Rotational Self-motion Cues Improve Spatial Learning when Teleporting in Virtual Environments

Proceedings of the 2020 ACM Symposium on Spatial User Interaction Pub Date : 2020-10-30 DOI:10.1145/3385959.3418443

A. Lim, Jonathan W. Kelly, Nathan C. Sepich, L. Cherep, Grace C. Freed, Stephen B Gilbert

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引用次数: 6

Abstract

Teleporting interfaces are widely used in virtual reality applications to explore large virtual environments. When teleporting, the user indicates the intended location in the virtual environment and is instantly transported, typically without self-motion cues. This project explored the cost of teleporting on the acquisition of survey knowledge (i.e., a ”cognitive map”). Two teleporting interfaces were compared, one with and one without visual and body-based rotational self-motion cues. Both interfaces lacked translational self-motion cues. Participants used one of the two teleporting interfaces to find and study the locations of six objects scattered throughout a large virtual environment. After learning, participants completed two measures of cognitive map fidelity: an object-to-object pointing task and a map drawing task. The results indicate superior spatial learning when rotational self-motion cues were available. Therefore, virtual reality developers should strongly consider the benefits of rotational self-motion cues when creating and choosing locomotion interfaces.

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旋转自我运动提示提高空间学习时，在虚拟环境中传送

远程传送接口广泛应用于虚拟现实应用中，用于探索大型虚拟环境。当传送时，用户在虚拟环境中指示目标位置，并立即被传送，通常没有自我运动提示。本项目探讨了远程传送在获取调查知识(即“认知地图”)方面的成本。比较了两种传送界面，一种有，一种没有视觉和基于身体的旋转自我运动线索。两个界面都缺乏平移自运动提示。参与者使用两个传送接口中的一个来寻找和研究分散在一个大型虚拟环境中的六个物体的位置。学习后，参与者完成了两项认知地图保真度测试:一项是物体对物体的指向任务，另一项是地图绘制任务。结果表明，当有旋转的自我运动提示时，他们的空间学习能力更强。因此，虚拟现实开发人员在创建和选择运动界面时应该强烈考虑旋转自运动提示的好处。

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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Proceedings of the 2020 ACM Symposium on Spatial User Interaction

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