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直升机飞行紧急情况中飞行员承受的工作量的定量评估:自转期间生理参数的分析。

Quantitative assessment of pilot-endured workloads during helicopter flying emergencies: an analysis of physiological parameters during an autorotation.

机构信息

Instituto Tecnológico de Aeronáutica, São José dos Campos, 12228-900, Brazil.

Instituto de Pesquisas e Ensaio em Voo (IPEV), São José dos Campos, 12228-900, Brazil.

出版信息

Sci Rep. 2021 Sep 6;11(1):17734. doi: 10.1038/s41598-021-96773-y.

DOI:10.1038/s41598-021-96773-y
PMID:34489481
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8421440/
Abstract

The procedures to be performed after sudden engine failure of a single-engine helicopter impose high workload on pilots. The maneuver to regain aircraft control and safe landing is called autorotation. The safety limits to conduct this maneuver are based on the aircraft height versus speed diagram, which is also known as "Dead Man's Curve". Flight-test pilots often use subjective methods to assess the difficulty to conduct maneuvers in the vicinity of this curve. We carried out an extensive flight test campaign to verify the feasibility of establishing quantitative physiological parameters to better assess the workload endured by pilots undergoing those piloting conditions. Eleven pilots were fully instrumented with sensors and had their physiological reactions collected during autorotation maneuvers. Our analyses suggested that physiological measurements (heart rate and electrodermal activity) can be successfully recorded and useful to capture the most effort-demanding effects during the maneuvers. Additionally, the helicopter's flight controls displacements were also recorded, as well as the pilots' subjective responses evaluated by the Handling Qualities Rate scale. Our results revealed that the degree of cognitive workload was associated with the helicopter's flight profile concerning the Height-Speed diagram and that the strain intensity showed a correlation with measurable physiological responses. Recording flight controls displacement and quantifying the pilot's subjective responses show themselves as natural effective candidates to evaluate the intensity of cognitive workload in such maneuvers.

摘要

单引擎直升机突然发动机故障后需要执行的程序给飞行员带来了很大的工作负荷。恢复飞机控制并安全降落的操作称为自转。进行此操作的安全限制基于飞机高度与速度图,也称为“Dead Man's Curve”。飞行测试飞行员通常使用主观方法来评估在该曲线附近进行操作的难度。我们进行了广泛的飞行测试活动,以验证建立定量生理参数来更好地评估飞行员在这些飞行条件下所承受的工作负荷的可行性。十一名飞行员被完全配备了传感器,并在自转操作期间收集了他们的生理反应。我们的分析表明,生理测量(心率和皮肤电活动)可以成功记录下来,并且可以有效地捕捉到操作过程中最费力的影响。此外,还记录了直升机的飞行控制位移,以及飞行员通过操纵品质评定量表评估的主观反应。我们的结果表明,认知工作负荷的程度与直升机在高度-速度图中的飞行剖面有关,并且应变强度与可测量的生理反应相关。记录飞行控制位移和量化飞行员的主观反应表明,它们本身就是评估此类操作中认知工作负荷强度的自然有效候选者。

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Hum Brain Mapp. 2021 Jul;42(10):3168-3181. doi: 10.1002/hbm.25426. Epub 2021 May 4.
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