体积增强现实显示器对人类深度判断的影响:对运输中的平视显示器的影响

IF 0.2 Q4 COMPUTER SCIENCE, CYBERNETICS
Lee Lisle, Coleman Merenda, Kyle Tanous, Hyungil Kim, Joseph L. Gabbard, D. Bowman
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引用次数: 5

摘要

许多驾驶场景都需要正确地深入感知道路元素,并在适当的时候手动做出反应。最近,增强现实(AR)平视显示器(hud)已经被探索用于帮助驾驶员识别道路元素,通过使用无数的AR界面设计,包括感知放置在前方驾驶场景中的世界固定图形。据称,与传统hud相比,体积AR hud通过自然呈现动眼肌提示,提高了距离感知的准确性。在本文中,作者量化了参与者在以自我为中心的7-12米距离上将虚拟物体与现实世界中的物体相匹配的表现,同时使用了体积和固定焦平面AR hud。作者发现,体积HUD与远距离的更快、更准确的深度判断有关,并且随着实验的进行,参与者进行深度判断的速度也会更快。作者观察到两种显示器在报告的模拟器疾病或眼睛疲劳方面没有差异。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effects of Volumetric Augmented Reality Displays on Human Depth Judgments: Implications for Heads-Up Displays in Transportation
Many driving scenarios involve correctly perceiving road elements in depth and manually responding as appropriate. Of late, augmented reality (AR) head-up displays (HUDs) have been explored to assist drivers in identifying road elements, by using a myriad of AR interface designs that include world-fixed graphics perceptually placed in the forward driving scene. Volumetric AR HUDs purportedly offer increased accuracy of distance perception through natural presentation of oculomotor cues as compared to traditional HUDs. In this article, the authors quantify participant performance matching virtual objects to real-world counterparts at egocentric distances of 7-12 meters while using both volumetric and fixed-focal plane AR HUDs. The authors found the volumetric HUD to be associated with faster and more accurate depth judgements at far distance, and that participants performed depth judgements more quickly as the experiment progressed. The authors observed no differences between the two displays in terms of reported simulator sickness or eye strain.
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来源期刊
CiteScore
4.70
自引率
0.00%
发文量
5
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