Regarding Pilot Usage of Display Technologies for Improving Awareness of Aircraft System States

Regarding Pilot Usage of Display Technologies for Improving Awareness of Aircraft System States

Avionics-related systems and the procedures for interacting with them appear to be growing in complexity. This trend places a larger burden on pilots to manage increasing amounts of information and to understand system interactions. The result is an increase in the likelihood of loss of airplane sta...

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Bibliographic Details
Published in:2019 IEEE Aerospace Conference pp. 1 - 11
Main Authors: Daniels, Taumi S., Ferguson, Cailin M., Dangtran, Ellen T., Korovin, Rebecca M., Kramer, Lynda J., Evans, Emory T., Santiago-Espada, Yamira, Kiggins, Daniel J., Etherington, Timothy J., Barnes, James R.
Format: Conference Proceeding
Language:English
Published: IEEE 01-03-2019
Subjects:
Aerospace electronics
Airplanes
Automation
NASA
Phase frequency detector
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Summary:Avionics-related systems and the procedures for interacting with them appear to be growing in complexity. This trend places a larger burden on pilots to manage increasing amounts of information and to understand system interactions. The result is an increase in the likelihood of loss of airplane state awareness (ASA). One way to gain more insight into this issue is through experimentation using objective measures of visual behavior. This study summarizes an analysis of oculometer data obtained during a high-fidelity flight simulation study that included a variety of complex pilot-system interactions that occur in current flight decks, as well as several planned for the next generation air transportation system. The study was comprised of various scenarios designed to induce low and high energy aircraft states coupled with other emulated causal factors in recent accidents. Three different display technologies were evaluated in this recent pilot-in-the-loop study conducted at NASA Langley Research Center. These technologies include a stall recovery guidance algorithm and display concept, an enhanced airspeed control indication of when the automation is no longer actively controlling airspeed, and enhanced synoptic diagrams with corresponding simplified electronic interactive checklists. Multiple data analyses were performed to understand how the 26 participating airline pilots were observing ASA-related information provided during different stages of flights and in response to specific events within these stages.
DOI:10.1109/AERO.2019.8741948