Investigating Offshore Helicopter Pilots’ Cognitive Load and Physiological Responses during Simulated In-Flight Emergencies

IF 1 4区 心理学 Q4 PSYCHOLOGY, APPLIED
M. Taber
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引用次数: 1

Abstract

ABSTRACT Objectives: This study was designed to explore pilots’ emergency response performance by collecting real-time physiological and cognitive workload data during pre-defined offshore helicopter scenarios in a flight simulator. Background: Qualification processes require helicopter pilots to complete scheduled simulation training to ensure competency in areas that would otherwise be too dangerous to practice while flying the actual helicopter. Unfortunately, little is known about how effective this simulation training is in regard to cognitive and physiological responses. Methods: Ten qualified pilots completed six flight simulations while real-time eye tracking and physiological data were collected. The pilots were assigned to one of two groups based on their regular flying position (First Officer (FO) or Captain). Results: The findings indicated that there is a significant difference in maximal Index of Cognitive Activity (ICAmax) and maximal heart rate (HRmax) values between the two groups while completing the same in-flight emergency scenarios. Conclusions: Results suggest that FOs found the sessions more cognitively demanding and also indicated they would benefit from learning how Captains conduct their radial scan of instruments. Therefore, it is recommended that visual search patterns are included in initial training, all flight simulator training includes eye tracking, heart rate data are collected, and that future longitudinal research follows new pilots through their training/upgrading process.
海上直升机飞行员在模拟飞行紧急情况下的认知负荷和生理反应研究
摘要目的:本研究旨在通过在飞行模拟器中收集预先定义的海上直升机场景中的实时生理和认知工作量数据,来探索飞行员的应急响应表现。背景:资格认证过程要求直升机飞行员完成预定的模拟训练,以确保在驾驶实际直升机时能够胜任危险区域的训练。不幸的是,人们对这种模拟训练在认知和生理反应方面的有效性知之甚少。方法:10名合格飞行员完成了6次飞行模拟,同时收集了实时眼动追踪和生理数据。飞行员根据他们的常规飞行位置被分配到两组中的一组(副驾驶或机长)。结果:研究结果表明,在完成相同的飞行紧急场景时,两组的最大认知活动指数(ICAmax)和最大心率(HRmax)值存在显著差异。结论:研究结果表明,FOs发现这些训练对认知要求更高,也表明他们将从学习上尉如何进行仪器径向扫描中受益。因此,建议将视觉搜索模式纳入初始训练,所有飞行模拟器训练都包括眼动追踪,收集心率数据,并在未来的纵向研究中跟踪新飞行员的训练/升级过程。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
2.80
自引率
7.70%
发文量
0
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