与声悬浮的有形相互作用

Extended Abstracts of the 2019 CHI Conference on Human Factors in Computing Systems Pub Date : 2019-05-02 DOI:10.1145/3290607.3313265

A. Marzo, Steven Kockaya, Euan Freeman, J. Williamson

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引用次数: 4

摘要

声波悬浮可以在没有任何物理接触的情况下将毫米级的物体悬浮在半空中。由于能够定位空中物理体素，因此可以实现丰富的数据表示，因此该功能已被用于创建显示器。然而，大多数时候声悬浮的有趣特征没有被利用。声波悬浮是无害的，声音在物体周围绕射，因此我们可以把手伸进悬浮器，触摸悬浮的粒子而不会对我们造成伤害。在这个演示中，我们通过声学透明结构通过粒子，通过可穿戴悬浮装置在半空中操纵粒子或通过直接操纵移动多个粒子，展示了与声学悬浮粒子更切实的相互作用。我们希望这个演示能提供一个更切实的声音悬浮体验。由于所有展示的设备都是自己动手，我们鼓励游客进一步尝试声悬浮。

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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Tangible Interactions with Acoustic Levitation

Acoustic Levitation can hold millimetric objects in mid-air without any physical contact. This capability has been exploited to create displays since being able to position mid-air physical voxels enables for rich data representations. However, most of the times interesting features of acoustic levitation are not exploited. Acoustic Levitation is harmless and sound diffracts around objects, thus we can insert our hand inside the levitator and touch the levitated particles without harmful effect on us. In this demo, we showcase more tangible interactions with acoustically levitated particles by passing acoustically-transparent structures through the particles, manipulating particles in mid-air with wearable levitators or by moving multiple particles with direct manipulation. We hope that this demo provides a more tangible experience of acoustic levitation. Since all the presented devices are Do-It-Yourself, we encourage visitors to experiment further with acoustic levitation.

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Extended Abstracts of the 2019 CHI Conference on Human Factors in Computing Systems

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