Does the 'silent cockpit' reduce pilot workload?

The 23rd Digital Avionics Systems Conference (IEEE Cat. No.04CH37576) Pub Date : 2004-10-24 DOI:10.1109/DASC.2004.1391346

P. Hoogeboom, M. Joosse, H. Hodgetts, S. Straussberger, D. Schaefer

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引用次数: 9

Abstract

The introduction of a digital data link between air traffic control and the aircraft cockpit is likely to have an effect of crew situation awareness through the absence of 'party line' information. On the other hand, eliminating the pilots' exposure to background speech may have a positive effect on their workload since speech, by its very nature, has the potential of significantly disrupting other tasks. Whilst the first effect is comparatively well documented in the literature, potential positive effects of the absence of party line information have to date not been studied. This paper reports on an experiment, carried out in a fixed-base flight simulator in order to investigate the effects of the absence of background radiotelephony (R/T) on pilot workload. The experiment involved 24 approaches at a major European airport, which were carried out by four flight crews with and without background party line communication. To be able to assess the impact of the background speech for high levels of workload, all non-precision approaches were flown manually. The analysis was carried out along a number of axes: a variety of psycho-physiological indicators of pilot workload were measured and analyzed, such as heart rate and heart rate variability, eye blink rate, blood oxygen saturation, electro-dermal activity, and electro encephalography (EEG). Performance criteria included checklist completion times, missed ATC calls, and deviations from the approach path. Subjective workload ratings and pilot debriefings provided an additional source of information. The analysis was carried out for the different flight phases encountered during the extended approach, and the respective pilot roles (pilot flying, pilot non-flying). Results suggest that the absence of background speech does in fact have the potential to reduce pilot workload. This effect was observed from performance data and subjective data, and was stronger for the pilot non-flying than for the pilot flying.

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“静音驾驶舱”是否减少了飞行员的工作量?

在空中交通管制和飞机驾驶舱之间引入数字数据链，可能会通过缺乏“党线”信息而对机组人员的情况感知产生影响。另一方面，消除飞行员对背景语音的接触可能会对他们的工作量产生积极影响，因为语音本身就有可能严重干扰其他任务。虽然第一种影响在文献中有比较充分的记载，但缺乏党派路线信息的潜在积极影响迄今尚未得到研究。本文报告了在固定基地飞行模拟器中进行的一项实验，以研究无背景无线电话(R/T)对飞行员工作量的影响。这项实验涉及欧洲一个主要机场的24种方法，由四名机组人员在有或没有背景党线通信的情况下进行。为了能够评估背景语音对高水平工作量的影响，所有非精确方法都是手动飞行的。分析沿多个轴进行:测量和分析飞行员工作量的各种心理生理指标，如心率和心率变异性、眨眼率、血氧饱和度、皮肤电活动和脑电图(EEG)。性能标准包括检查表完成时间，错过ATC呼叫，偏离进近路径。主观工作量评级和试点情况汇报提供了额外的信息来源。对扩展进近期间遇到的不同飞行阶段和各自的飞行员角色(飞行员飞行，飞行员非飞行)进行了分析。结果表明，背景语音的缺失确实有可能减少飞行员的工作量。这种效应从性能数据和主观数据上都可以观察到，不飞行的飞行员比飞行的飞行员更强。

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

The 23rd Digital Avionics Systems Conference (IEEE Cat. No.04CH37576)

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