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预测空中交通管制员的工作量:轨迹不确定性作为交通密度通过交通冲突对管制员工作量产生间接影响的调节因素。

Predicting Air Traffic Controller Workload: Trajectory Uncertainty as the Moderator of the Indirect Effect of Traffic Density on Controller Workload Through Traffic Conflict.

作者信息

Corver Sifra Christina, Unger Dana, Grote Gudela

机构信息

Eidgenössische Technische Hochschule (ETH) Zurich, Switzerland

Eidgenössische Technische Hochschule (ETH) Zurich, Switzerland.

出版信息

Hum Factors. 2016 Jun;58(4):560-73. doi: 10.1177/0018720816639418. Epub 2016 Apr 13.

DOI:10.1177/0018720816639418
PMID:27076095
Abstract

OBJECTIVE

Our study investigates whether trajectory uncertainty moderates the relationship between traffic conflict and workload. Furthermore, we examine if the indirect effect of traffic density on workload through traffic conflict is conditional on the presence of trajectory uncertainty.

BACKGROUND

Although it is widely accepted that uncertainty related to the future trajectory of an aircraft impacts air traffic controller decision making, little is known about how the presence of trajectory uncertainty impacts controller workload. A better understanding of the impact on controller workload can improve workload prediction models for en route air traffic control.

METHOD

We collected data in a live operation environment, including workload ratings based on over-the-shoulder observations and real-time sector data. Hierarchical linear modeling was used to analyze the data.

RESULTS

Trajectory uncertainty interacts with traffic conflict in such a way that the positive relationship between traffic conflict and workload is strongest in the presence of trajectory uncertainty. Furthermore, we found that the mediating effect of traffic density through traffic conflict is conditional on the presence of trajectory uncertainty.

CONCLUSION

Our results indicate that workload prediction tools that do not incorporate trajectory uncertainty may underestimate workload under conditions of trajectory uncertainty, leading to possible overload situations of air traffic controllers.

APPLICATION

Sources that generate trajectory uncertainty, as well as their interaction effects with dynamic complexity metrics, should be acknowledged in workload prediction models to increase the predictive power of these models. Implications for future air traffic management operations as envisioned by SESAR and NextGen are discussed.

摘要

目的

我们的研究调查轨迹不确定性是否会调节交通冲突与工作量之间的关系。此外,我们还研究交通密度通过交通冲突对工作量产生的间接影响是否取决于轨迹不确定性的存在。

背景

尽管人们普遍认为与飞机未来轨迹相关的不确定性会影响空中交通管制员的决策,但对于轨迹不确定性的存在如何影响管制员的工作量却知之甚少。更好地理解对管制员工作量的影响可以改进航路空中交通管制的工作量预测模型。

方法

我们在实际运行环境中收集数据,包括基于肩并肩观察的工作量评级和实时扇区数据。使用分层线性模型分析数据。

结果

轨迹不确定性与交通冲突相互作用,使得在存在轨迹不确定性的情况下,交通冲突与工作量之间的正相关关系最为强烈。此外,我们发现交通密度通过交通冲突产生的中介效应取决于轨迹不确定性的存在。

结论

我们的结果表明,未纳入轨迹不确定性的工作量预测工具可能会在轨迹不确定性条件下低估工作量,从而导致空中交通管制员可能出现过载情况。

应用

工作量预测模型应考虑产生轨迹不确定性的因素及其与动态复杂性指标的相互作用,以提高这些模型的预测能力。文中还讨论了SESAR和NextGen所设想的对未来空中交通管理运营的影响。

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