用于AR系统的立体视频透视头戴式显示器的开发

Proceedings IEEE and ACM International Symposium on Augmented Reality (ISAR 2000) Pub Date : 2000-10-05 DOI:10.1109/ISAR.2000.880925

A. Takagi, S. Yamazaki, Y. Saito, N. Taniguchi

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引用次数: 79

摘要

为了确定用于增强现实(AR)系统的立体视频透明头戴式显示器(HMD)的成像和显示系统的要求，进行了几何研究和实验。研究发现，立体成像系统的左右光轴必须彼此平行，显示系统也是如此。研究还发现，对于短距离处理真实空间的AR应用，有必要将成像系统的光轴与显示系统的光轴对齐，以避免空间感知误差。我们称之为“无视差”系统。在此基础上，研制了一种无视差、宽视场的立体可视头戴式显示器。实验还证实，成像系统的入口瞳孔沿轴向显示系统的出口瞳孔的小位移不会引起严重的空间感知误差。通过将成像系统的入口瞳孔位置移动30毫米，我们将HMD的厚度缩小到36毫米，重量减轻到340克。然后将HMD应用于实际的AR系统，验证了其实用性。

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Development of a stereo video see-through HMD for AR systems

Geometrical studies and experiments were carried out in order to specify requirements for the imaging and display systems of a stereo video see-through head-mounted display (HMD) for augmented reality (AR) systems. It was found that it was necessary to set the left and right optical axes of the stereoscopic imaging system to be parallel to one another, and likewise for the display system. It was also found that, for AR applications handling real spaces at short distances, it was necessary to align the optical axes of the imaging system with the optical axes of the display system in order to avoid spatial perception errors. We refer to this as a 'parallax-free' system. Based on these studies and experiments, a parallax-free stereo video see-through HMD with a wide field of view was developed. It was also confirmed experimentally that a small displacement of the entrance pupils of the imaging system along the axes to the exit pupils of the display system does not cause serious spatial perception errors. By displacing the position of the entrance pupils of the imaging system by 30 mm, we have downsized the HMD to a thickness of 36 mm and lightened it to 340 g. The HMD was then applied to an actual AR system and its usefulness was verified.

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Proceedings IEEE and ACM International Symposium on Augmented Reality (ISAR 2000)

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