Multisensory Cueing to Resolve Helicopter Drift Detection in DVE

Proceedings of the Vertical Flight Society 76th Annual Forum Pub Date : 2020-10-05 DOI:10.4050/f-0076-2020-16416

A. Rupert, Drip, J. C. Brill, B. McGrath, Bruce J. P. Mortimer

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引用次数: 3

Abstract

Spatial Disorientation (SD) mishaps account for the greatest loss of lives in both military and civilian aviation worldwide. When no mechanical cause of a mishap is identified, mishap investigators can use flight data recorder information to populate perceptual models with aircraft flight parameters in order to confirm or deny that pilot SD was the probable cause of the mishap. Current perceptual model weaknesses include the inability to analyze hover and hover-transition mishaps and not accounting for sensory inputs from the auditory and somatosensory systems. The authors have conducted in-flight helicopter perceptual threshold studies to extend the model envelop to include hover as well as a series of tactile cueing in-flight studies in fixed-wing aircraft to permit the inclusion of somatosensory information into the model. This expanded model, by including all sensory modalities, now provides a probable solution to prevention of SD mishaps by continuously maintaining spatial orientation via multisensory cueing. Examples of application of the model to recent high-profile mishaps are included.

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多感官线索解决直升机漂移检测在DVE

空间定向障碍(SD)事故是世界范围内军事和民用航空中最大的生命损失。当没有确定事故的机械原因时，事故调查人员可以使用飞行数据记录仪信息填充带有飞机飞行参数的感知模型，以确认或否认飞行员SD是事故的可能原因。目前的感知模型的弱点包括无法分析悬停和悬停转换事故，也没有考虑到来自听觉和体感系统的感觉输入。作者进行了飞行中的直升机感知阈值研究，以扩展模型包络，包括悬停，以及固定翼飞机飞行中的一系列触觉提示研究，以允许将体感信息包含到模型中。这个扩展模型包含了所有的感官模式，现在提供了一个可能的解决方案，通过多感官线索持续保持空间方向，以防止SD事故的发生。文中还包括了将该模型应用于近期引人注目的事故的例子。

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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Proceedings of the Vertical Flight Society 76th Annual Forum

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