VR中三维目标选择的建模指向

Tor-Salve Dalsgaard, Jarrod Knibbe, Joanna Bergström
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引用次数: 6

摘要

虚拟现实(VR)允许用户像在物理世界中一样进行交互,比如触摸、移动和指向物体。为了在一定距离内选择物体,大多数VR技术依赖于通过用户身体上的一个或两个点(例如,在头部和手指上)投射光线,并在该光线上放置光标。然而,先前的研究表明,这种光线不能帮助用户达到最佳的指向精度,也不能与他们自然指向的方式相对应。我们试图找到最能描述自然指向遥远目标的特征。我们从手、手臂和身体的七个位置收集运动数据,同时参与者指着虚拟房间里的27个目标。我们评估了指向的特征,并分析了指向目标预测的特征集。我们的分析表明,对于最佳特征集,27个目标之间的分类准确率为87%,预测房间内指向目标的平均距离为23.56 cm。这些功能集可以为远距离物体选择提供更自然、更有效的VR指向技术的设计。
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Modeling Pointing for 3D Target Selection in VR
Virtual reality (VR) allows users to interact similarly to how they do in the physical world, such as touching, moving, and pointing at objects. To select objects at a distance, most VR techniques rely on casting a ray through one or two points located on the user’s body (e.g., on the head and a finger), and placing a cursor on that ray. However, previous studies show that such rays do not help users achieve optimal pointing accuracy nor correspond to how they would naturally point. We seek to find features, which would best describe natural pointing at distant targets. We collect motion data from seven locations on the hand, arm, and body, while participants point at 27 targets across a virtual room. We evaluate the features of pointing and analyse sets of those for predicting pointing targets. Our analysis shows an 87% classification accuracy between the 27 targets for the best feature set and a mean distance of 23.56 cm in predicting pointing targets across the room. The feature sets can inform the design of more natural and effective VR pointing techniques for distant object selection.
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