Wearable light field optical see-through display to avoid user dependent calibrations: A feasibility study

2016 SAI Computing Conference (SAI) Pub Date : 2016-07-13 DOI:10.1109/SAI.2016.7556132

V. Ferrari, E. M. Calabro

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引用次数: 2

Abstract

Wearable augmented reality (AR) is a promising technology for surgical navigation and also for non-medical tasks. Optical see-through displays allow a direct view of the real world augmented with patient related virtual information, which is usually projected on semi-transparent displays placed in front of the eyes. A user-dependent display calibration is required to guarantee a coherent alignment between the virtual information projected on the display and the light rays of the real light field perceived by the user. Integral imaging (II) is a known approach to synthetically generate a light field. A semi-transparent mirror placed at 45° in front of an II display allows obtaining a light field see-through display. In this approach real and virtual information are perceived as coherently aligned independently to the user. In this work we used geometric optics rules to design wearable AR displays, based on II and a semi-transparent mirror, with an optimized visual quality and a tolerated range of movement of the eye in respect to the display. An early implementation demonstrates the feasibility of the proposed solution to implement optical see-through displays that not require user dependent calibrations.

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避免用户依赖校准的可穿戴光场光学透明显示器:可行性研究

可穿戴增强现实(AR)是一项很有前途的外科导航技术，也可用于非医疗任务。光学透明显示器可以直接看到现实世界，增强与患者相关的虚拟信息，这些信息通常投射在放置在眼睛前面的半透明显示器上。需要用户依赖的显示校准，以保证投影在显示器上的虚拟信息与用户感知的真实光场的光线之间的相干对齐。积分成像(II)是一种已知的合成产生光场的方法。在II显示器前放置45°的半透明镜子可以获得光场透明显示。在这种方法中，真实和虚拟信息被认为是连贯一致的，独立于用户。在这项工作中，我们使用几何光学规则来设计基于II和半透明镜子的可穿戴AR显示器，具有优化的视觉质量和眼睛相对于显示器的可容忍运动范围。早期的实现证明了所提出的解决方案的可行性，以实现光学透明显示器，不需要用户依赖的校准。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2016 SAI Computing Conference (SAI)

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