Simulated flight path control of fighter pilots and novice subjects at +3 Gz in a human centrifuge

Marc Dalecki, Otmar Leo Bock, Simon Guardiera

    Publikation: Beitrag in FachzeitschriftZeitschriftenaufsätzeForschung

    Abstract

    BACKGROUND: We have previously shown that subjects produce exaggerated manual forces in +3 Gz. When subjects execute discrete flight path changes in a flight simulator, their performance is less stable in +3 Gz than in +1 Gz. Here we explore whether Gz-related deficits are found with continuous flight path changes.

    METHODS: Novice subjects and fighter pilots sat in a high-fidelity flight simulator equipped with the reproduction of the Eurofighter 2000 cockpit, including the realistic flight stick, and pursued continuous altitude changes of a target airplane in +1 Gz and +3 Gz. Subjects also produced verbal responses in a Stroop task. Pursuit and Stroop tasks were administered alone and concurrently.

    RESULTS: Flight instability increased in +3 Gz compared to +1 Gz in novices (+46%), but not in pilots (+3%), and even there only during the first minute. Flight performance improved after the first minute in both subject groups. Stroop reaction time was higher in novices (+5.27%) than in pilots (+3.77%) at +3 Gz. Dual-task costs did not differ between groups or Gz levels.

    DISCUSSION: Deficits of force production in high Gz are largely compensated for when subjects apply forces to produce a continuously changing flight path. This compensation seems not to require additional cognitive resources and may be achieved by using visual feedback. Force production deficits in high Gz seem to have no appreciable effects on flight performance and cognitive load of experienced pilots using a force-plus-displacement stick in +3 Gz. It remains to be shown whether this conclusion extends to purely isometric sticks and to higher Gz levels.

    OriginalspracheEnglisch
    ZeitschriftAviation, space, and environmental medicine
    Jahrgang81
    Ausgabenummer5
    Seiten (von - bis)484-488
    Seitenumfang5
    ISSN0095-6562
    PublikationsstatusVeröffentlicht - 01.05.2010

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