophysiological data (i.e. brain activity, heart rate, and galvanic skin response) were collected with the aim of accurately characterising the controller’s stress level experienced in the various experimental conditions. In addition, external supervisors regularly evaluated the controllers in terms of manifested stress, safety, and efficiency throughout the ATM scenario. The results demonstrated 1) how the stressful events caused both supervisors and controllers to underestimate the experienced stress level, 2) the advantage of taking into account both cognitive and hormonal processes in order to define a reliable stress index, and 3) the importance of the points in time at which stress is measured owing to the potential transient effect once the stressful events have ceased.

Highlights

Www.nature.com/scientificreports stress allow an operator to maintain a proper level of engagement and achieve a high level of performance[3]
Commission Implementing Regulation (E\U) 2017/373 (GM1 ATS.OR.310) acknowledges stress as an important safety problem and establishes the requirements to be met by EU air navigation service providers (ANSPs) to prevent and mitigate the negative effects of stress on Air traffic controllers (ATCOs) in order to ensure the safety of air traffic[10]
Repeated measures correlation analysis was performed between the ISA scores provided by the subject-matter experts (SMEs) and ATCOs at the same time instants throughout the execution of the ATM scenario

Summary

Introduction

Www.nature.com/scientificreports stress allow an operator to maintain a proper level of engagement and achieve a high level of performance[3]. Stress management abilities are important skills to be monitored and maintained In this connection, Commission Implementing Regulation (E\U) 2017/373 (GM1 ATS.OR.310) acknowledges stress as an important safety problem and establishes the requirements to be met by EU air navigation service providers (ANSPs) to prevent and mitigate the negative effects of stress on ATCOs in order to ensure the safety of air traffic[10]. The job of a controller includes a high level of responsibility in terms of both its social and its economic impact[11] In this connection, the current study aimed to develop a neurophysiological index in order to characterise a controller’s stress response during the execution of ATC activities, to be potentially used during training or testing activities in order to better manage and arrange volumes and sectorisation of airspace[12], and provide an objective measurement to support ANSPs in dealing with controller stress management and EU regulations

Methods

Results

Discussion

Conclusion