Many aircraft accidents each year are caused by encounters with unseen airflow hazards near the ground, such as vortices, downdrafts, low level wind shear, microbursts, or turbulence from surrounding vegetation or structures near the landing site. These hazards can be dangerous even to airliners; there have been hundreds of fatalities in the United States in the last two decades attributable to airliner encounters with microbursts and low level wind shear alone. However, helicopters are especially vulnerable to airflow hazards because they often have to operate in confined spaces and under operationally stressful conditions (such as emergency search and rescue, military or shipboard operations). Providing helicopter pilots with an augmented-reality display visualizing local airflow hazards may be of significant benefit. However, the form such a visualization might take, and whether it does indeed provide a benefit, had not been studied before our experiment. We recruited experienced military and civilian helicopter pilots for a preliminary usability study to evaluate a prototype augmented-reality visualization system. The study had two goals: first, to assess the efficacy of presenting airflow data in flight; and second, to obtain expert feedback on sample presentations of hazard indicators to refine our design choices. The study addressed the optimal way to provide critical safety information to the pilot, what level of detail to provide, whether to display specific aerodynamic causes or potential effects only, and how to safely and effectively shift the locus of attention during a high-workload task. Three-dimensional visual cues, with varying shape, color, transparency, texture, depth cueing, and use of motion, depicting regions of hazardous airflow, were developed and presented to the pilots. The study results indicated that such a visualization system could be of significant value in improving safety during critical takeoff and landing operations, and also gave clear indications of the best design choices in producing the hazard visual cues.


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    Title :

    Usability Evaluation of a Flight-Deck Airflow Hazard Visualization System


    Contributors:

    Conference:

    23rd Digital Avionics Systems Conference ; 2004 ; Salt Lake City, UT, United States


    Publication date :

    2004-07-30


    Type of media :

    Preprint


    Type of material :

    No indication


    Language :

    English






    < Prototype Flight-Deck Airflow Hazard Visualization System

    Aragon, C. R. / Society of Automotive Engineers | British Library Conference Proceedings | 2004



    A Prototype Flight-Deck Airflow Hazard Visualization System

    Aragon, Cecilia R. | SAE Technical Papers | 2004