Functional Allocation of Roles Between Humans and Automation for a Pairing Tool Used for Simultaneous Approaches

The International journal of aviation psychology Pub Date : 2013-10-01 DOI:10.1080/10508414.2013.833764

S. Verma, T. Kozon, D. Ballinger, A. Farrahi

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引用次数: 1

Abstract

Aircraft operations on parallel runways continue to motivate research into tools that can improve capacity safely by defining and automating procedures. However, there is no formal process or automation tool today to assist the air traffic controller with pairing aircraft for simultaneous approaches. To address this need, a controller-based aircraft pairing tool to assist controllers in pairing and aligning aircraft for simultaneous arrivals to parallel runways 750 ft apart was developed. Two simulation studies conducted at the National Aeronautics and Space Administration (NASA) Ames Research Center evaluated different stages of evolution of this tool. The respective roles of the controller and the automation tool were adjusted in the second experiment based on the results of the first experiment. Results indicate improvement on all dependent variables in the second study and suggest an implementation in a broader sense in light of the benefits provided by “adaptable” automation (Scerbo, 2001) where changes in the levels of automation are evoked by the user's actions.

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用于同步方法的配对工具在人与自动化之间的角色功能分配

飞机在平行跑道上的运行继续激发对工具的研究，这些工具可以通过定义和自动化程序来安全提高运力。然而，目前还没有正式的流程或自动化工具来协助空中交通管制员配对飞机同时进近。为了满足这一需求，开发了一种基于管制员的飞机配对工具，以帮助管制员配对和对齐同时到达的飞机，并使其在相距750英尺的平行跑道上同时到达。美国国家航空航天局(NASA)艾姆斯研究中心进行的两项模拟研究评估了该工具发展的不同阶段。在第一次实验结果的基础上，在第二次实验中调整了控制器和自动化工具各自的角色。结果表明，在第二项研究中，所有因变量都得到了改善，并建议在更广泛的意义上实施“适应性”自动化(serbo, 2001)所提供的好处，其中自动化水平的变化是由用户的行为引起的。

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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The International journal of aviation psychology

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