蹦床:一种双面弹性触碰装置,用于创造解脱

Jaehyun Han, Jiseong Gu, Geehyuk Lee
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引用次数: 16

摘要

虽然浮雕经常用于在产品表面添加图案,但缺乏在虚拟对象表面上对浮雕进行建模的交互技术。我们采用了一种替代的交互技术来模拟虚拟表面上的浮雕。为了支持这种交互技术,我们开发了双面触摸板蹦床,它可以检测手指在两侧触摸的位置和力度。此外,蹦床为用户提供弹性反馈,因为它的表面由可拉伸的织物组成。我们使用该设备和开发的交互技术实现了一个救济应用程序。一项非正式的用户研究表明,拟议的系统可能是一个有希望的解决方案,以创造救济。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Trampoline: a double-sided elastic touch device for creating reliefs
Although reliefs are frequently used to add patterns to product surfaces, there is a lack of interaction techniques to model reliefs on the surface of virtual objects. We adopted the repoussé and chasing artwork techniques in an alternative interaction technique to model relief on virtual surfaces. To support this interaction technique, we developed the double-sided touchpad Trampoline that can detect the position and force of a finger touch on both sides. Additionally, Trampoline provides users with elastic feedback, as its surface consists of a stretchable fabric. We implemented a relief application with this device and the developed interaction technique. An informal user study showed that the proposed system can be a promising solution to create reliefs.
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