A Comparative Evaluation of Hypotheses to Explain the Black Hole Illusion

IF 1 4区 心理学 Q4 PSYCHOLOGY, APPLIED International Journal of Aerospace Psychology Pub Date : 2020-01-31 DOI:10.1080/24721840.2020.1719010
F. E. Robinson, Henry Williams, Dain S Horning, Adam T. Biggs
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引用次数: 6

Abstract

ABSTRACT Objective: This study comparatively evaluated seven hypotheses to explain the Black Hole Illusion. Background: Several hypotheses have been proposed to explain the Black Hole Illusion (BHI), with differing predictions. The Constant Visual Angle hypothesis predicts that short runways should cause greater BHI. Meanwhile, several other hypotheses predict that longer runways should cause more severe BHI. In addition, there is debate whether lack of ground cues promotes BHI via autokinesis or by biasing pilots’ perception of the runway. Method: Nineteen qualified pilots flew 27 simulated nighttime approaches in a fixed-base flight simulator. Participants flew under different combinations of runway length, starting distance from the runway, and starting altitude. We analyzed glideslope error, defined as a weighted sum of the error above or below a prescribed 3° glideslope, as well as RMSE around the approach path. Results: We found that pilots tended to demonstrate worse BHI effects during approaches to longer runways and when starting at low altitudes compared to high altitudes. Daylight and nighttime flights showed a similar variance around the glideslope. Conclusion: The constant visual angle hypothesis is not supported by our findings. We observed consistent glideslopes across starting locations and similar variance during day/night conditions, leading us to favor biased perception of the runway over autokinetic effects to explain the influence of contextual features on BHI.
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对解释黑洞错觉的假设的比较评价
摘要目的:本研究比较评价了解释黑洞错觉的七种假说。背景:有人提出了几个假说来解释黑洞错觉(BHI),但有不同的预测。恒定视角假说预测,短跑道应该会导致更大的BHI。同时,其他几个假设预测,较长的跑道应该会导致更严重的BHI。此外,缺乏地面线索是通过自主运动还是通过偏离飞行员对跑道的感知来促进BHI,这一点也存在争议。方法:19名合格飞行员在固定基地飞行模拟器中进行了27次模拟夜间进近。参与者在跑道长度、距跑道的起始距离和起始高度的不同组合下飞行。我们分析了下滑道误差,定义为高于或低于规定的3°下滑道的误差的加权和,以及进近路径周围的RMSE。结果:我们发现,与高海拔相比,飞行员在接近较长跑道时以及在低海拔起步时,往往表现出更差的BHI影响。日间和夜间飞行在下滑道周围显示出相似的变化。结论:恒定视角假说没有得到我们研究结果的支持。我们观察到起始位置的下滑道一致,在白天/晚上的条件下变化相似,这使我们倾向于对跑道的偏见感知,而不是对自动动力学效应的偏见,以解释背景特征对BHI的影响。
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CiteScore
2.80
自引率
7.70%
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0
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