Helicopter Pilots Synchronize Their Altitude with Ship Heave to Minimize Energy When Landing on a Ship’s Deck

IF 1 4区心理学 Q4 PSYCHOLOGY, APPLIED

International Journal of Aerospace Psychology Pub Date : 2021-04-03 DOI:10.1080/24721840.2020.1862659

Mathieu Thomas, J. M. Pereira Figueira, J. Serres, T. Rakotomamonjy, F. Ruffier, Antoine H. P. Morice

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引用次数: 2

Abstract

ABSTRACT Objective: This study aims at investigating helicopter pilots’ strategies to achieve ship deck landing. Background: Helicopter maritime operations are challenging, especially when it comes to landing on the moving decks of small ships, such as frigates, which can lead to dramatic accidents. Method: Expert pilots were requested to fly the full ship landing maneuver from approach to touchdown in an immersive simulator. Two sea states (3 and 4 on the Douglas Sea scale) and their resulting deck movements were used. Changes in helicopter altitude were correlated with deck heave movements throughout the maneuvers in order to scrutinize the helicopter-deck coupling. The energy at impact was measured. Results: The dynamics of helicopter-deck coupling evolved through two phases during the maneuver: Initially, no coupling then, coupling in phase between the helicopter vertical displacements and deck heave displacements. Moreover, the coupling reached higher values within the last 15 m to landing, corresponding to a hover phase and touchdown, and the correlation increased with sea level. This coupling might help in improving pilots’ safety since the greater the coupling at touchdown, the lesser the kinetic energy at impact. Conclusion: Coupling the helicopter vertical displacements with ship heave movements seems to be an efficient strategy to minimize energy at impact. Questions arise on both the rationale and the perceptual invariant behind such behavior and indicate the necessity of further investigation.

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直升机飞行员在甲板上着陆时将高度与船重同步，以最大限度地减少能量

摘要目的：本研究旨在探讨直升机飞行员实现甲板着陆的策略。背景：直升机海上作业具有挑战性，尤其是在护卫舰等小型船只的移动甲板上降落时，这可能会导致严重事故。方法：要求专业飞行员在沉浸式模拟器中进行从进近到着陆的全船着陆机动。使用了两种海况（道格拉斯海尺度上的3和4）及其产生的甲板运动。直升机高度的变化与整个机动过程中的甲板升沉运动相关，以仔细检查直升机甲板耦合。测量了撞击时的能量。结果：直升机甲板耦合动力学在机动过程中经历了两个阶段：最初没有耦合，然后是直升机垂直位移和甲板升沉位移之间的相位耦合。此外，在着陆的最后15米内，耦合达到了更高的值，对应于悬停阶段和着陆，并且相关性随着海平面的增加而增加。这种耦合可能有助于提高飞行员的安全性，因为着陆时的耦合越大，撞击时的动能就越小。结论：将直升机垂直位移与船舶升沉运动相耦合似乎是一种有效的策略，可以最大限度地减少撞击能量。对这种行为背后的基本原理和感知不变量都存在疑问，并表明有必要进行进一步调查。

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

International Journal of Aerospace Psychology PSYCHOLOGY, APPLIED-

CiteScore

2.80

自引率

7.70%

发文量