Traxion: a tactile interaction device with virtual force sensation

Proceedings of the 26th annual ACM symposium on User interface software and technology Pub Date : 2013-10-08 DOI:10.1145/2501988.2502044

J. Rekimoto

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引用次数: 67

Abstract

This paper introduces a new mechanism to induce a virtual force based on human illusory sensations. An asymmetric signal is applied to a tactile actuator consisting of an electromagnetic coil, a metal weight, and a spring, such that the user feels that the device is being pulled (or pushed) in a particular direction, although it is not supported by any mechanical connection to other objects or the ground. The proposed tactile device is smaller (35.0 mm x 5.0 mm x 7.5 mm) and lighter (5.2 g) than any previous force-feedback devices, which have to be connected to the ground with mechanical links. This small form factor allows the device to be implemented in several novel interactive applications, such as a pedestrian navigation system that includes a finger-mounted tactile device or an (untethered) input device that features virtual force. Our experimental results indicate that this illusory sensation actually exists and the proposed device can switch the virtual force direction within a short period. We combined this new technology with visible light transmission via a digital micromirror device (DMD) projector and developed a position guiding input device with force perception.

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Traxion:具有虚拟力感的触觉交互装置

本文介绍了一种基于人的虚幻感觉诱导虚拟力的新机制。一个不对称的信号被应用到一个由电磁线圈、一个金属重量和一个弹簧组成的触觉执行器上，这样用户就会感觉到设备在一个特定的方向上被拉(或被推)，尽管它没有任何与其他物体或地面的机械连接。拟议的触觉装置比以前的任何力反馈装置更小(35.0毫米x 5.0毫米x 7.5毫米)和更轻(5.2克)，这些装置必须通过机械链接连接到地面。这种小巧的外形使得该设备可以应用于多种新颖的交互式应用中，例如行人导航系统，该系统包括一个手指安装的触觉设备或一个以虚拟力为特征的(不受束缚的)输入设备。实验结果表明，这种虚幻的感觉是真实存在的，该装置可以在短时间内切换虚拟力的方向。我们通过数字微镜装置(DMD)投影仪将这项新技术与可见光传输结合起来，开发了一种具有力感知的位置引导输入装置。

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 26th annual ACM symposium on User interface software and technology

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