Enhanced vision flight deck technology for commercial aircraft low-visibility surface operations

机译：增强视野的驾驶舱技术，用于商用飞机低视力水面操作

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NASA Langley Research Center and the FAA collaborated in an effort to evaluate the effect of Enhanced Vision (EV) technology display in a commercial flight deck during low visibility surface operations. Surface operations were simulated at the Memphis, TN (FAA identifier: KMEM) airfield during nighttime with 500 Runway Visual Range (RVR) in a high-fidelity, full-motion simulator. Ten commercial airline flight crews evaluated the efficacy of various EV display locations and parallax and minification effects. The research paper discusses qualitative and quantitative results of the simulation experiment, including the effect of EV display placement on visual attention, as measured by the use of non-obtrusive oculometry and pilot mental workload. The results demonstrated the potential of EV technology to enhance situation awareness which is dependent on the ease of access and location of the displays. Implications and future directions are discussed.

机译：美国宇航局兰利研究中心和美国联邦航空局共同努力，在低能见度地面操作过程中，评估了增强视觉（EV）技术在商用驾驶舱中的显示效果。夜间，在田纳西州的孟菲斯机场（FAA标识符：KMEM）使用500跑道视场（RVR）在高保真，全运动模拟器中对地面操作进行了模拟。十名商业航空公司的飞行机组人员评估了各种EV显示位置以及视差和缩小效果的功效。该研究论文讨论了模拟实验的定性和定量结果，包括EV显示器放置对视觉注意力的影响，这是通过使用非强制性眼动仪和飞行员心理工作量来衡量的。结果表明，电动汽车技术具有增强态势感知的潜力，这取决于显示器的可及性和位置的难易程度。涵义和未来的方向进行了讨论。

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《Conference on degraded visual environments: enhanced, synthetic, and external vision solutions》|2013年|873707.1-873707.13|共13页
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Jarvis (Trey) J. Arthur III; R. Michael Norman; Lynda J. Kramer; Lawrence J. Prinzel III; Kyle K. E. Ellis; Stephanie J. Harrison; J. Ray Comstock;
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Enhanced Flight Vision Systems; Enhanced Vision; NextGen; Equivalent Visual Operations; Flight Simulation;

机译：增强的飞行视觉系统;增强视野;下一代;等效的视觉操作;飞行模拟;

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专利

1. Commercial Flight Crew Decision Making During Low-Visibility Approach Operations Using Fused Synthetic and Enhanced Vision Systems [J] . Lynda J. Kramer, Randall E. Bailey, Lawrence J. Prinzel III The international journal of aviation psychology . 2009,第2期

机译：使用融合合成和增强视觉系统的低能见度进近操作中的商业飞行机组决策
2. Synthetic Vision Enhanced Surface Operations With Head-Worn Display for Commercial Aircraft [J] . Jarvis (Trey) J. Arthur III, Lawrence J. Prinzel III, Kevin J. Shelton, The international journal of aviation psychology . 2009,第2期

机译：商用飞机的头戴式显示器可增强合成视觉的地面操作
3. High-Fidelity Line Operational Simulation Evaluation of Synthetic Vision Flight Deck Technology for Enhanced Unusual Attitude Awareness and Recovery [J] . Ellis Kyle K., Prinzel Lawrence J. III, Kiggins Daniel K., International Journal of Human-Computer Interaction . 2021,第6a10期

机译：高保真线运行仿真评价综合视觉飞行牌技术，提高异常态度意识和恢复
4. Enhanced vision flight deck technology for commercial aircraft low-visibility surface operations [C] . Jarvis (Trey) J. Arthur III, R. Michael Norman, Lynda J. Kramer, Conference on degraded visual environments: enhanced, synthetic, and external vision solutions . 2013

机译：用于商用飞机低可见性表面操作的增强视觉飞行牌技术
5. Holistic Planning Tool to Reduce Commercial Aircraft Fuel Consumption during Ground and Flight Operations [D] . Lattanzio, Santiago. 2021

机译：整体规划工具，减少地面和飞行业务期间的商用飞机燃料消耗
6. Touchscreens for Aircraft Navigation Tasks: Comparing Accuracy andThroughput of Three Flight Deck Interfaces Using Fitts’ Law [O] . Nout C. M. van Zon, Clark Borst, Daan M. Pool, -1

机译：飞机导航任务的触摸屏：比较准确性和FITS法律三种飞行甲板接口的吞吐量
7. Enhanced Vision Flight Deck Technology for Commercial Aircraft Low-Visibility Surface Operations [O] . Harrison Stephanie J., Ellis Kyle K. E., Kramer Lynda J., 2013

机译：商用飞机低能见度地面操作的增强型视觉飞行甲板技术
8. Enhanced Vision Flight Deck Technology for Commercial Aircraft Low-Visibility Surface Operations. [R] . Norman, R. M., Harrison, S. J. 2013

机译：用于商用飞机低能见度地面操作的增强视觉飞行甲板技术。

Enhanced vision flight deck technology for commercial aircraft low-visibility surface operations

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